Script start time: Fri Oct  4 05:10:12 MDT 2019

Script end: Fri Oct  4 08:54:47 MDT 2019


________________ESMF TRUNK EXTERNAL_DEMOS_BUILD_AND_TEST_SUMMARY________________________


                          DOC BUILD
               BUILD       INSTALL    OS.COMPILER.COMM.ABI       external demos
________________________________________________________________________________________
               PASS/FAIL   PASS/FAIL                              PASS/FAIL/SKIP
_________________________________________________________________________________________
linux-regtest2(g)PASS        PASS    Linux.gfortran.mpich3.64       190/0/0
linux-regtest2(O)PASS        PASS    Linux.gfortran.mpich3.64       190/0/0
________________________________________________________________________________________

Fri Oct  4 05:13:14 MDT 2019 on linux-regtest2.gsd.esrl.noaa.gov

ESMF Checkout Source: git://git.code.sf.net/p/esmf/esmf

Compiler and configuration information:

--------------------------------------------------------------
Currently Loaded Modulefiles:
 1) gfortran/4.8.5/gcc/4.8.5/mpich3/3.2.1 

ESMF Repository:
origin=09git://git.code.sf.net/p/esmf/esmf (fetch)
origin=09git://git.code.sf.net/p/esmf/esmf (push)

ESMF_8_0_0


External Demos  Repository:
origin=09git://git.code.sf.net/p/esmf/external_demos (fetch)
origin=09git://git.code.sf.net/p/esmf/external_demos (push)

ESMF_8_0_0



--------------------------------------------------------------
ESMF_VERSION_STRING:    8.0.0
ESMF_8_0_0
--------------------------------------------------------------
# On branch master
# Untracked files:
#   (use "git add ..." to include in what will be committed)
#
#=09tmp
nothing added to commit but untracked files present (use "git add" to t=
rack)
--------------------------------------------------------------

--------------------------------------------------------------
Make version:
GNU Make 3.82
Built for x86_64-redhat-linux-gnu
Copyright (C) 2010  Free Software Foundation, Inc.
License GPLv3+: GNU GPL version 3 or later 
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.

--------------------------------------------------------------
Fortran Compiler version:
GNU Fortran (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.

GNU Fortran comes with NO WARRANTY, to the extent permitted by law.
You may redistribute copies of GNU Fortran
under the terms of the GNU General Public License.
For more information about these matters, see the file named COPYING


--------------------------------------------------------------
C++ Compiler version:
g++ (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is=
 NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURP=
OSE.


--------------------------------------------------------------
Preprocessor version:
gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is=
 NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURP=
OSE.


--------------------------------------------------------------
 * User set ESMF environment variables *
ESMF_ABI64
ESMF_BOPTg
ESMF_COMMmpich3
ESMF_COMPILERgfortran
ESMF_DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esm=
f
ESMF_INSTALL_BINDIRbin
ESMF_INSTALL_HEADERDIRinclude
ESMF_INSTALL_LIBDIRlib
ESMF_INSTALL_MODDIRinclude
ESMF_INSTALL_PREFIX/export/scripts_dir/daily_builds/external_demos/g=
fortran/esmf/../install_dir
ESMF_NETCDF_INCLUDE/export/esmf_env/build/netcdf_gfortran/include
ESMF_NETCDF_LIBPATH/export/esmf_env/build/netcdf_gfortran/lib
ESMF_NETCDFsplit
ESMF_OSLinux
ESMF_SITEdefault
ESMF_TESTEXHAUSTIVEON
ESMF_TESTMPMDOFF
ESMF_TESTWITHTHREADSOFF

--------------------------------------------------------------
 * ESMF environment variables *
ESMF_DIR: /export/scripts_dir/daily_builds/external_demos/gfortran/esmf
ESMF_OS:                Linux
ESMF_MACHINE:           x86_64
ESMF_ABI:               64
ESMF_COMPILER:          gfortran
ESMF_BOPT:              g
ESMF_COMM:              mpich3
ESMF_SITE:              default
ESMF_PTHREADS:          ON
ESMF_OPENMP:            ON
ESMF_OPENACC:           OFF
ESMF_CXXSTD:            11
ESMF_ARRAY_LITE:        FALSE
ESMF_NO_INTEGER_1_BYTE: TRUE
ESMF_NO_INTEGER_2_BYTE: TRUE
ESMF_FORTRANSYMBOLS:    default
ESMF_MAPPER_BUILD:      OFF
ESMF_AUTO_LIB_BUILD:    ON
ESMF_DEFER_LIB_BUILD:   ON
ESMF_SHARED_LIB_BUILD:  ON
ESMF_TRACE_LIB_BUILD:   ON
ESMF_TESTEXHAUSTIVE:    ON
ESMF_TESTCOMPTUNNEL:    ON
ESMF_TESTWITHTHREADS:   OFF
ESMF_TESTMPMD:          OFF
ESMF_TESTSHAREDOBJ:     OFF
ESMF_TESTFORCEOPENMP:   OFF
ESMF_TESTFORCEOPENACC:  OFF
ESMF_TESTHARNESS_ARRAY: default
ESMF_TESTHARNESS_FIELD: default
ESMF_MPIRUN:            mpirun

--------------------------------------------------------------
 * ESMF environment variables pointing to 3rd party software *
ESMF_MOAB:               internal
ESMF_LAPACK:             internal
ESMF_ACC_SOFTWARE_STACK: none
ESMF_NETCDF:             split
ESMF_NETCDF_INCLUDE:     /export/esmf_env/build/netcdf_gfortran/include
ESMF_NETCDF_LIBS:        -lnetcdff -lnetcdf
ESMF_NETCDF_LIBPATH:     /export/esmf_env/build/netcdf_gfortran/lib
ESMF_YAMLCPP:            internal
ESMF_PIO:                internal

--------------------------------------------------------------
 * ESMF environment variables for final installation *
ESMF_INSTALL_PREFIX:    /export/scripts_dir/daily_builds/external_demos=
/gfortran/esmf/../install_dir
ESMF_INSTALL_HEADERDIR: include
ESMF_INSTALL_MODDIR:    include
ESMF_INSTALL_LIBDIR:    lib
ESMF_INSTALL_BINDIR:    bin
ESMF_INSTALL_DOCDIR:    doc

--------------------------------------------------------------
 * ESMF Benchmark directory and parameters *
ESMF_BENCHMARK_PREFIX:         ./DEFAULTBENCHMARKDIR
ESMF_BENCHMARK_TOLERANCE:      20%
ESMF_BENCHMARK_THRESHOLD_MSEC: 500

--------------------------------------------------------------
 * Other relevant environment variables *
PATH:    /export/esmf_env/build/netcdf_gfortran/bin:/export/esmf_env/bu=
ild/mpich-3.2.1/mpich3_gfortran/bin:/home/silverio.vasquez/bin:/usr/loc=
al/share/Modules/bin:/usr/bin:/bin:/usr/local/sbin:/usr/sbin:/home/silv=
erio.vasquez/.local/bin:/home/silverio.vasquez/bin:/home/silverio.vasqu=
ez/.local/bin:/home/silverio.vasquez/bin:/home/silverio.vasquez/.local/=
bin:/home/silverio.vasquez/bin:/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/../install_dir/bin:/home/silverio.vasquez/.local/=
bin:/home/silverio.vasquez/bin
LD_LIBRARY_PATH:

--------------------------------------------------------------
 * Compilers, Linkers, Flags, and Libraries *
Location of the preprocessor:      /usr/bin/gcc
Location of the Fortran compiler:  /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpif90
Location of the Fortran linker:    /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpif90
Location of the C++ compiler:      /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpicxx
Location of the C++ linker:        /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpicxx

Fortran compiler flags:
ESMF_F90COMPILER: mpif90
ESMF_F90COMPILEOPTS: -g -Wall -Wextra -Wconversion -Wno-unused -Wno-unu=
sed-dummy-argument -fbacktrace -fimplicit-none -fcheckarray-temps,bo=
unds,do,mem,recursion -fPIC  -m64 -mcmodelsmall -pthread -ffree-line=
-length-none  -fopenmp
ESMF_F90COMPILEPATHS: -I/export/scripts_dir/daily_builds/external_demos=
/gfortran/esmf/mod/modg/Linux.gfortran.64.mpich3.default -I/export/scri=
pts_dir/daily_builds/external_demos/gfortran/esmf/src/include -I/export=
/esmf_env/build/netcdf_gfortran/include
ESMF_F90COMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_B=
YTE -DESMFVERSIONGIT'ESMF_8_0_0' -DESMF_LAPACK1 -DESMF_LAPACK_INT=
ERNAL1 -DESMF_MOAB1 -DESMF_NO_ACC_SOFTWARE_STACK1 -DESMF_NETCD=
F1 -DESMF_YAMLCPP1 -DESMF_YAML1 -DESMF_PIO1 -DESMF_MPIIO -D=
ESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE -DESMF_BOPT_g -DESMF_TESTCOMPTUNN=
EL -DSx86_64_small1 -DESMF_OS_Linux1 -DESMF_COMMmpich3 -DESMF_=
DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esmf
ESMF_F90COMPILEFREECPP:
ESMF_F90COMPILEFREENOCPP: -ffree-form
ESMF_F90COMPILEFIXCPP: -cpp -ffixed-form
ESMF_F90COMPILEFIXNOCPP:

Fortran linker flags:
ESMF_F90LINKOPTS:    -m64 -mcmodelsmall -pthread -Wl,--no-as-needed =
 -fopenmp
ESMF_F90LINKPATHS: -L/export/scripts_dir/daily_builds/external_demos/gf=
ortran/esmf/lib/libg/Linux.gfortran.64.mpich3.default -L/export/esmf_en=
v/build/netcdf_gfortran/lib -L/usr/lib/gcc/x86_64-redhat-linux/4.8.5/
ESMF_F90LINKRPATHS: -Wl,-rpath,/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/lib/libg/Linux.gfortran.64.mpich3.default  -Wl,-r=
path,/export/esmf_env/build/netcdf_gfortran/lib -Wl,-rpath,/usr/lib/gcc=
/x86_64-redhat-linux/4.8.5/
ESMF_F90LINKLIBS:  -lrt -lstdc++ -ldl -lnetcdff -lnetcdf
ESMF_F90ESMFLINKLIBS: -lesmf  -lrt -lstdc++ -ldl -lnetcdff -lnetcdf

C++ compiler flags:
ESMF_CXXCOMPILER: mpicxx
ESMF_CXXCOMPILEOPTS: -stdc++11 -g -Wall -Wextra -Wno-unused  -fPIC -=
DESMF_LOWERCASE_SINGLEUNDERSCORE -m64 -mcmodelsmall -pthread  -fopen=
mp
ESMF_CXXCOMPILEPATHS:  -I/export/scripts_dir/daily_builds/external_demo=
s/gfortran/esmf/src/include  -I/export/esmf_env/build/netcdf_gfortran/i=
nclude -I/export/scripts_dir/daily_builds/external_demos/gfortran/esmf/=
src/prologue/yaml-cpp/include
ESMF_CXXCOMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_B=
YTE -DESMFVERSIONGIT'ESMF_8_0_0' -DESMF_LAPACK1 -DESMF_LAPACK_INT=
ERNAL1 -DESMF_MOAB1 -DESMF_NO_ACC_SOFTWARE_STACK1 -DESMF_NETCD=
F1 -DESMF_YAMLCPP1 -DESMF_YAML1 -DESMF_PIO1 -DESMF_MPIIO -D=
ESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE  -DESMF_BOPT_g -DESMF_TESTCOMPTUN=
NEL -DSx86_64_small1 -DESMF_OS_Linux1 -DESMF_COMMmpich3 -DESMF=
_DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esmf -D=
__SDIR__'' -DESMF_CXXSTD11

C++ linker flags:
ESMF_CXXLINKOPTS:   -m64 -mcmodelsmall -pthread -Wl,--no-as-needed  =
-fopenmp
ESMF_CXXLINKPATHS: -L/export/scripts_dir/daily_builds/external_demos/gf=
ortran/esmf/lib/libg/Linux.gfortran.64.mpich3.default -L/export/esmf_en=
v/build/netcdf_gfortran/lib -L/usr/lib/gcc/x86_64-redhat-linux/4.8.5/
ESMF_CXXLINKRPATHS: -Wl,-rpath,/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/lib/libg/Linux.gfortran.64.mpich3.default  -Wl,-r=
path,/export/esmf_env/build/netcdf_gfortran/lib -Wl,-rpath,/usr/lib/gcc=
/x86_64-redhat-linux/4.8.5/
ESMF_CXXLINKLIBS:  -lmpifort -lrt -lgfortran -ldl -lnetcdff -lnetcdf
ESMF_CXXESMFLINKLIBS: -lesmf  -lmpifort -lrt -lgfortran -ldl -lnetcdff =
-lnetcdf

Shared library build:
ESMF_SL_LIBS_TO_MAKE: libesmf
ESMF_SL_SUFFIX:       so
ESMF_SL_LIBLINKER:    mpicxx
ESMF_SL_LIBOPTS:       -shared  -fopenmp
ESMF_SL_LIBLIBS:     

ESMF Tracing linker options:
ESMF_TRACE_LDPRELOAD/export/scripts_dir/daily_builds/external_demos/=
gfortran/esmf/lib/libg/Linux.gfortran.64.mpich3.default/libesmftrace_pr=
eload.so
ESMF_TRACE_STATICLINKOPTS-static -Wl,--wrapc_esmftrace_notify_wra=
ppers -Wl,--wrapc_esmftrace_isinitialized -Wl,--wrapwrite -Wl,--w=
rapwritev -Wl,--wrappwrite -Wl,--wrapread -Wl,--wrapopen -W=
l,--wrapMPI_Allgather -Wl,--wrapMPI_Allgatherv -Wl,--wrapMPI_A=
llreduce -Wl,--wrapMPI_Alltoall -Wl,--wrapMPI_Alltoallv -Wl,--wra=
pMPI_Alltoallw -Wl,--wrapMPI_Barrier -Wl,--wrapMPI_Bcast -Wl,-=
-wrapMPI_Gather -Wl,--wrapMPI_Gatherv -Wl,--wrapMPI_Recv -Wl,-=
-wrapMPI_Reduce -Wl,--wrapMPI_Scatter -Wl,--wrapMPI_Send -Wl,-=
-wrapMPI_Sendrecv -Wl,--wrapMPI_Wait -Wl,--wrapMPI_Waitall -Wl=
,--wrapMPI_Waitany -Wl,--wrapMPI_Waitsome -Wl,--wrapmpi_allgat=
her_ -Wl,--wrapmpi_allgather__ -Wl,--wrapmpi_allgatherv_ -Wl,--wr=
apmpi_allgatherv__ -Wl,--wrapmpi_allreduce_ -Wl,--wrapmpi_allr=
educe__ -Wl,--wrapmpi_alltoall_ -Wl,--wrapmpi_alltoall__ -Wl,--wr=
apmpi_alltoallv_ -Wl,--wrapmpi_alltoallv__ -Wl,--wrapmpi_allto=
allw_ -Wl,--wrapmpi_alltoallw__ -Wl,--wrapmpi_barrier_ -Wl,--wrap=
mpi_barrier__ -Wl,--wrapmpi_bcast_ -Wl,--wrapmpi_bcast__ -Wl,-=
-wrapmpi_exscan_ -Wl,--wrapmpi_exscan__ -Wl,--wrapmpi_gather_ =
-Wl,--wrapmpi_gather__ -Wl,--wrapmpi_gatherv_ -Wl,--wrapmpi_ga=
therv__ -Wl,--wrapmpi_recv_ -Wl,--wrapmpi_recv__ -Wl,--wrapmpi=
_reduce_ -Wl,--wrapmpi_reduce__ -Wl,--wrapmpi_reduce_scatter_ -Wl=
,--wrapmpi_reduce_scatter__ -Wl,--wrapmpi_scatter_ -Wl,--wrapm=
pi_scatter__ -Wl,--wrapmpi_scatterv_ -Wl,--wrapmpi_scatterv__ -Wl=
,--wrapmpi_scan_ -Wl,--wrapmpi_scan__ -Wl,--wrapmpi_send_ -Wl,=
--wrapmpi_send__ -Wl,--wrapmpi_wait_ -Wl,--wrapmpi_wait__ -Wl,=
--wrapmpi_waitall_ -Wl,--wrapmpi_waitall__ -Wl,--wrapmpi_waita=
ny_ -Wl,--wrapmpi_waitany__
ESMF_TRACE_STATICLINKLIBS-lesmftrace_static


--------------------------------------------------------------
Compiling on Fri Oct 4 05:13:19 MDT 2019 on linux-regtest2.gsd.esrl.noa=
a.gov
Machine characteristics: Linux linux-regtest2.gsd.esrl.noaa.gov 3.10.0-=
1062.el7.x86_64 #1 SMP Thu Jul 18 20:25:13 UTC 2019 x86_64 x86_64 x86_6=
4 GNU/Linux
=
=


Fri Oct  4 05:32:43 MDT 2019 library build ............................=
.PASSED
Builds with warnings.
Fri Oct  4 05:33:13 MDT 2019 library install ..........................=
.PASSED
Fri Oct  4 05:33:16 MDT 2019 library installcheck .....................=
.PASSED
Fri Oct  4 05:33:18 MDT 2019 ESMF_CoupledFlow doc build ...............=
.PASSED


|--------------------------------- EXTERNAL DEMOS ---------------------=
-----|

Fri Oct  4 05:33:19 MDT 2019 ESMF_InstallationCheck ...................=
.PASSED
Output of ESMF_InstallationCheck.sh


ESMF Installation Check


1) Environment variable ESMFMKFILE: /export/scripts_dir/daily_builds/ex=
ternal_demos/gfortran/esmf/../install_dir/lib/esmf.mk
1a) Found esmf.mk according to ESMFMKFILE: ...YES.
1b) The ESMF_APPSDIR referenced by esmf.mk: ...EXISTS.
-> The ESMF_APPSDIR contains the following apps:
-> ESMF_Info
ESMF_InfoC
ESMF_Regrid
ESMF_RegridWeightGen
ESMF_Scrip2Unstruct
ESMF_WebServController

2) ESMF apps accessible through PATH environment variable: ...YES.

/export/scripts_dir/daily_builds/external_demos/gfortran/esmf/../instal=
l_dir/bin


Fri Oct  4 05:33:20 MDT 2019 build ESMC_HelloWorld ....................=
.PASSED
Fri Oct  4 05:33:20 MDT 2019 run_ESMC_HelloWorld (4 PET)...............=
.PASSED

Fri Oct  4 05:33:22 MDT 2019 build ESMF_HelloWorld ....................=
.PASSED
Fri Oct  4 05:33:22 MDT 2019 run_ESMF_HelloWorld (4 PET)...............=
.PASSED

Fri Oct  4 05:33:36 MDT 2019 build ESMF_CoupledFlow ...................=
.PASSED
Fri Oct  4 05:33:48 MDT 2019 run ESMF_CoupledFlow (4 PET)..............=
.PASSED



The following are the *.nc files generated:

-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 05:33 DE.nc
-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 05:33 FLAG.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224772 Oct  4 05:33 OMEGA.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224768 Oct  4 05:33 SIE.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 05:33 U_velocity.n=
c
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 05:33 V_velocity.n=
c


Fri Oct  4 05:34:04 MDT 2019 run ESMF_CoupledFlow (4 PET)..............=
.PASSED



The following are the *.nc files generated:

-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 05:33 DE.nc
-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 05:33 FLAG.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224772 Oct  4 05:34 OMEGA.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224768 Oct  4 05:34 SIE.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 05:34 U_velocity.n=
c
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 05:34 V_velocity.n=
c


Fri Oct  4 05:34:06 MDT 2019 build ESMF_Regrid ........................=
.PASSED
Fri Oct  4 05:34:56 MDT 2019 run ESMF_Regrid (4 PETs)..................=
.PASSED

The following is run output log:

 
 Mean relative error         2.0486342804909300E-004
 Maximum relative error      2.4778392255765256E-002
 Least squares error         5.5949766263568889E-004
 

 ESMF_Regrid - PASS



Fri Oct  4 05:35:23 MDT 2019 run ESMF_RegridWeightGenCheck dryrun .....=
.PASSED


Fri Oct  4 07:27:49 MDT 2019 run ESMF_RegridWeightGenCheck (4 PETS)....=
.PASSED


ESMF_MPIRUN: mpirun

ESMF_TOOLRUN:

NUM_PROCS: 4

Tests to be run:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Test or Dryrun Results:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3=
.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.ou=
t - PASSED
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out - P=
ASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out =
- PASSED
ll2.5deg_grid_to_T42_grid_bilinear_test10.out - PASSED
ll2.5deg_grid_to_T42_grid_patch_test11.out - PASSED
T42_grid_to_ll2.5deg_grid_patch_test12.out - PASSED
T42_grid_to_ll2.5deg_grid_bilinear_test13.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test15.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out - PASSED
T42_grid_to_wr50a_090614_bilinear_test18.out - PASSED
T42_grid_to_wr50a_090614_patch_test19.out - PASSED
T42_grid_to_wr50a_090614_conserve_test20.out - PASSED
T42_grid_to_wr50a_090614_conserve2nd_test21.out - PASSED
wr50a_090614_to_T42_grid_bilinear_test22.out - PASSED
wr50a_090614_to_T42_grid_patch_test23.out - PASSED
wr50a_090614_to_T42_grid_conserve_test24.out - PASSED
wr50a_090614_to_T42_grid_conserve2nd_test25.out - PASSED
T42_grid_to_ar9v4_100920_bilinear_test26.out - PASSED
T42_grid_to_ar9v4_100920_patch_test27.out - PASSED
T42_grid_to_ar9v4_100920_conserve_test28.out - PASSED
T42_grid_to_ar9v4_100920_conserve2nd_test29.out - PASSED
ar9v4_100920_to_T42_grid_bilinear_test30.out - PASSED
ar9v4_100920_to_T42_grid_patch_test31.out - PASSED
ar9v4_100920_to_T42_grid_conserve_test32.out - PASSED
wr50a_090614_to_ar9v4_100920_bilinear_test33.out - PASSED
wr50a_090614_to_ar9v4_100920_patch_test34.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve_test35.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out - PASSED
ar9v4_100920_to_wr50a_090614_bilinear_test37.out - PASSED
ar9v4_100920_to_wr50a_090614_patch_test38.out - PASSED
ar9v4_100920_to_wr50a_090614_conserve_test39.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out - PASSED
ne30np4-t2_to_wr50a_090614_bilinear_test52.out - PASSED
ne30np4-t2_to_wr50a_090614_patch_test53.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve_test54.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out - PASSED
wr50a_090614_to_ne30np4-t2_bilinear_test56.out - PASSED
wr50a_090614_to_ne30np4-t2_patch_test57.out - PASSED
ar9v4_100920_to_ne30np4-t2_conserve_test58.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out - PAS=
SED
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out - PAS=
SED
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out - PAS=
SED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out - PAS=
SED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out - =
PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out - =
PASSED
T42_grid_to_mpas_uniform_10242_dual_patch_test67.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out - PASSE=
D
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out - PASSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out=
 - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out - PA=
SSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out - =
PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out - PASSE=
D
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out=
 - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out - PA=
SSED
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out - PASSED
T42_grid_to_ww3a_120213_conserve_test83.out - PASSED
ww3a_120213_to_T42_grid_conserve_test84.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out - PASSED
wr50a_090614_to_wr50a_090614_neareststod_test89.out - PASSED
T42_grid_to_T42_grid_neareststod_test90.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out - PASSE=
D
wr50a_090614_to_wr50a_090614_nearestdtos_test92.out - PASSED
T42_grid_to_T42_grid_nearestdtos_test93.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out - PASSE=
D
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out - PASSED
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out - PASSE=
D
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out - PASSED
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out - PASSED
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out - PASSED
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out - PASSED
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out - PASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out - P=
ASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out - P=
ASSED
mpas_uniform_10242_to_T42_grid_conserve_test115.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve_test116.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out - PASSED
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out - PASSED
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out - PASSED
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out - PASSED
C48_mosaic_to_latlon_mosaic_bilinear_test122.out - PASSED
C48_mosaic_to_latlon_mosaic_patch_test123.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve_test124.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out - PASSED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out - PASS=
ED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out - PASS=
ED
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out - PASSED
latlon_grid_to_SCRIP_1x1_bilinear_test139.out - PASSED
latlon_grid_to_SCRIP_1x1_conserve_test140.out - PASSED
SCRIP_1x1_to_latlon_grid_bilinear_test141.out - PASSED
SCRIP_1x1_to_latlon_grid_conserve_test142.out - PASSED
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143.out - PASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.ou=
t - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out - PASSE=
D
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out - PASSED
C48_mosaic_to_latlon_mosaic_neareststod_test154.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out - PASSED
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out - PASSED
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out - PASSED
C48_mosaic_to_C48_mosaic_nearestdtos_test159.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test161.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test163.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test164.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test165.out - PASSED


The following tests pass:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Found 165 external tests, 165 pass and 0 fail.

 The following are the output files of the external tests.



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_bilinear_t=
est1.nc -m bilinear  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.=
nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142956447778876          Grid 2 max:    2.8781934731=
062639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.95391883825889190    
 
 Mean relative error         2.9685108849422315E-006
 Maximum relative error      1.1493004899310925E-005
 Least squares error         1.7488474827208072E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_patch_test=
2.nc -m patch  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142952242530207          Grid 2 max:    2.8781963083=
920821    
 
 Maximum negative weight    -4.4114131943119576E-002
 Maximum positive weight    0.58372840861774467    
 
 Mean relative error         2.6718769339071018E-006
 Maximum relative error      8.4647073273348436E-006
 Least squares error         1.5632930836281869E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3=
.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_1024=
2_dual_counterclockwise_bilinear_test3.nc -m bilinear  -i --src_regiona=
l --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual_counterclockwise.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_counterclockwis=
e_bilinear_test3.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test=
3.nc - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142956447778876          Grid 2 max:    2.8781934731=
062639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.95391883825889190    
 
 Mean relative error         2.9685108849422315E-006
 Maximum relative error      1.1493004899310925E-005
 Least squares error         1.7488474827208072E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.ou=
t


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_1024=
2_dual_counterclockwise_patch_test4.nc -m patch  -i --src_regional --ds=
t_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual_counterclockwise.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_counterclockwis=
e_patch_test4.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.n=
c - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142952242530207          Grid 2 max:    2.8781963083=
920821    
 
 Maximum negative weight    -4.4114131943119576E-002
 Maximum positive weight    0.58372840861774467    
 
 Mean relative error         2.6718769339071018E-006
 Maximum relative error      8.4647073273348436E-006
 Least squares error         1.5632930836281869E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20120314.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20120314_to_scrip_regional_1=
140x690_conserve_test5.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conser=
ve_test5.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758058    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062494E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461644E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751872E-002
 Conservation error     2.2759572004815709E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20120314.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0120314_conserve_test6.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2012=
0314.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conser=
ve_test6.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20130228.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1=
140x690_conserve_test7.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conser=
ve_test7.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758061    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062444E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461649E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751879E-002
 Conservation error     2.2690183065776637E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0130228_conserve_test8.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conser=
ve_test8.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0130228_conserve2nd_test9.nc -m conserve2nd    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conser=
ve2nd_test9.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc =
- ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041266844648387          Grid 2 max:    1.2679654485=
035983    
 
 Maximum negative weight   -0.12673877222349739    
 Maximum positive weight     1.0000000366883184    
 
 Mean relative error         4.6838433798123985E-006
 Maximum relative error      2.3750711731418021E-004
 Least squares error         1.2857177704537609E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524510479E-002
 Conservation error     1.6722734308416420E-015

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_bilinear_test10.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid=
.nc -w ll2.5deg_grid_to_T42_grid_bilinear_test10.nc -m bilinear  -p non=
e     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_T42_grid_bilinear_test10.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0006969117483824          Grid 2 max:    2.9993030882=
516178    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96589386245818398    
 
 Mean relative error         1.5952287252993385E-004
 Maximum relative error      1.1480005671931216E-003
 Least squares error         1.2315304773456381E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_patch_test11.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid=
.nc -w ll2.5deg_grid_to_T42_grid_patch_test11.nc -m patch  -p 4        =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_patch_test11.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_T42_grid_patch_test11.nc - ESMF Offline Regridding We=
ight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0015427152627139          Grid 2 max:    2.9984574105=
762514    
 
 Maximum negative weight    -6.3624361605005578E-002
 Maximum positive weight    0.69918466380898125    
 
 Mean relative error         1.5609425918282647E-004
 Maximum relative error      9.4921568323778579E-004
 Least squares error         1.1613392943153245E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_patch_test12.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid=
.nc -w T42_grid_to_ll2.5deg_grid_patch_test12.nc -m patch  -p none -i  =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_patch_test12.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ll2.5deg_grid_patch_test12.nc - ESMF Offline Regridding We=
ight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0016725729207379          Grid 2 max:    2.9983274270=
788609    
 
 Maximum negative weight    -5.8614745980012047E-002
 Maximum positive weight    0.69932014203023107    
 
 Mean relative error         1.9715117708703640E-004
 Maximum relative error      1.1961145018723868E-003
 Least squares error         1.4713751545418163E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_bilinear_test13.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid=
.nc -w T42_grid_to_ll2.5deg_grid_bilinear_test13.nc -m bilinear  -p 4  =
      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ll2.5deg_grid_bilinear_test13.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96944230629924300    
 
 Mean relative error         2.0344046061245897E-004
 Maximum relative error      1.4544920500493522E-003
 Least squares error         1.5614625004551152E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc -m bilinear  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0005329596651873          Grid 2 max:    2.9994670403=
348134    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.74999524029242237    
 
 Mean relative error         2.2977195996963211E-005
 Maximum relative error      2.0758052589453025E-004
 Least squares error         1.8853287697986301E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test15.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc -m patch     --c=
heck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0006280708920587          Grid 2 max:    2.9993719229=
740163    
 
 Maximum negative weight    -5.8732028303127744E-002
 Maximum positive weight    0.52992119849501085    
 
 Mean relative error         2.4801410654676231E-005
 Maximum relative error      1.5210930320135805E-004
 Least squares error         1.8509575576242882E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc -m conserve  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0010503048349342          Grid 2 max:    2.9989496951=
650638    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.19205720453310238    
 
 Mean relative error         2.1786738416079617E-004
 Maximum relative error      9.1628879155132830E-004
 Least squares error         1.3904366145515811E-004
 
 Grid 1 area     25.132741163829067    
 Grid 2 area     25.132741163829390    
 Conservation error     3.2329694477084558E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc -m conserv=
e2nd     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0008831374510163          Grid 2 max:    2.9991168625=
489810    
 
 Maximum negative weight    -1.3853114995673198E-002
 Maximum positive weight    0.19205720453310238    
 
 Mean relative error         9.0103204264824525E-005
 Maximum relative error      4.0827820940581299E-004
 Least squares error         5.8460316852204941E-005
 
 Grid 1 area     25.132741163829067    
 Grid 2 area     25.132741163829319    
 Conservation error     2.5224267119483557E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_wr50a_090614_bilinear_test18.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_bilinear_test18.nc -m bilinear  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_bilinear_test18.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_bilinear_test18.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.4079281859407948          Grid 2 max:    2.8803012117=
977635    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99634551426679507    
 
 Mean relative error         1.0307089262538523E-004
 Maximum relative error      5.3681060887402431E-004
 Least squares error         6.7329861438909767E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_patch_test19.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_patch_test19.nc -m patch  --dst_regional=
  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_patch_test19.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_patch_test19.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.4082253315533446          Grid 2 max:    2.8798319793=
013225    
 
 Maximum negative weight    -6.1982849778907730E-002
 Maximum positive weight    0.70465405420293459    
 
 Mean relative error         9.9450805069487412E-005
 Maximum relative error      3.8153304568270337E-004
 Least squares error         6.2111011424470421E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve_test20.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_conserve_test20.nc -m conserve  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve_test20.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_conserve_test20.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.3878213849895453          Grid 2 max:    2.8936308884=
595001    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.2815297282765641E-003
 Maximum relative error      2.2883538003152459E-002
 Least squares error         2.6274833680737246E-003
 
 Grid 1 area     5.5407699343700179    
 Grid 2 area     5.5407699343699361    
 Conservation error     8.1712414612411521E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve2nd_test21.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_conserve2nd_test21.nc -m conserve2nd  --=
dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve2nd_test21.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_conserve2nd_test21.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.3845267669069365          Grid 2 max:    2.8957949854=
499025    
 
 Maximum negative weight   -0.13786489542922725    
 Maximum positive weight     1.0002948868372754    
 
 Mean relative error         2.8775322676955796E-004
 Maximum relative error      2.3146485552752890E-002
 Least squares error         4.8922641119643589E-004
 
 Grid 1 area     5.5407699343700179    
 Grid 2 area     5.5407699343699806    
 Conservation error     3.7303493627405260E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_bilinear_test22.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_bilinear_test22.nc -m bilinear  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_bilinear_test22.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_bilinear_test22.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4212109642574657          Grid 2 max:    2.8681824891=
925887    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96060522484247135    
 
 Mean relative error         2.5767331934934054E-006
 Maximum relative error      1.1928839020257408E-005
 Least squares error         1.5906331542704589E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_patch_test23.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_patch_test23.nc -m patch  --src_regional=
 -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_patch_test23.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_patch_test23.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4212112528473682          Grid 2 max:    2.8681804561=
835298    
 
 Maximum negative weight    -4.4685625522894859E-002
 Maximum positive weight    0.58406263519934720    
 
 Mean relative error         1.9460604338607886E-006
 Maximum relative error      8.4291838829148476E-006
 Least squares error         1.3033118721059917E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve_test24.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_conserve_test24.nc -m conserve  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve_test24.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_conserve_test24.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4462745312330034          Grid 2 max:    2.8551416805=
517165    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     3.0963068567666868E-002
 
 Mean relative error         1.0071631128575511E-004
 Maximum relative error      3.1532770857316245E-004
 Least squares error         6.3320017241751413E-005
 
 Grid 1 area     5.5408316793620020    
 Grid 2 area     5.5408316793619692    
 Conservation error     3.2862601528904634E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve2nd_test25.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_conserve2nd_test25.nc -m conserve2nd  --=
src_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve2nd_test25.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_conserve2nd_test25.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4462602609904478          Grid 2 max:    2.8551540296=
434021    
 
 Maximum negative weight    -1.6301139323853006E-003
 Maximum positive weight     3.0963068567666868E-002
 
 Mean relative error         1.0048028459523792E-004
 Maximum relative error      3.0908050555322400E-004
 Least squares error         6.3105484777010811E-005
 
 Grid 1 area     5.5408316793620020    
 Grid 2 area     5.5408316793619878    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ar9v4_100920_bilinear_test26.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_bilinear_test26.nc -m bilinear  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_bilinear_test26.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_bilinear_test26.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2703257423673397          Grid 2 max:    2.9201992314=
369911    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99872570461984922    
 
 Mean relative error         1.3394951567904148E-004
 Maximum relative error      9.2581498202157100E-004
 Least squares error         8.3368157242846055E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_patch_test27.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_patch_test27.nc -m patch  --dst_regional=
  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_patch_test27.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_patch_test27.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2700121597223741          Grid 2 max:    2.9202273174=
271727    
 
 Maximum negative weight    -6.2540089210556149E-002
 Maximum positive weight    0.70435907483241200    
 
 Mean relative error         1.3173523889149690E-004
 Maximum relative error      6.6103353672108023E-004
 Least squares error         7.8064944040824344E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve_test28.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_conserve_test28.nc -m conserve  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve_test28.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_conserve_test28.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2491180122290928          Grid 2 max:    2.9299407062=
126144    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         5.1422713889145910E-003
 Maximum relative error      2.9606974086507792E-002
 Least squares error         3.0263915044839306E-003
 
 Grid 1 area     4.1018856117112836    
 Grid 2 area     4.1018856117116274    
 Conservation error     3.4372504842394846E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve2nd_test29.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_conserve2nd_test29.nc -m conserve2nd  --=
dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_conserve2nd_test29.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2464275018998059          Grid 2 max:    2.9328316034=
035238    
 
 Maximum negative weight   -0.17883944347109665    
 Maximum positive weight     1.0005937408936014    
 
 Mean relative error         4.9611395280694886E-004
 Maximum relative error      2.4539565317318272E-002
 Least squares error         6.0449696940234664E-004
 
 Grid 1 area     4.1018856117112836    
 Grid 2 area     4.1018856117111611    
 Conservation error     1.2256862191861728E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ar9v4_100920_to_T42_grid_bilinear_test30.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_bilinear_test30.nc -m bilinear  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_bilinear_test30.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_bilinear_test30.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2811467481781360          Grid 2 max:    2.9030771043=
937893    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.97069562984918856    
 
 Mean relative error         1.1370584187853170E-007
 Maximum relative error      6.6594387613438440E-007
 Least squares error         7.0800770054834887E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_patch_test31.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_patch_test31.nc -m patch  --src_regional=
 -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_patch_test31.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_patch_test31.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2811467351719621          Grid 2 max:    2.9030771575=
279171    
 
 Maximum negative weight    -4.6372575695870270E-002
 Maximum positive weight    0.58401374175767296    
 
 Mean relative error         9.0797951255136989E-008
 Maximum relative error      4.9922437218925768E-007
 Least squares error         6.2180756095066909E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_conserve_test32.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_conserve_test32.nc -m conserve  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_conserve_test32.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_conserve_test32.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.3296536947647670          Grid 2 max:    2.9025590263=
106453    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.2151017517006469E-003
 
 Mean relative error         1.1998198659358446E-004
 Maximum relative error      1.1084381276240695E-003
 Least squares error         7.3028406048990336E-005
 
 Grid 1 area     4.1019920664849998    
 Grid 2 area     4.1019920664849208    
 Conservation error     7.9047879353311146E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_bilinear_test33.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_bilinear_test33.nc -m bilinear  =
-r -i --64bit_offset  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_bilinear_test33.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4089644815987663          Grid 2 max:    2.8807649520=
770275    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99824720937746014    
 
 Mean relative error         2.8571480438867563E-006
 Maximum relative error      1.1997232002712688E-005
 Least squares error         1.5552835563231448E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_patch_test34.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_patch_test34.nc -m patch  -r -i =
--netcdf4  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_patch_test34.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_patch_test34.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4089675425015453          Grid 2 max:    2.8807685722=
465126    
 
 Maximum negative weight    -9.4843121544540471E-002
 Maximum positive weight    0.90937680385522857    
 
 Mean relative error         2.5123668763586680E-006
 Maximum relative error      8.6110688752145300E-006
 Least squares error         1.3633446462307266E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve_test35.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_conserve_test35.nc -m conserve  =
-r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve_test35.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_conserve_test35.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4088365788687174          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         6.3146800262014308E-004
 Maximum relative error      2.7210620439182503E-003
 Least squares error         3.5993920164122790E-004
 
 Grid 1 area     3.2737326943875487    
 Grid 2 area     3.2737326943876330    
 Conservation error     8.4376949871511897E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc -m conserv=
e2nd  -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4076516491621116          Grid 2 max:    2.8819521687=
264169    
 
 Maximum negative weight   -0.30309805044794508    
 Maximum positive weight     1.0000170475085626    
 
 Mean relative error         2.5850149029310117E-005
 Maximum relative error      2.5001141665431581E-003
 Least squares error         4.8324047740492562E-005
 
 Grid 1 area     3.2737326943875487    
 Grid 2 area     3.2737326943875549    
 Conservation error     6.2172489379008766E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_bilinear_test37.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_bilinear_test37.nc -m bilinear  =
-r -i --64bit_offset  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_bilinear_test37.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098643758588638          Grid 2 max:    2.8808050704=
292856    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99229912235069240    
 
 Mean relative error         1.4300140913556688E-007
 Maximum relative error      5.0670984297114177E-007
 Least squares error         7.9012629124112017E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_patch_test38.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_patch_test38.nc -m patch  -r -i =
--netcdf4  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_patch_test38.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_patch_test38.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098644882324192          Grid 2 max:    2.8808053347=
889073    
 
 Maximum negative weight    -6.9438884880716784E-002
 Maximum positive weight    0.89744928897172893    
 
 Mean relative error         1.3346960441126121E-007
 Maximum relative error      3.5941723480111264E-007
 Least squares error         7.1953230267324627E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_conserve_test39.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_conserve_test39.nc -m conserve  =
-i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_conserve_test39.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_conserve_test39.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098713210066787          Grid 2 max:    2.8808017655=
996205    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     6.9865670601383295E-002
 
 Mean relative error         4.6103857876181140E-006
 Maximum relative error      9.9774031715550715E-004
 Least squares error         8.3235226301409498E-006
 
 Grid 1 area     3.2737370905810135    
 Grid 2 area     3.2737370905809060    
 Conservation error     1.0746958878371515E-013

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080358    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239305710606E-005
 Maximum relative error      3.5423921218374546E-004
 Least squares error         2.5418777226479963E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc -m patch  -p=
 all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0004140583187933          Grid 2 max:    2.9995861921=
453697    
 
 Maximum negative weight    -4.3093132730389401E-002
 Maximum positive weight    0.62160874159041579    
 
 Mean relative error         2.9595153681206511E-005
 Maximum relative error      2.3468032665852228E-004
 Least squares error         2.2194846802747790E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc -m conser=
ve  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0007720940189107          Grid 2 max:    2.9992279059=
810891    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.93032802678336535    
 
 Mean relative error         3.0620202684084470E-004
 Maximum relative error      1.6029209620310216E-003
 Least squares error         2.0729209485469832E-004
 
 Grid 1 area     25.132741146490989    
 Grid 2 area     25.132741146491057    
 Conservation error     6.7501559897209518E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc -m con=
serve2nd  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0005313249446091          Grid 2 max:    2.9994686750=
554158    
 
 Maximum negative weight   -0.10189307513594642    
 Maximum positive weight    0.93361484396240157    
 
 Mean relative error         1.4471651998304135E-004
 Maximum relative error      6.9729508758026282E-004
 Least squares error         9.2161234729707121E-005
 
 Grid 1 area     25.132741146490989    
 Grid 2 area     25.132741146491039    
 Conservation error     4.9737991503207013E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335378E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573677E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc -m patch  -p=
 all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0008163242211341          Grid 2 max:    2.9991836757=
787431    
 
 Maximum negative weight    -5.2453953163262568E-002
 Maximum positive weight    0.70481582759008532    
 
 Mean relative error         1.6228071643103190E-004
 Maximum relative error      8.1632422137323214E-004
 Least squares error         1.1412492077025650E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc -m conser=
ve  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
747006    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.5509508215902808E-003
 Maximum relative error      2.0168439180763165E-002
 Least squares error         2.4925207875614508E-003
 
 Grid 1 area     25.132741163862576    
 Grid 2 area     25.132741163862899    
 Conservation error     3.2329694477084558E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc -m con=
serve2nd  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:   0.99980044833805315          Grid 2 max:    3.0001996637=
999326    
 
 Maximum negative weight   -0.10585450365472351    
 Maximum positive weight     1.0000354739103363    
 
 Mean relative error         4.0258038118925170E-004
 Maximum relative error      2.6450052052758464E-003
 Least squares error         2.5544646506188277E-004
 
 Grid 1 area     25.132741163862576    
 Grid 2 area     25.132741163862455    
 Conservation error     1.2079226507921703E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_tes=
t48.nc -m bilinear  -p all -i   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.=
nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000000000000004          Grid 2 max:    2.9999999999=
999987    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.4277827179838701E-005
 Maximum relative error      9.6936464568289703E-005
 Least squares error         1.0420189393260786E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49=
.nc -m patch  -p all -i   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000261788519795          Grid 2 max:    2.9999738211=
480285    
 
 Maximum negative weight    -5.2741950008508669E-002
 Maximum positive weight    0.66596236446253687    
 
 Mean relative error         1.0743240146780889E-005
 Maximum relative error      6.4191810729427178E-005
 Least squares error         7.4530295796176406E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve_tes=
t50.nc -m conserve  -p none -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.=
nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000785348911296          Grid 2 max:    2.9999214651=
088670    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.49854345278642803    
 
 Mean relative error         2.2370033311681903E-004
 Maximum relative error      2.3913496459469618E-003
 Least squares error         1.4528010518900518E-004
 
 Grid 1 area     25.132741163821976    
 Grid 2 area     25.132741163821940    
 Conservation error     3.5527136788005009E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_=
test51.nc -m conserve2nd  -p none -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test=
51.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:   0.99995191851706755          Grid 2 max:    3.0000480814=
828392    
 
 Maximum negative weight    -4.1404873409852695E-002
 Maximum positive weight    0.54728401807630767    
 
 Mean relative error         3.5700222874833905E-004
 Maximum relative error      1.7323374312334500E-003
 Least squares error         2.2348320340610082E-004
 
 Grid 1 area     25.132741163821976    
 Grid 2 area     25.132741163822740    
 Conservation error     7.6383344094210770E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_bilinear_test52.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_09061=
4.nc -w ne30np4-t2_to_wr50a_090614_bilinear_test52.nc -m bilinear  --ds=
t_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_wr50a_090614_bilinear_test52.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.4078070725580001          Grid 2 max:    2.8807536356=
835590    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99894209264501699    
 
 Mean relative error         2.2857240227858481E-005
 Maximum relative error      1.3034610711876269E-004
 Least squares error         1.3990871385700678E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_patch_test53.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_09061=
4.nc -w ne30np4-t2_to_wr50a_090614_patch_test53.nc -m patch  --dst_regi=
onal -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_patch_test53.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_wr50a_090614_patch_test53.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.4077881638043797          Grid 2 max:    2.8806577556=
681443    
 
 Maximum negative weight    -7.0802712058223902E-002
 Maximum positive weight    0.62604339534933173    
 
 Mean relative error         1.8492176088181690E-005
 Maximum relative error      8.4237243279657731E-005
 Least squares error         1.0917897390054111E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve_test54.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_10092=
0.nc -w ne30np4-t2_to_ar9v4_100920_conserve_test54.nc -m conserve  --ds=
t_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_ar9v4_100920_conserve_test54.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.2615116263895656          Grid 2 max:    2.9255963916=
782330    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.2109034102557440E-003
 Maximum relative error      1.3132060105454053E-002
 Least squares error         1.3028590754329873E-003
 
 Grid 1 area     4.1019625178992962    
 Grid 2 area     4.1019625178992003    
 Conservation error     9.5923269327613525E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_10092=
0.nc -w ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc -m conserve2nd=
  --dst_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.2598915272411995          Grid 2 max:    2.9263201655=
421720    
 
 Maximum negative weight   -0.21884389977565052    
 Maximum positive weight     1.0001922401604193    
 
 Mean relative error         3.9850058943553622E-004
 Maximum relative error      1.0524808476885467E-002
 Least squares error         2.8606096926348749E-004
 
 Grid 1 area     4.1019625178992962    
 Grid 2 area     4.1019625178991923    
 Conservation error     1.0391687510491465E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_bilinear_test56.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w wr50a_090614_to_ne30np4-t2_bilinear_test56.nc -m bilinear  --sr=
c_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ne30np4-t2_bilinear_test56.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4114134857666032          Grid 2 max:    2.8772456070=
632639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99611193445448276    
 
 Mean relative error         3.1132168105004037E-006
 Maximum relative error      1.2540906935666507E-005
 Least squares error         1.8291466946400142E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_patch_test57.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w wr50a_090614_to_ne30np4-t2_patch_test57.nc -m patch  --src_regi=
onal -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_patch_test57.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ne30np4-t2_patch_test57.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4114191674924017          Grid 2 max:    2.8772444873=
336460    
 
 Maximum negative weight    -8.8937867737293994E-002
 Maximum positive weight    0.66400398688413709    
 
 Mean relative error         2.7839477519661980E-006
 Maximum relative error      8.9976173478404172E-006
 Least squares error         1.6108963457874392E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_ne30np4-t2_conserve_test58.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w ar9v4_100920_to_ne30np4-t2_conserve_test58.nc -m conserve  --sr=
c_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_ne30np4-t2_conserve_test58.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2861389689788607          Grid 2 max:    2.9132569891=
198647    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     9.1782952578195506E-002
 
 Mean relative error         2.7377562095863458E-004
 Maximum relative error      1.9485797454945415E-003
 Least squares error         1.6074565146877300E-004
 
 Grid 1 area     4.1019920664849989    
 Grid 2 area     4.1019920664849119    
 Conservation error     8.7041485130612273E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_bilinear_test59.nc -m bilinear  --src_loc corner --dst_loc corner    =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_=
test59.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0011281597298824          Grid 2 max:    2.9987641360=
805384    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.50473712171260843    
 
 Mean relative error         2.0026025856754350E-004
 Maximum relative error      8.9630634429856452E-004
 Least squares error         1.2518081469127746E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_bilinear_test60.nc -m bilinear   --src_loc corner --dst_loc corner  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_=
test60.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0009699279661364          Grid 2 max:    2.9990310320=
243152    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.38191633875290704    
 
 Mean relative error         1.7579552083652985E-004
 Maximum relative error      7.4857024423672215E-004
 Least squares error         1.1345148771463069E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_patch_test61.nc -m patch   --src_loc corner --dst_loc corner    --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_tes=
t61.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc - ESMF O=
ffline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0007664191351133          Grid 2 max:    2.9991509827=
950931    
 
 Maximum negative weight    -8.7239116125593152E-002
 Maximum positive weight    0.50392123408048939    
 
 Mean relative error         1.2268232022935561E-004
 Maximum relative error      5.9619379805876042E-004
 Least squares error         7.8124166255741365E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_patch_test62.nc -m patch  --src_loc corner --dst_loc corner    --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_tes=
t62.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc - ESMF O=
ffline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0007768228489147          Grid 2 max:    2.9992275643=
404742    
 
 Maximum negative weight    -2.9792420601031287E-002
 Maximum positive weight    0.40101053184952573    
 
 Mean relative error         1.3066287713470285E-004
 Maximum relative error      5.5589087118558512E-004
 Least squares error         8.4720224746373098E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_conserve_test63.nc -m conserve  -i      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_=
test63.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0009085993378688          Grid 2 max:    2.9990449685=
787044    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.38191209425119160    
 
 Mean relative error         7.0231678159128890E-004
 Maximum relative error      3.7707384435919657E-003
 Least squares error         4.2834597006489273E-004
 
 Grid 1 area     25.132741228715886    
 Grid 2 area     25.132741228715709    
 Conservation error     1.7763568394002505E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_conserve_test64.nc -m conserve          --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_=
test64.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0009703413207154          Grid 2 max:    2.9988858616=
192537    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.20000000431993198    
 
 Mean relative error         1.7462455265368116E-004
 Maximum relative error      7.3852448463029928E-004
 Least squares error         1.1330539336195362E-004
 
 Grid 1 area     25.132741228720150    
 Grid 2 area     25.132741228720153    
 Conservation error     3.5527136788005009E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_conserve2nd_test65.nc -m conserve2nd  -i      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2=
nd_test65.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0005971525423092          Grid 2 max:    2.9994043159=
920314    
 
 Maximum negative weight    -5.2302895979323943E-002
 Maximum positive weight    0.43530340586418770    
 
 Mean relative error         6.1257600436670739E-004
 Maximum relative error      4.5043735317753745E-003
 Least squares error         4.0733086883227052E-004
 
 Grid 1 area     25.132741228715886    
 Grid 2 area     25.132741228715833    
 Conservation error     5.3290705182007514E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_conserve2nd_test66.nc -m conserve2nd          --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2=
nd_test66.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0003544947867751          Grid 2 max:    2.9994929939=
864212    
 
 Maximum negative weight    -1.3548292150780329E-002
 Maximum positive weight    0.22183390422914437    
 
 Mean relative error         1.1501710726857556E-004
 Maximum relative error      7.8199491537867915E-004
 Least squares error         7.3922944544840428E-005
 
 Grid 1 area     25.132741228720150    
 Grid 2 area     25.132741228720221    
 Conservation error     7.1054273576010019E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_dual_patch_test67.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242_dual.nc -w T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc -m=
 patch    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0014283670941011          Grid 2 max:    2.9984291734=
808379    
 
 Maximum negative weight    -5.8162135290800943E-002
 Maximum positive weight    0.70434611102594480    
 
 Mean relative error         2.4791441139646942E-004
 Maximum relative error      1.1964451410941658E-003
 Least squares error         1.7295655608570013E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68=
.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0006265050669247          Grid 2 max:    2.9993655076=
212620    
 
 Maximum negative weight    -3.7966505486605392E-002
 Maximum positive weight    0.76948484718886268    
 
 Mean relative error         1.0018764466370513E-004
 Maximum relative error      5.5941940624416094E-004
 Least squares error         7.1352542997220935E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uni=
form_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve=
_test69.nc -m conserve  -i    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test6=
9.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0007223903655242          Grid 2 max:    2.9992876694=
983464    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.3586985616313679E-003
 Maximum relative error      9.9089649267739676E-003
 Least squares error         1.4697463444350656E-003
 
 Grid 1 area     25.132741163864676    
 Grid 2 area     25.132741163864690    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve_tes=
t70.nc -m conserve        --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.=
nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0003540821997574          Grid 2 max:    2.9997863000=
280902    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.8005404692723675E-003
 Maximum relative error      9.1833470932938532E-003
 Least squares error         1.1963445155095571E-003
 
 Grid 1 area     25.132741228720143    
 Grid 2 area     25.132741228720082    
 Conservation error     6.0396132539608516E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uni=
form_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve=
2nd_test71.nc -m conserve2nd  -i    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_te=
st71.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:   0.99979514011332382          Grid 2 max:    3.0002189596=
164142    
 
 Maximum negative weight    -7.4719918620803530E-002
 Maximum positive weight     1.0000138196046424    
 
 Mean relative error         7.2967191849432702E-004
 Maximum relative error      4.9552680488289891E-003
 Least squares error         4.9930859418429200E-004
 
 Grid 1 area     25.132741163864676    
 Grid 2 area     25.132741163864907    
 Conservation error     2.3092638912203256E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_=
test72.nc -m conserve2nd        --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test=
72.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:   0.99987961785205337          Grid 2 max:    3.0000836553=
651822    
 
 Maximum negative weight    -6.2875430739396970E-002
 Maximum positive weight     1.0000038416287966    
 
 Mean relative error         2.9731357703591591E-004
 Maximum relative error      2.8936836883727132E-003
 Least squares error         2.0226450731602677E-004
 
 Grid 1 area     25.132741228720143    
 Grid 2 area     25.132741228720217    
 Conservation error     7.4606987254810520E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_bilinear_test73.nc -m bilinear    --src_loc corner  --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bil=
inear_test73.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc=
 - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0003587162593064          Grid 2 max:    2.9995240749=
406564    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99551188548477842    
 
 Mean relative error         1.3197458555628703E-004
 Maximum relative error      7.8068525778381517E-004
 Least squares error         8.7375151915731591E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_bilinear_test74.nc -m bilinear    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear=
_test74.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc - ES=
MF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0002885106931363          Grid 2 max:    2.9997510833=
963319    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98562177531819473    
 
 Mean relative error         1.0569120322063392E-005
 Maximum relative error      9.4667928509240421E-005
 Least squares error         7.5750544491419034E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_patch_test75.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_pat=
ch_test75.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0005539295715478          Grid 2 max:    2.9994449570=
138206    
 
 Maximum negative weight    -3.8518390425710175E-002
 Maximum positive weight    0.76801340742282564    
 
 Mean relative error         1.2627575971176414E-004
 Maximum relative error      5.6096976260798168E-004
 Least squares error         8.1928550174391633E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_patch_test76.nc -m patch    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_te=
st76.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0002723451303324          Grid 2 max:    2.9997337190=
686952    
 
 Maximum negative weight    -5.6858267396534698E-002
 Maximum positive weight    0.65460845128776879    
 
 Mean relative error         9.5807626313555831E-006
 Maximum relative error      6.2711804731122278E-005
 Least squares error         6.6069160236501507E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_conserve_test77.nc -m conserve     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_con=
serve_test77.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc=
 - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301046          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000002    
 
 Mean relative error         3.0856633780707785E-003
 Maximum relative error      1.8408116426323590E-002
 Least squares error         1.9671714224314134E-003
 
 Grid 1 area     25.132741228720146    
 Grid 2 area     25.132741228720434    
 Conservation error     2.8776980798284058E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_conserve_test78.nc -m conserve     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve=
_test78.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc - ES=
MF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0005566193119535          Grid 2 max:    2.9993011798=
476008    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.13289114745696567    
 
 Mean relative error         8.5481276753674492E-005
 Maximum relative error      3.7493683496640459E-004
 Least squares error         5.5175911537771377E-005
 
 Grid 1 area     25.132741163821972    
 Grid 2 area     25.132741163822459    
 Conservation error     4.8672177399566863E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_bilinear_t=
est79.nc -m bilinear  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79=
.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.4078260710674075          Grid 2 max:    2.8802364714=
818132    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99676690947457658    
 
 Mean relative error         8.4816712278229327E-005
 Maximum relative error      3.4838108923085836E-004
 Least squares error         4.9537801680696440E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_patch_test=
80.nc -m patch  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.4080342585141425          Grid 2 max:    2.8803350035=
838555    
 
 Maximum negative weight    -3.8767089443496938E-002
 Maximum positive weight    0.77066928197976181    
 
 Mean relative error         7.3991153168546535E-005
 Maximum relative error      2.2051044462217213E-004
 Least squares error         4.1760948653343129E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_conserve_t=
est81.nc -m conserve  -i --src_regional    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81=
.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4324716155424235          Grid 2 max:    2.8664581772=
404918    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.13412785847808445    
 
 Mean relative error         3.3188314311300581E-004
 Maximum relative error      1.6390681319075383E-003
 Least squares error         1.9671537018039611E-004
 
 Grid 1 area     5.5408316793619994    
 Grid 2 area     5.5408316793619914    
 Conservation error     7.9936057773011271E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_conserve_t=
est82.nc -m conserve  --dst_regional       --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82=
.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.3947768775705289          Grid 2 max:    2.8891151432=
756823    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.6535139680051245E-003
 Maximum relative error      1.5754890439058825E-002
 Least squares error         1.6292337023121124E-003
 
 Grid 1 area     5.5408007161638997    
 Grid 2 area     5.5408007161638650    
 Conservation error     3.4638958368304884E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ww3a_120213_conserve_test83.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.n=
c -w T42_grid_to_ww3a_120213_conserve_test83.nc -m conserve  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Weight File: T42_grid_to_ww3a_120213_conserve_test83.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ww3a_120213_conserve_test83.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0043177903077030          Grid 2 max:    2.9973733743=
125406    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.61381699025081071    
 
 Mean relative error         1.0401692492597952E-003
 Maximum relative error      4.9809645290137452E-003
 Least squares error         6.8044026636770538E-004
 
 Grid 1 area     17.551152008903301    
 Grid 2 area     17.551152008903294    
 Conservation error     7.1054273576010019E-015

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ww3a_120213_to_T42_grid_conserve_test84.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ww3a_120213.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.n=
c -w ww3a_120213_to_T42_grid_conserve_test84.nc -m conserve  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ww3a_120213_to_T42_grid_conserve_test84.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ww3a_120213_to_T42_grid_conserve_test84.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0032136634006090          Grid 1 max:    2.9992203821=
030659    
 Grid 2 min:    1.0032136684894020          Grid 2 max:    2.9992203821=
030659    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.3351114506114708E-003
 Maximum relative error      1.1442400378215478E-002
 Least squares error         1.5450893395666568E-003
 
 Grid 1 area     17.551262143557825    
 Grid 2 area     17.551262143557850    
 Conservation error     2.4868995751603507E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne15np4_scrip.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.=
5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc -m =
bilinear  -p all    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0005139225633701          Grid 1 max:    2.9994860767=
997000    
 Grid 2 min:    1.0006941076112335          Grid 2 max:    2.9993058923=
887661    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.97477713569104840    
 
 Mean relative error         6.2111131743676517E-005
 Maximum relative error      5.0298578803447628E-004
 Least squares error         4.5001298038450309E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne15np4_scrip.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.=
5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc -m =
conserve  -p none   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0005139225633701          Grid 1 max:    2.9994860767=
997000    
 Grid 2 min:    1.0007993776002215          Grid 2 max:    2.9992006223=
997785    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.6434733521317899E-004
 Maximum relative error      1.6433980992000621E-003
 Least squares error         2.3537181116070572E-004
 
 Grid 1 area     25.132741163811851    
 Grid 2 area     25.132741163812184    
 Conservation error     3.3395508580724709E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ARM_30_x8.g_scrip.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRI=
P_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0003788019910109          Grid 2 max:    2.9996211975=
843625    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98403492267559622    
 
 Mean relative error         4.0068296664639296E-005
 Maximum relative error      4.0919728480314410E-004
 Least squares error         3.0341086065913880E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ARM_30_x8.g_scrip.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRI=
P_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc -m conser=
ve  -p none   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0004711803997250          Grid 2 max:    2.9995288190=
720810    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         7.8303800170336250E-004
 Maximum relative error      2.7520856784953706E-003
 Least squares error         5.0499246931837291E-004
 
 Grid 1 area     25.132741768764497    
 Grid 2 area     25.132741768764348    
 Conservation error     1.4921397450962104E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_neareststod_test89.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w wr50a_090614_to_wr50a_090614_neareststod_test89.nc -m nearest=
stod  --src_regional --dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_neareststod_test89.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_wr50a_090614_neareststod_test89.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4077278853648267          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_neareststod_test90.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc -=
w T42_grid_to_T42_grid_neareststod_test90.nc -m neareststod  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_neareststod_test90.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_T42_grid_neareststod_test90.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_nearests=
tod_test91.nc -m neareststod      --src_loc corner --dst_loc corner  --=
check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_neareststod_te=
st91.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301049          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_nearestdtos_test92.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc -m nearest=
dtos  --src_regional --dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4077278853648267          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_nearestdtos_test93.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc -=
w T42_grid_to_T42_grid_nearestdtos_test93.nc -m nearestdtos  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_nearestdtos_test93.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_T42_grid_nearestdtos_test93.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_nearestd=
tos_test94.nc -m nearestdtos      --src_loc corner --dst_loc corner  --=
check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_te=
st94.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301049          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP=
_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc -m bilinear=
  -p none -i   --src_missingvalue so  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002284908917738          Grid 2 max:    2.9997715086=
835397    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99680832383063989    
 
 Mean relative error         2.7309284630409650E-006
 Maximum relative error      3.5485727970346936E-005
 Least squares error         2.4235762337495624E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP=
_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc -m conserve=
    -i --src_missingvalue so  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515882887          Grid 2 max:    2.9997490479=
870059    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99992220268968013    
 
 Mean relative error         5.7138641266402549E-005
 Maximum relative error      9.6686564325284999E-004
 Least squares error         4.5414408765757126E-005
 
 Grid 1 area     18.053469711205111    
 Grid 2 area     18.053469711205256    
 Conservation error     1.4566126083082054E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc -m bilinear  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894296          Grid 2 max:    2.9997715551=
858839    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067310705851669E-009
 Maximum relative error      5.6184475796693228E-008
 Least squares error         7.8633045463436691E-009
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-08
  - Area Conservation  : 10E-16



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc -m conserve  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894023          Grid 2 max:    2.9997715551=
858830    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067310976259840E-009
 Maximum relative error      5.6184472459840344E-008
 Least squares error         7.8633045420140172E-009
 
 Grid 1 area     25.132741163818846    
 Grid 2 area     25.132741163818860    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc -m conserv=
e2nd     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894023          Grid 2 max:    2.9997715551=
858830    
 
 Maximum negative weight    -2.0247314279283951E-015
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067311230842524E-009
 Maximum relative error      5.6184472459840344E-008
 Least squares error         7.8633045419829152E-009
 
 Grid 1 area     25.132741163818846    
 Grid 2 area     25.132741163818860    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.n=
c -m bilinear   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002284908917738          Grid 2 max:    2.9997715086=
835397    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         5.4218502129952548E-005
 Maximum relative error      1.5732878654887775E-002
 Least squares error         3.4723290919402936E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.n=
c -m conserve   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515883156          Grid 2 max:    2.9997490479=
870077    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99992220268967791    
 
 Mean relative error         5.9977385435243060E-005
 Maximum relative error      9.6686304233434522E-004
 Least squares error         4.7435225637414767E-005
 
 Grid 1 area     14.102839583426567    
 Grid 2 area     14.102839583426579    
 Conservation error     1.2434497875801753E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve_t=
est102.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test10=
2.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758058    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062494E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461644E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751872E-002
 Conservation error     2.2759572004815709E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_t=
est103.nc -m bilinear    -r -i --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test10=
3.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1040949295672497          Grid 1 max:    1.2678148475=
214770    
 Grid 2 min:    1.1042026257052491          Grid 2 max:    1.2675319751=
838212    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99591105054183515    
 
 Mean relative error         9.0979470250296139E-007
 Maximum relative error      7.3313467229456635E-006
 Least squares error         1.2275487745380830E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_conserve_t=
est104.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test10=
4.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_t=
est105.nc -m bilinear    -r --dst_loc corner --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test10=
5.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1040951381660200          Grid 2 max:    1.2678149861=
596402    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99823829254021057    
 
 Mean relative error         8.3660389496620093E-008
 Maximum relative error      1.9053202492041687E-007
 Least squares error         7.1326526662334344E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve2n=
d_test106.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_tes=
t106.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037577571380004          Grid 2 max:    1.2674094778=
279075    
 
 Maximum negative weight    -9.3807537075742548E-002
 Maximum positive weight     1.0000016462518759    
 
 Mean relative error         1.1079680668926185E-005
 Maximum relative error      9.9860850983971559E-004
 Least squares error         1.6253679197788220E-005
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539752379E-002
 Conservation error     1.7694179454963432E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_t=
est107.nc -m bilinear    -r -i --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test10=
7.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1042025151207180          Grid 2 max:    1.2675319882=
614913    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99574832179220607    
 
 Mean relative error         7.7595179178742798E-007
 Maximum relative error      8.7101224194488131E-006
 Least squares error         1.1122534491965541E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_t=
est108.nc -m bilinear    -r    --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test10=
8.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041930400206228          Grid 2 max:    1.2677505229=
297097    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99979777063699515    
 
 Mean relative error         8.3641087992745986E-008
 Maximum relative error      1.9047882022690803E-007
 Least squares error         7.1307896643837114E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4_esmf.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5=
_050503.nc -w ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc -m b=
ilinear  -p all   --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080362    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239323879869E-005
 Maximum relative error      3.5423921220678915E-004
 Least squares error         2.5418777262613209E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4_esmf.nc -w fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc -m b=
ilinear  -p all   --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335378E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573677E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4dual_esmf.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9=
x2.5_050503.nc -w ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111=
.nc -m bilinear  -p all   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.n=
c
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080358    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239305710538E-005
 Maximum relative error      3.5423921218374546E-004
 Least squares error         2.5418777226479929E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4dual_esmf.nc -w fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112=
.nc -m bilinear  -p all   --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.=
nc
   Weight File: fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.n=
c
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335378E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573677E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne6=
0np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100=
408_conserve_test113.nc -m conserve    --norm_type dstarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve=
_test113.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0002316457600182          Grid 2 max:    2.9996255169=
445423    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000002605    
 
 Mean relative error         3.9930412749466532E-003
 Maximum relative error      1.9847001400026210E-002
 Least squares error         2.5021674970176358E-003
 
 Grid 1 area     25.132741228715876    
 Grid 2 area     25.132741228716458    
 Conservation error     5.8264504332328215E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne6=
0np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100=
408_conserve_test114.nc -m conserve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve=
_test114.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0002316457600195          Grid 2 max:    2.9996255169=
445383    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000002    
 
 Mean relative error         3.9930412749465960E-003
 Maximum relative error      1.9847001400035976E-002
 Least squares error         2.5021674970176384E-003
 
 Grid 1 area     25.132741228715876    
 Grid 2 area     25.132741228716458    
 Conservation error     5.8264504332328215E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_T42_grid_conserve_test115.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42=
_grid.nc -w mpas_uniform_10242_to_T42_grid_conserve_test115.nc -m conse=
rve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: mpas_uniform_10242_to_T42_grid_conserve_test115.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_T42_grid_conserve_test115.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0014754650268216          Grid 2 max:    2.9984586288=
289945    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.80095899694569517    
 
 Mean relative error         5.3062722702205262E-004
 Maximum relative error      2.5161336733329821E-003
 Least squares error         3.3421111501551778E-004
 
 Grid 1 area     25.132741228715890    
 Grid 2 area     25.132741228715958    
 Conservation error     6.7501559897209518E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve_test116.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242.nc -w T42_grid_to_mpas_uniform_10242_conserve_test116.nc -m conse=
rve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve_test116.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_conserve_test116.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0009490510105956          Grid 2 max:    2.9990267037=
688985    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.8209792383482549E-003
 Maximum relative error      6.9637126088784350E-003
 Least squares error         1.1454775127853582E-003
 
 Grid 1 area     25.132741163875927    
 Grid 2 area     25.132741163875906    
 Conservation error     2.1316282072803006E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID1.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_tes=
t117.nc -m conserve   -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2=
.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.8424495774725367          Grid 1 max:    2.9773270320=
511718    
 Grid 2 min:    2.8594469699826890          Grid 2 max:    2.9773270320=
511718    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area    0.26744889098092639    
 Grid 2 area    0.26744889098092639    
 Conservation error     0.0000000000000000    

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID1.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_tes=
t118.nc -m bilinear   -r --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2=
.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.7429453804815580          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    2.7429453804815580          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.3652863182711287E-004
 Maximum relative error      3.9287576864440159E-003
 Least squares error         4.5458781754768429E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID2.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID1.nc -w ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_tes=
t119.nc -m conserve   -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1=
.nc
   Weight File: ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.8533123941364806          Grid 1 max:    2.9773270320=
511718    
 Grid 2 min:    2.8594469699826890          Grid 2 max:    2.9773270320=
511718    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area    0.27718787418641805    
 Grid 2 area    0.27718787418641805    
 Conservation error     0.0000000000000000    

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wam_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3=
D.nc -w wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc -m bilinear   -i=
 --src_loc corner --dst_loc corner -l greatcircle  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Weight File: wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0008115447814405          Grid 1 max:    2.9991884544=
225318    
 Grid 2 min:    1.0008115466731184          Grid 2 max:    2.9991884533=
566111    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98306522538443220    
 
 Mean relative error         1.3831487149091714E-004
 Maximum relative error      7.9507100290357414E-004
 Least squares error         9.5230427230864951E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ipe_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc -m bilinear   -i=
 --src_loc corner --dst_loc corner --line_type greatcircle  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0001694524456735          Grid 1 max:    2.9999883676=
137902    
 Grid 2 min:    1.0010020091088907          Grid 2 max:    2.9986733034=
567559    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98562403423640510    
 
 Mean relative error         4.1383338591143682E-004
 Maximum relative error      3.2112542949449801E-003
 Least squares error         3.1325315634452987E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_bilinear_test122.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_bilinear_test122.nc -m bilinear  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_bilinear_test122.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0013887370969792          Grid 2 max:    2.9986112618=
419214    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98129231027144892    
 
 Mean relative error         9.7854008146719236E-005
 Maximum relative error      7.2708767938518088E-004
 Least squares error         7.0988994428024265E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_patch_test123.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_patch_test123.nc -m patch  --tilef=
ile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_patch_test123.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_patch_test123.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0018874533622679          Grid 2 max:    2.9981125455=
770248    
 
 Maximum negative weight    -4.4699989157694894E-002
 Maximum positive weight    0.70564624430008727    
 
 Mean relative error         9.1294261799827392E-005
 Maximum relative error      6.3967945147166559E-004
 Least squares error         7.2368904517964552E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve_test124.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_conserve_test124.nc -m conserve  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve_test124.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_conserve_test124.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0016212737876695          Grid 2 max:    2.9983787252=
073890    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         6.1540472324183497E-004
 Maximum relative error      2.5810873881453511E-003
 Least squares error         3.9294421349729346E-004
 
 Grid 1 area     25.132741163814153    
 Grid 2 area     25.132741163814089    
 Conservation error     6.3948846218409017E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc -m conserve=
2nd  --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0013129542190811          Grid 2 max:    2.9986870447=
198859    
 
 Maximum negative weight   -0.12101186579566607    
 Maximum positive weight     1.0000005194093762    
 
 Mean relative error         1.4825353225334737E-004
 Maximum relative error      1.2257925848766856E-003
 Least squares error         1.0276900892619838E-004
 
 Grid 1 area     25.132741163814153    
 Grid 2 area     25.132741163814035    
 Conservation error     1.1723955140041653E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc -m bilinear =
 -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.5448363373415233E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2206209814732897E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc -m bilinear =
 -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5445121139735698E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2205163975130110E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc -m bilinear =
 -p none --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_=
dst_exponent 3.0  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5445121139735709E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2205163975130113E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg=
_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc -m bilin=
ear  -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg=
_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc -m bilin=
ear  -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/UGRID_1D_LocStream.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGR=
ID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestd=
tos_test131.nc -m nearestdtos  --src_loc corner --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_te=
st131.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc - ESMF=
 Offline Regridding Weight Generator
 
 Grid 1 min:    2.3162454233730210          Grid 1 max:    2.3420404733=
724305    
 Grid 2 min:    2.3162454233730210          Grid 2 max:    2.3420404733=
724305    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/UGRID_1D_LocStream.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGR=
ID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearests=
tod_test132.nc -m neareststod  --src_loc corner --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_te=
st132.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc - ESMF=
 Offline Regridding Weight Generator
 
 Grid 1 min:    2.3162454233730210          Grid 1 max:    2.3420404733=
724305    
 Grid 2 min:    2.3162454233730210          Grid 2 max:    2.3420404733=
724305    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc -m bil=
inear  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3162384474134021          Grid 2 max:    2.3420433842=
147492    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.30560087489904852    
 
 Mean relative error         3.6486801501522839E-006
 Maximum relative error      7.8107750742917061E-006
 Least squares error         1.8301180922915784E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc -m =
neareststod  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3067978976287553          Grid 2 max:    2.3447459208=
363126    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.5568061230662538E-003
 Maximum relative error      4.0788103233498239E-003
 Least squares error         1.1938483407102185E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc -=
m nearestdtos  -r --src_coordinates xc,yc --dst_coordinates xc,yc --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5059098210481028          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc -=
m neareststod  -r --src_coordinates xc,yc --dst_coordinates xc,yc --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5059098210481028          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc -m b=
ilinear  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5238648110761068          Grid 2 max:    2.9736273634=
088168    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.7543904334779839E-010
 Maximum relative error      2.4150457368935281E-009
 Least squares error         2.8069949164904129E-010
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-10
  - Max  Relative Error: 10E-9
  - Area Conservation  : 10E-10



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc -m patc=
h  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5274718953636510          Grid 2 max:    2.9868572114=
205145    
 
 Maximum negative weight    -5.3744154587580230E-006
 Maximum positive weight    0.25226019268560956    
 
 Mean relative error         5.0008510021269680E-004
 Maximum relative error      4.4490580632587694E-003
 Least squares error         3.2842282259198317E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-4



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_bilinear_test139.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/latlon_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.=
nc -w latlon_grid_to_SCRIP_1x1_bilinear_test139.nc -m bilinear   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 latlon_grid_to_SCRIP_1x1_bilinear_test139.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0012560718067114          Grid 1 max:    2.9987439271=
320953    
 Grid 2 min:    1.0012560737170322          Grid 2 max:    2.9987439258=
585482    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.67584788635840454    
 
 Mean relative error         1.3909949506225340E-004
 Maximum relative error      1.1708966440551994E-003
 Least squares error         1.1070864612035868E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-16



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_conserve_test140.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/latlon_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.=
nc -w latlon_grid_to_SCRIP_1x1_conserve_test140.nc -m conserve   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_conserve_test140.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 latlon_grid_to_SCRIP_1x1_conserve_test140.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0012560718067114          Grid 1 max:    2.9987439271=
320953    
 Grid 2 min:    1.0012560718067107          Grid 2 max:    2.9987439271=
320953    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4176475102320209E-003
 Maximum relative error      1.5676522837397247E-002
 Least squares error         2.3113146354161200E-003
 
 Grid 1 area     25.132741163801036    
 Grid 2 area     25.132741163801171    
 Conservation error     1.3500311979441904E-013

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-2
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_bilinear_test141.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.=
nc -w SCRIP_1x1_to_latlon_grid_bilinear_test141.nc -m bilinear   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_latlon_grid_bilinear_test141.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    1.0014461876266605          Grid 2 max:    2.9985538113=
123349    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.37561120272624959    
 
 Mean relative error         3.1827367062984824E-005
 Maximum relative error      1.8987943974872406E-004
 Least squares error         2.3251344829581411E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-5
  - Max  Relative Error: 10E-4
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_conserve_test142.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.=
nc -w SCRIP_1x1_to_latlon_grid_conserve_test142.nc -m conserve   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_conserve_test142.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_latlon_grid_conserve_test142.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    1.0017504673884614          Grid 2 max:    2.9982495315=
084052    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.29998096800153939    
 
 Mean relative error         3.1313933166260985E-004
 Maximum relative error      1.1769619679156235E-003
 Least squares error         2.0701941696187236E-004
 
 Grid 1 area     25.132741163819201    
 Grid 2 area     25.132741163819311    
 Conservation error     1.1013412404281553E-013

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/bggd_SCRIP_NCL_BR_INTERPOL.nc -d /export/scripts_dir/daily_bu=
ilds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/i=
nput/icos_ESMF_unstruct_six_corners_INTERPOL.nc -w bggd_SCRIP_NCL_BR_IN=
TERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.n=
c -m conserve2nd  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/bggd_SCRIP_NCL_BR_INTE=
RPOL.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/icos_ESMF_unstruc=
t_six_corners_INTERPOL.nc
   Weight File: bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_co=
rners_INTERPOL_conserve2nd_test143.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_=
conserve2nd_test143.nc - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0001735551726760          Grid 2 max:    2.9997675412=
703066    
 
 Maximum negative weight    -8.4456244840079728E-002
 Maximum positive weight    0.87666878628819345    
 
 Mean relative error         2.4500113860675829E-004
 Maximum relative error      6.7708562737445639E-003
 Least squares error         2.4945684083124405E-004
 
 Grid 1 area     19.068548406404588    
 Grid 2 area     19.068548406404673    
 Conservation error     8.5265128291212022E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.ou=
t


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20130228.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1=
140x690_conserve2nd_test144.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conser=
ve2nd_test144.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.n=
c - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037577571380004          Grid 2 max:    1.2674094778=
279075    
 
 Maximum negative weight    -9.3807537075742548E-002
 Maximum positive weight     1.0000016462518759    
 
 Mean relative error         1.1079680668926185E-005
 Maximum relative error      9.9860850983971559E-004
 Least squares error         1.6253679197788220E-005
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539752379E-002
 Conservation error     1.7694179454963432E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test14=
5.nc -m conserve2nd   --src_missingvalue so --dst_missingvalue so -i  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145=
.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515882985          Grid 2 max:    2.9997490479=
870246    
 
 Maximum negative weight    -4.9534314985921327E-002
 Maximum positive weight    0.99992220268967791    
 
 Mean relative error         1.8899531407513232E-005
 Maximum relative error      1.0048198889939567E-003
 Least squares error         2.4416284491458560E-005
 
 Grid 1 area     14.102839583426567    
 Grid 2 area     14.102839583426622    
 Conservation error     5.5067062021407764E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc -=
m patch   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0003355795984230          Grid 2 max:    2.9996644199=
862486    
 
 Maximum negative weight   -0.10439317844361651    
 Maximum positive weight     1.0007507025011046    
 
 Mean relative error         7.5987093859929732E-005
 Maximum relative error      1.6774269500576280E-002
 Least squares error         3.3312128344408859E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test14=
7.nc -m neareststod   --src_missingvalue so --dst_missingvalue so -i  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147=
.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002285837768650          Grid 2 max:    2.9997714157=
984485    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         7.9448929921378964E-003
 Maximum relative error     0.26183952448598574    
 Least squares error         1.1282250917455144E-002
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-01
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test=
148.nc -m patch    -r -i --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.n=
c
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.1040949295672497          Grid 1 max:    1.2678148475=
214770    
 Grid 2 min:    1.1042026465281245          Grid 2 max:    1.2675320420=
047116    
 
 Maximum negative weight    -8.1436098425530956E-002
 Maximum positive weight    0.82637326758497398    
 
 Mean relative error         9.1775376050376268E-007
 Maximum relative error      5.0252722956782980E-006
 Least squares error         1.1671978551545557E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test=
149.nc -m patch    -r -i --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.n=
c
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1042026065334465          Grid 2 max:    1.2675319872=
252799    
 
 Maximum negative weight   -0.12395848224286986    
 Maximum positive weight    0.77039976301170887    
 
 Mean relative error         7.5650177334023847E-007
 Maximum relative error      5.7865527027764755E-006
 Least squares error         9.7756160206185947E-007
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_gri=
d2d_20130228.nc -w FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_te=
st150.nc -m neareststod  -r -i --src_loc center --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test1=
50.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1041930030111393          Grid 2 max:    1.2677504289=
561952    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.8606635668916986E-005
 Maximum relative error      1.4866695668596826E-003
 Least squares error         5.6277028643628780E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_patch_test=
151.nc -m patch    -r    --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.n=
c
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041933881614086          Grid 2 max:    1.2677506290=
793994    
 
 Maximum negative weight    -3.2407333587520307E-002
 Maximum positive weight    0.32924025675464802    
 
 Mean relative error         1.6716402430709138E-007
 Maximum relative error      3.7550974808249279E-007
 Least squares error         1.3671453724668607E-007
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_neareststo=
d_test152.nc -m neareststod    -r --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_tes=
t152.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041344826670603          Grid 2 max:    1.2679908606=
067594    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.0047219841781502E-004
 Maximum relative error      2.9778625277139271E-004
 Least squares error         9.3834232246408774E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ipe_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc -m neareststo=
d   -i --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0001694524456735          Grid 1 max:    2.9999883676=
137902    
 Grid 2 min:    1.0002735052036527          Grid 2 max:    2.9998919271=
201183    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.5114267533632562E-003
 Maximum relative error      4.5522117658876052E-002
 Least squares error         5.8956884525179507E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_neareststod_test154.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_neareststod_test154.nc -m nearests=
tod  --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_neareststod_test154.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0006114203163836          Grid 2 max:    2.9993885790=
962960    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.7954234240005521E-003
 Maximum relative error      1.6957872319489767E-002
 Least squares error         2.4357725890471978E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc -m bilinear =
 -p none --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5582863936334230E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2266966596685241E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc -m patch =
 --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3162407753775387          Grid 2 max:    2.3420320558=
690468    
 
 Maximum negative weight    -2.1316343577744666E-002
 Maximum positive weight    0.33152935279914392    
 
 Mean relative error         2.6389000837261425E-006
 Maximum relative error      3.5940896322470741E-006
 Least squares error         1.1643056021891035E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/GRIDS=
PEC_ACCESS1.nc -w GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test=
157.nc -m nearestdtos   --src_missingvalue so --dst_missingvalue so -i =
 --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.=
nc
   Weight File: GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test15=
7.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0001607174717779          Grid 2 max:    2.9998392821=
035065    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wam_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc -m nearestdto=
s   --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0008115447814405          Grid 1 max:    2.9991884544=
225318    
 Grid 2 min:    1.0008115447814405          Grid 2 max:    2.9991884544=
225318    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



C48_mosaic_to_C48_mosaic_nearestdtos_test159.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.=
nc -w C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc -m nearestdtos  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Weight File: C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0006114203163836          Grid 2 max:    2.9993885790=
962960    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_gri=
d2d.nc -w FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc -m neares=
tdtos  -r -i --src_loc center --dst_loc center --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1041930030111393          Grid 2 max:    1.2677504289=
561952    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test161.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc -m patch  -l gr=
eatcircle   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0006280745185314          Grid 2 max:    2.9993719193=
475052    
 
 Maximum negative weight    -5.8731841620398829E-002
 Maximum positive weight    0.52992353007301263    
 
 Mean relative error         2.4802280017154006E-005
 Maximum relative error      1.5211292794950135E-004
 Least squares error         1.8509706071779754E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242.nc -w T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc -m co=
nserve2nd    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc - ESMF Offline R=
egridding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:   0.99983450152820852          Grid 2 max:    2.9998346802=
467979    
 
 Maximum negative weight    -5.9209702422542747E-002
 Maximum positive weight     1.0000023196477925    
 
 Mean relative error         3.8729980807208220E-004
 Maximum relative error      3.5374017109129140E-003
 Least squares error         2.7344395649900701E-004
 
 Grid 1 area     25.132741163875927    
 Grid 2 area     25.132741163875874    
 Conservation error     5.3290705182007514E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test163.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc -m patch  -p no=
ne --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473957    
 
 Maximum negative weight    -6.6825024090604382E-002
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.5501198156396689E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1565865982918863E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test164.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc -m patch  -p no=
ne --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_dst_ex=
ponent 3.0  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473961    
 
 Maximum negative weight    -6.6825024090604382E-002
 Maximum positive weight    0.69615092203641293    
 
 Mean relative error         1.5497955922717059E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1564762235055740E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test165.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc -m patch  -p no=
ne --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473957    
 
 Maximum negative weight    -6.6825024090604007E-002
 Maximum positive weight    0.69621778026161729    
 
 Mean relative error         1.5640398239840286E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1632950605771538E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



The following is the output of 'gmake run'

perl ./RegridWeightGenCheckDriver.pl > RegridWeightGenCheck.Log




Fri Oct  4 07:27:56 MDT 2019 run ESMF_RegridCheck dryrun ..............=
.PASSED


Fri Oct  4 07:50:41 MDT 2019 run ESMF_RegridCheck (16 PETS)............=
.PASSED


Special wgettar files:

ESMF_MPIRUN: mpirun

ESMF_TOOLRUN:

NUM_PROCS: 4

Tests to be run:
BT42_ugrid_to_BT42_ugrid_dual_bilinear
BT42_ugrid_to_BT42_ugrid_dual_patch
BT42_ugrid_to_GRIDSPEC_2.5_bilinear
BT42_ugrid_to_GRIDSPEC_2.5_conserve
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd
C48_mosaic_to_GRIDSPEC_1x1_time_conserve
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear

Test or Dryrun Results:
BT42_ugrid_to_BT42_ugrid_dual_bilinear.out - PASSED
BT42_ugrid_to_BT42_ugrid_dual_patch.out - PASSED
BT42_ugrid_to_GRIDSPEC_2.5_bilinear.out - PASSED
BT42_ugrid_to_GRIDSPEC_2.5_conserve.out - PASSED
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch.out - PASSED
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod.out - PASSED
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear.out - PASSED
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch.out - PASSED
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear.out - PASSED
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod.out - PASSED
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd.out - PASSED
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_conserve.out - PASSED
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear.out - PASSED


The following tests pass:
BT42_ugrid_to_BT42_ugrid_dual_bilinear
BT42_ugrid_to_BT42_ugrid_dual_patch
BT42_ugrid_to_GRIDSPEC_2.5_bilinear
BT42_ugrid_to_GRIDSPEC_2.5_conserve
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd
C48_mosaic_to_GRIDSPEC_1x1_time_conserve
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear

Found 19 external tests, 19 pass and 0 fail.

 The following are the output files of the external tests.



----------------------------------------------------------



BT42_ugrid_to_BT42_ugrid_dual_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc  -m bilinear --src_=
var nodedata --dst_var nodedata  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc
   Source variable names: nodedata
   Destination variable names: nodedata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name mesh
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            nodedata
 
 Value min:    1.0023919096530998          Value max:    3.997608090346=
8993    
 Mean relative error         2.8067638164245364E-004
 Maximum relative error      1.7939074934945195E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



BT42_ugrid_to_BT42_ugrid_dual_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc  -m patch --src_var=
 nodedata --dst_var nodedata1   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc
   Source variable names: nodedata
   Destination variable names: nodedata1
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name mesh
   Destination Grid is a global grid
   Regrid Method: patch
   Pole option: ALL

 
 Variable Name            nodedata1
 
 Value min:    1.8751444659767824          Value max:    3.998802470618=
3314    
 Mean relative error         1.6474543502079878E-004
 Maximum relative error      4.4639803891292581E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04


----------------------------------------------------------



BT42_ugrid_to_GRIDSPEC_2.5_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc  -m bilinear --src_var=
 nodedata --dst_var nodedata   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc
   Source variable names: nodedata
   Destination variable names: nodedata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            nodedata
 
 Value min:    1.0022649656994369          Value max:    3.997735033240=
3070    
 Mean relative error         1.6269674760722210E-004
 Maximum relative error      1.5775167675972802E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



BT42_ugrid_to_GRIDSPEC_2.5_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc  -m conserve --src_var=
 elmtdata --dst_var elmtdata   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc
   Source variable names: elmtdata
   Destination variable names: elmtdata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: conservative
   Pole option: NONE

 
 Variable Name            elmtdata
 
 Value min:    1.0026985909826793          Value max:    3.997301407975=
2955    
 Mean relative error         7.8377542233516501E-004
 Maximum relative error      4.1281067930918139E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc  -m patch =
--src_var so --dst_var so  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0015792639714034          Value max:    13.99842071388=
0531    
 Mean relative error         8.6595176537214894E-006
 Maximum relative error      1.5183578862630823E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc  -m neares=
tstod --src_var so --dst_var so  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0020547587806448          Value max:    13.99794524121=
9355    
 Mean relative error         7.1785038341433676E-004
 Maximum relative error      5.4422423963820009E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_2.5_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m neares=
tdtos --src_var so --dst_var so1  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: so
   Destination variable names: so1
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            so1
 
 Value min:    1.0020547587806448          Value max:    13.99794524121=
9355    
 Mean relative error         1.7516227596347213E-009
 Maximum relative error      1.9142184809378590E-008
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-08


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m patch =
--src_var zeta --dst_var zeta  -i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: zeta
   Destination variable names: zeta
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            zeta
 
 Value min:    1.1042026281356812          Value max:    1.267532110214=
2334    
 Mean relative error         9.2988602832134875E-007
 Maximum relative error      5.0433009625879547E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m conser=
ve --src_var ua,va --dst_var ua,va  -i -r --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: ua,va
   Destination variable names: ua,va
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Regrid Method: conservative
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            ua
 
 Value min:    1.1042643785476685          Value max:    1.267704844474=
7925    
 Mean relative error         1.1744883021714032E-004
 Maximum relative error      1.2464727676685396E-003
 
 
 Variable Name            va
 
 Value min:    1.1042643785476685          Value max:    1.267704844474=
7925    
 Mean relative error         1.1744883021714032E-004
 Maximum relative error      1.2464727676685396E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m biline=
ar --src_var ua,va --dst_var ua,va  -i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: ua,va
   Destination variable names: ua,va
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Destination Grid has a mask, using missing value   -999.000000000000=
00    
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            ua
 
 Value min:    1.1042026281356812          Value max:    1.267531991004=
9438    
 Mean relative error         7.8968878393376309E-007
 Maximum relative error      8.7499938016077308E-006
 
 
 Variable Name            va
 
 Value min:    1.1042026281356812          Value max:    1.267531991004=
9438    
 Mean relative error         7.8968878393376309E-007
 Maximum relative error      8.7499938016077308E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06


----------------------------------------------------------



FVCOM_grid2d_test_to_ADCIRC_grid2d_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc  -m patch --sr=
c_var zeta --dst_var zeta  --dst_loc corner -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Source variable names: zeta
   Destination variable names: zeta
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name adcirc_mesh
   Destination Grid is a global grid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            zeta
 
 Value min:    1.1041538715362549          Value max:    1.267814874649=
0479    
 Mean relative error         6.5311419775785823E-008
 Maximum relative error      4.5498045445955654E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-06


----------------------------------------------------------



ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/ADCIRC_g=
rid2d.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/ex=
ternal_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m bilinear -=
-src_var pressure --dst_var pressure  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: pressure
   Destination variable names: pressure
   Souce Grid has a mask, using missingvalue   -99999.000000000000    =

   Source File is in UGRID format with mesh name adcirc_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            pressure
 
 Value min:    1.1041931575337318          Value max:    1.267750495359=
7976    
 Mean relative error         6.1157485954513880E-008
 Maximum relative error      6.6411095253992536E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-06


----------------------------------------------------------



ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/ADCIRC_g=
rid2d.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/ex=
ternal_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m neareststo=
d --src_var pressure --dst_var pressure1  --dst_loc corner -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: pressure
   Destination variable names: pressure1
   Souce Grid has a mask, using missingvalue   -99999.000000000000    =

   Source File is in UGRID format with mesh name adcirc_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a global grid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            pressure1
 
 Value min:    1.1040949821472168          Value max:    1.267814874649=
0479    
 Mean relative error         8.2620104946528125E-008
 Maximum relative error      1.6191460025814281E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1140x690.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m conser=
ve2nd --src_var so --dst_var so  -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: so
   Destination variable names: so
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a regional grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a regional grid
   Regrid Method: 2nd order conservative
   Pole option: NONE

 
 Variable Name            so
 
 Value min:    1.1041266874538314          Value max:    1.267965453679=
0275    
 Mean relative error         4.6835925461346801E-006
 Maximum relative error      2.3751400448675250E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1140x690.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m biline=
ar --src_var so --dst_var so1  --dst_loc corner -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: so
   Destination variable names: so1
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a regional grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a regional grid
   Regrid Method: bilinear
   Pole option: NONE

 
 Variable Name            so1
 
 Value min:    1.1040951411677011          Value max:    1.267814986075=
5017    
 Mean relative error         8.7349906486091312E-008
 Maximum relative error      1.9421354484462889E-007
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m bilinear --sr=
c_var area_land --dst_var area_land  --srcdatafile mosaictest --tilefil=
e_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: area_land
   Destination variable names: area_land
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            area_land
 
 Value min:    1.0006881952285767          Value max:    2.999311923980=
7129    
 Mean relative error         1.0485143151861544E-004
 Maximum relative error      8.7008138869207948E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m conserve2nd -=
-src_var evap_land --dst_var evap_land  --srcdatafile mosaictest --tile=
file_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: evap_land
   Destination variable names: evap_land
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: 2nd order conservative
   Pole option: NONE

 
 Variable Name            evap_land
 
 Value min:   0.99984735250473022          Value max:    14.00015258789=
0625    
 Mean relative error         4.2834424391730671E-005
 Maximum relative error      1.5236834409609469E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m conserve --sr=
c_var area_land,evap_land --dst_var var2d,var3d  --srcdatafile mosaicte=
st --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: area_land,evap_land
   Destination variable names: var2d,var3d
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: conservative
   Pole option: NONE

 
 Variable Name            var2d
 
 Value min:    1.0006114244461060          Value max:    2.999388694763=
1836    
 Mean relative error         1.8126691836533506E-003
 Maximum relative error      8.1195373620226163E-003
 
 
 Variable Name            var3d
 
 Value min:    1.0006114244461060          Value max:    13.99938869476=
3184    
 Mean relative error         6.3581060437060510E-004
 Maximum relative error      8.1195373620226163E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_1x1_time_to_C48_mosaic_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc  -m bilinear --sr=
c_var so --dst_var so  -i --dstdatafile mosaictest --tilefile_path ./in=
put/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC MOSAIC format
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0007816069011390          Value max:    13.99921839309=
8861    
 Mean relative error         9.3439317720890207E-006
 Maximum relative error      2.0743945609521890E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04


----------------------------------------------------------



The following is the output of 'gmake run'

perl ./RegridCheckDriver.pl > RegridCheck.Log





_______________________________________________________________________=
_________________

Fri Oct  4 07:52:53 MDT 2019 on linux-regtest2.gsd.esrl.noaa.gov

ESMF Checkout Source: git://git.code.sf.net/p/esmf/esmf

Compiler and configuration information:

--------------------------------------------------------------
Currently Loaded Modulefiles:
 1) gfortran/4.8.5/gcc/4.8.5/mpich3/3.2.1 

ESMF Repository:
origin=09git://git.code.sf.net/p/esmf/esmf (fetch)
origin=09git://git.code.sf.net/p/esmf/esmf (push)

ESMF_8_0_0


External Demos  Repository:
origin=09git://git.code.sf.net/p/esmf/external_demos (fetch)
origin=09git://git.code.sf.net/p/esmf/external_demos (push)

ESMF_8_0_0



--------------------------------------------------------------
ESMF_VERSION_STRING:    8.0.0
ESMF_8_0_0
--------------------------------------------------------------
# On branch master
# Untracked files:
#   (use "git add ..." to include in what will be committed)
#
#=09queue_results
#=09src/installcheck/esmc_application
#=09src/installcheck/esmc_application.o
#=09src/installcheck/esmf_application
#=09src/installcheck/esmf_application.o
#=09tmp
nothing added to commit but untracked files present (use "git add" to t=
rack)
--------------------------------------------------------------

--------------------------------------------------------------
Make version:
GNU Make 3.82
Built for x86_64-redhat-linux-gnu
Copyright (C) 2010  Free Software Foundation, Inc.
License GPLv3+: GNU GPL version 3 or later 
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.

--------------------------------------------------------------
Fortran Compiler version:
GNU Fortran (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.

GNU Fortran comes with NO WARRANTY, to the extent permitted by law.
You may redistribute copies of GNU Fortran
under the terms of the GNU General Public License.
For more information about these matters, see the file named COPYING


--------------------------------------------------------------
C++ Compiler version:
g++ (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is=
 NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURP=
OSE.


--------------------------------------------------------------
Preprocessor version:
gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-39)
Copyright (C) 2015 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is=
 NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURP=
OSE.


--------------------------------------------------------------
 * User set ESMF environment variables *
ESMF_ABI64
ESMF_BOPTO
ESMF_COMMmpich3
ESMF_COMPILERgfortran
ESMF_DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esm=
f
ESMF_INSTALL_BINDIRbin
ESMF_INSTALL_HEADERDIRinclude
ESMF_INSTALL_LIBDIRlib
ESMF_INSTALL_MODDIRinclude
ESMF_INSTALL_PREFIX/export/scripts_dir/daily_builds/external_demos/g=
fortran/esmf/../install_dir
ESMF_NETCDF_INCLUDE/export/esmf_env/build/netcdf_gfortran/include
ESMF_NETCDF_LIBPATH/export/esmf_env/build/netcdf_gfortran/lib
ESMF_NETCDFsplit
ESMF_OSLinux
ESMF_SITEdefault
ESMF_TESTEXHAUSTIVEON
ESMF_TESTMPMDOFF
ESMF_TESTWITHTHREADSOFF

--------------------------------------------------------------
 * ESMF environment variables *
ESMF_DIR: /export/scripts_dir/daily_builds/external_demos/gfortran/esmf
ESMF_OS:                Linux
ESMF_MACHINE:           x86_64
ESMF_ABI:               64
ESMF_COMPILER:          gfortran
ESMF_BOPT:              O
ESMF_COMM:              mpich3
ESMF_SITE:              default
ESMF_PTHREADS:          ON
ESMF_OPENMP:            ON
ESMF_OPENACC:           OFF
ESMF_CXXSTD:            11
ESMF_ARRAY_LITE:        FALSE
ESMF_NO_INTEGER_1_BYTE: TRUE
ESMF_NO_INTEGER_2_BYTE: TRUE
ESMF_FORTRANSYMBOLS:    default
ESMF_MAPPER_BUILD:      OFF
ESMF_AUTO_LIB_BUILD:    ON
ESMF_DEFER_LIB_BUILD:   ON
ESMF_SHARED_LIB_BUILD:  ON
ESMF_TRACE_LIB_BUILD:   ON
ESMF_TESTEXHAUSTIVE:    ON
ESMF_TESTCOMPTUNNEL:    ON
ESMF_TESTWITHTHREADS:   OFF
ESMF_TESTMPMD:          OFF
ESMF_TESTSHAREDOBJ:     OFF
ESMF_TESTFORCEOPENMP:   OFF
ESMF_TESTFORCEOPENACC:  OFF
ESMF_TESTHARNESS_ARRAY: default
ESMF_TESTHARNESS_FIELD: default
ESMF_MPIRUN:            mpirun

--------------------------------------------------------------
 * ESMF environment variables pointing to 3rd party software *
ESMF_MOAB:               internal
ESMF_LAPACK:             internal
ESMF_ACC_SOFTWARE_STACK: none
ESMF_NETCDF:             split
ESMF_NETCDF_INCLUDE:     /export/esmf_env/build/netcdf_gfortran/include
ESMF_NETCDF_LIBS:        -lnetcdff -lnetcdf
ESMF_NETCDF_LIBPATH:     /export/esmf_env/build/netcdf_gfortran/lib
ESMF_YAMLCPP:            internal
ESMF_PIO:                internal

--------------------------------------------------------------
 * ESMF environment variables for final installation *
ESMF_INSTALL_PREFIX:    /export/scripts_dir/daily_builds/external_demos=
/gfortran/esmf/../install_dir
ESMF_INSTALL_HEADERDIR: include
ESMF_INSTALL_MODDIR:    include
ESMF_INSTALL_LIBDIR:    lib
ESMF_INSTALL_BINDIR:    bin
ESMF_INSTALL_DOCDIR:    doc

--------------------------------------------------------------
 * ESMF Benchmark directory and parameters *
ESMF_BENCHMARK_PREFIX:         ./DEFAULTBENCHMARKDIR
ESMF_BENCHMARK_TOLERANCE:      20%
ESMF_BENCHMARK_THRESHOLD_MSEC: 500

--------------------------------------------------------------
 * Other relevant environment variables *
PATH:    /export/esmf_env/build/netcdf_gfortran/bin:/export/esmf_env/bu=
ild/mpich-3.2.1/mpich3_gfortran/bin:/home/silverio.vasquez/bin:/usr/loc=
al/share/Modules/bin:/usr/bin:/bin:/usr/local/sbin:/usr/sbin:/home/silv=
erio.vasquez/.local/bin:/home/silverio.vasquez/bin:/home/silverio.vasqu=
ez/.local/bin:/home/silverio.vasquez/bin:/home/silverio.vasquez/.local/=
bin:/home/silverio.vasquez/bin:/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/../install_dir/bin:/home/silverio.vasquez/.local/=
bin:/home/silverio.vasquez/bin
LD_LIBRARY_PATH:

--------------------------------------------------------------
 * Compilers, Linkers, Flags, and Libraries *
Location of the preprocessor:      /usr/bin/gcc
Location of the Fortran compiler:  /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpif90
Location of the Fortran linker:    /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpif90
Location of the C++ compiler:      /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpicxx
Location of the C++ linker:        /export/esmf_env/build/mpich-3.2.1/m=
pich3_gfortran/bin/mpicxx

Fortran compiler flags:
ESMF_F90COMPILER: mpif90
ESMF_F90COMPILEOPTS: -O -fPIC  -m64 -mcmodelsmall -pthread -ffree-li=
ne-length-none  -fopenmp
ESMF_F90COMPILEPATHS: -I/export/scripts_dir/daily_builds/external_demos=
/gfortran/esmf/mod/modO/Linux.gfortran.64.mpich3.default -I/export/scri=
pts_dir/daily_builds/external_demos/gfortran/esmf/src/include -I/export=
/esmf_env/build/netcdf_gfortran/include
ESMF_F90COMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_B=
YTE -DESMFVERSIONGIT'ESMF_8_0_0' -DESMF_LAPACK1 -DESMF_LAPACK_INT=
ERNAL1 -DESMF_MOAB1 -DESMF_NO_ACC_SOFTWARE_STACK1 -DESMF_NETCD=
F1 -DESMF_YAMLCPP1 -DESMF_YAML1 -DESMF_PIO1 -DESMF_MPIIO -D=
ESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE -DESMF_BOPT_O -DESMF_TESTCOMPTUNN=
EL -DSx86_64_small1 -DESMF_OS_Linux1 -DESMF_COMMmpich3 -DESMF_=
DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esmf
ESMF_F90COMPILEFREECPP:
ESMF_F90COMPILEFREENOCPP: -ffree-form
ESMF_F90COMPILEFIXCPP: -cpp -ffixed-form
ESMF_F90COMPILEFIXNOCPP:

Fortran linker flags:
ESMF_F90LINKOPTS:    -m64 -mcmodelsmall -pthread -Wl,--no-as-needed =
 -fopenmp
ESMF_F90LINKPATHS: -L/export/scripts_dir/daily_builds/external_demos/gf=
ortran/esmf/lib/libO/Linux.gfortran.64.mpich3.default -L/export/esmf_en=
v/build/netcdf_gfortran/lib -L/usr/lib/gcc/x86_64-redhat-linux/4.8.5/
ESMF_F90LINKRPATHS: -Wl,-rpath,/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/lib/libO/Linux.gfortran.64.mpich3.default  -Wl,-r=
path,/export/esmf_env/build/netcdf_gfortran/lib -Wl,-rpath,/usr/lib/gcc=
/x86_64-redhat-linux/4.8.5/
ESMF_F90LINKLIBS:  -lrt -lstdc++ -ldl -lnetcdff -lnetcdf
ESMF_F90ESMFLINKLIBS: -lesmf  -lrt -lstdc++ -ldl -lnetcdff -lnetcdf

C++ compiler flags:
ESMF_CXXCOMPILER: mpicxx
ESMF_CXXCOMPILEOPTS: -stdc++11 -O -DNDEBUG -fPIC -DESMF_LOWERCASE_SI=
NGLEUNDERSCORE -m64 -mcmodelsmall -pthread  -fopenmp
ESMF_CXXCOMPILEPATHS:  -I/export/scripts_dir/daily_builds/external_demo=
s/gfortran/esmf/src/include  -I/export/esmf_env/build/netcdf_gfortran/i=
nclude -I/export/scripts_dir/daily_builds/external_demos/gfortran/esmf/=
src/prologue/yaml-cpp/include
ESMF_CXXCOMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_B=
YTE -DESMFVERSIONGIT'ESMF_8_0_0' -DESMF_LAPACK1 -DESMF_LAPACK_INT=
ERNAL1 -DESMF_MOAB1 -DESMF_NO_ACC_SOFTWARE_STACK1 -DESMF_NETCD=
F1 -DESMF_YAMLCPP1 -DESMF_YAML1 -DESMF_PIO1 -DESMF_MPIIO -D=
ESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE  -DESMF_BOPT_O -DESMF_TESTCOMPTUN=
NEL -DSx86_64_small1 -DESMF_OS_Linux1 -DESMF_COMMmpich3 -DESMF=
_DIR/export/scripts_dir/daily_builds/external_demos/gfortran/esmf -D=
__SDIR__'' -DESMF_CXXSTD11

C++ linker flags:
ESMF_CXXLINKOPTS:   -m64 -mcmodelsmall -pthread -Wl,--no-as-needed  =
-fopenmp
ESMF_CXXLINKPATHS: -L/export/scripts_dir/daily_builds/external_demos/gf=
ortran/esmf/lib/libO/Linux.gfortran.64.mpich3.default -L/export/esmf_en=
v/build/netcdf_gfortran/lib -L/usr/lib/gcc/x86_64-redhat-linux/4.8.5/
ESMF_CXXLINKRPATHS: -Wl,-rpath,/export/scripts_dir/daily_builds/externa=
l_demos/gfortran/esmf/lib/libO/Linux.gfortran.64.mpich3.default  -Wl,-r=
path,/export/esmf_env/build/netcdf_gfortran/lib -Wl,-rpath,/usr/lib/gcc=
/x86_64-redhat-linux/4.8.5/
ESMF_CXXLINKLIBS:  -lmpifort -lrt -lgfortran -ldl -lnetcdff -lnetcdf
ESMF_CXXESMFLINKLIBS: -lesmf  -lmpifort -lrt -lgfortran -ldl -lnetcdff =
-lnetcdf

Shared library build:
ESMF_SL_LIBS_TO_MAKE: libesmf
ESMF_SL_SUFFIX:       so
ESMF_SL_LIBLINKER:    mpicxx
ESMF_SL_LIBOPTS:       -shared  -fopenmp
ESMF_SL_LIBLIBS:     

ESMF Tracing linker options:
ESMF_TRACE_LDPRELOAD/export/scripts_dir/daily_builds/external_demos/=
gfortran/esmf/lib/libO/Linux.gfortran.64.mpich3.default/libesmftrace_pr=
eload.so
ESMF_TRACE_STATICLINKOPTS-static -Wl,--wrapc_esmftrace_notify_wra=
ppers -Wl,--wrapc_esmftrace_isinitialized -Wl,--wrapwrite -Wl,--w=
rapwritev -Wl,--wrappwrite -Wl,--wrapread -Wl,--wrapopen -W=
l,--wrapMPI_Allgather -Wl,--wrapMPI_Allgatherv -Wl,--wrapMPI_A=
llreduce -Wl,--wrapMPI_Alltoall -Wl,--wrapMPI_Alltoallv -Wl,--wra=
pMPI_Alltoallw -Wl,--wrapMPI_Barrier -Wl,--wrapMPI_Bcast -Wl,-=
-wrapMPI_Gather -Wl,--wrapMPI_Gatherv -Wl,--wrapMPI_Recv -Wl,-=
-wrapMPI_Reduce -Wl,--wrapMPI_Scatter -Wl,--wrapMPI_Send -Wl,-=
-wrapMPI_Sendrecv -Wl,--wrapMPI_Wait -Wl,--wrapMPI_Waitall -Wl=
,--wrapMPI_Waitany -Wl,--wrapMPI_Waitsome -Wl,--wrapmpi_allgat=
her_ -Wl,--wrapmpi_allgather__ -Wl,--wrapmpi_allgatherv_ -Wl,--wr=
apmpi_allgatherv__ -Wl,--wrapmpi_allreduce_ -Wl,--wrapmpi_allr=
educe__ -Wl,--wrapmpi_alltoall_ -Wl,--wrapmpi_alltoall__ -Wl,--wr=
apmpi_alltoallv_ -Wl,--wrapmpi_alltoallv__ -Wl,--wrapmpi_allto=
allw_ -Wl,--wrapmpi_alltoallw__ -Wl,--wrapmpi_barrier_ -Wl,--wrap=
mpi_barrier__ -Wl,--wrapmpi_bcast_ -Wl,--wrapmpi_bcast__ -Wl,-=
-wrapmpi_exscan_ -Wl,--wrapmpi_exscan__ -Wl,--wrapmpi_gather_ =
-Wl,--wrapmpi_gather__ -Wl,--wrapmpi_gatherv_ -Wl,--wrapmpi_ga=
therv__ -Wl,--wrapmpi_recv_ -Wl,--wrapmpi_recv__ -Wl,--wrapmpi=
_reduce_ -Wl,--wrapmpi_reduce__ -Wl,--wrapmpi_reduce_scatter_ -Wl=
,--wrapmpi_reduce_scatter__ -Wl,--wrapmpi_scatter_ -Wl,--wrapm=
pi_scatter__ -Wl,--wrapmpi_scatterv_ -Wl,--wrapmpi_scatterv__ -Wl=
,--wrapmpi_scan_ -Wl,--wrapmpi_scan__ -Wl,--wrapmpi_send_ -Wl,=
--wrapmpi_send__ -Wl,--wrapmpi_wait_ -Wl,--wrapmpi_wait__ -Wl,=
--wrapmpi_waitall_ -Wl,--wrapmpi_waitall__ -Wl,--wrapmpi_waita=
ny_ -Wl,--wrapmpi_waitany__
ESMF_TRACE_STATICLINKLIBS-lesmftrace_static


--------------------------------------------------------------
Compiling on Fri Oct 4 07:52:59 MDT 2019 on linux-regtest2.gsd.esrl.noa=
a.gov
Machine characteristics: Linux linux-regtest2.gsd.esrl.noaa.gov 3.10.0-=
1062.el7.x86_64 #1 SMP Thu Jul 18 20:25:13 UTC 2019 x86_64 x86_64 x86_6=
4 GNU/Linux
=
=


Fri Oct  4 08:17:31 MDT 2019 library build ............................=
.PASSED
Builds with warnings.
Fri Oct  4 08:17:52 MDT 2019 library install ..........................=
.PASSED
Fri Oct  4 08:17:54 MDT 2019 library installcheck .....................=
.PASSED
Fri Oct  4 08:17:54 MDT 2019 ESMF_CoupledFlow doc build ...............=
.PASSED


|--------------------------------- EXTERNAL DEMOS ---------------------=
-----|

Fri Oct  4 08:17:54 MDT 2019 ESMF_InstallationCheck ...................=
.PASSED
Output of ESMF_InstallationCheck.sh


ESMF Installation Check


1) Environment variable ESMFMKFILE: /export/scripts_dir/daily_builds/ex=
ternal_demos/gfortran/esmf/../install_dir/lib/esmf.mk
1a) Found esmf.mk according to ESMFMKFILE: ...YES.
1b) The ESMF_APPSDIR referenced by esmf.mk: ...EXISTS.
-> The ESMF_APPSDIR contains the following apps:
-> ESMF_Info
ESMF_InfoC
ESMF_Regrid
ESMF_RegridWeightGen
ESMF_Scrip2Unstruct
ESMF_WebServController

2) ESMF apps accessible through PATH environment variable: ...YES.

/export/scripts_dir/daily_builds/external_demos/gfortran/esmf/../instal=
l_dir/bin


Fri Oct  4 08:17:54 MDT 2019 build ESMC_HelloWorld ....................=
.PASSED
Fri Oct  4 08:17:55 MDT 2019 run_ESMC_HelloWorld (4 PET)...............=
.PASSED

Fri Oct  4 08:17:56 MDT 2019 build ESMF_HelloWorld ....................=
.PASSED
Fri Oct  4 08:17:56 MDT 2019 run_ESMF_HelloWorld (4 PET)...............=
.PASSED

Fri Oct  4 08:18:05 MDT 2019 build ESMF_CoupledFlow ...................=
.PASSED
Fri Oct  4 08:18:06 MDT 2019 run ESMF_CoupledFlow (4 PET)..............=
.PASSED



The following are the *.nc files generated:

-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 08:18 DE.nc
-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 08:18 FLAG.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224772 Oct  4 08:18 OMEGA.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224768 Oct  4 08:18 SIE.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 08:18 U_velocity.n=
c
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 08:18 V_velocity.n=
c


Fri Oct  4 08:18:09 MDT 2019 run ESMF_CoupledFlow (4 PET)..............=
.PASSED



The following are the *.nc files generated:

-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 08:18 DE.nc
-rw-r--r--. 1 silverio.vasquez wxusers  45040 Oct  4 08:18 FLAG.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224772 Oct  4 08:18 OMEGA.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224768 Oct  4 08:18 SIE.nc
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 08:18 U_velocity.n=
c
-rw-r--r--. 1 silverio.vasquez wxusers 224760 Oct  4 08:18 V_velocity.n=
c


Fri Oct  4 08:18:11 MDT 2019 build ESMF_Regrid ........................=
.PASSED
Fri Oct  4 08:18:18 MDT 2019 run ESMF_Regrid (4 PETs)..................=
.PASSED

The following is run output log:

 
 Mean relative error         2.0486342804909374E-004
 Maximum relative error      2.4778392255765145E-002
 Least squares error         5.5949766263568900E-004
 

 ESMF_Regrid - PASS



Fri Oct  4 08:18:28 MDT 2019 run ESMF_RegridWeightGenCheck dryrun .....=
.PASSED


Fri Oct  4 08:49:37 MDT 2019 run ESMF_RegridWeightGenCheck (4 PETS)....=
.PASSED


ESMF_MPIRUN: mpirun

ESMF_TOOLRUN:

NUM_PROCS: 4

Tests to be run:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Test or Dryrun Results:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3=
.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.ou=
t - PASSED
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out - P=
ASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out - P=
ASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out =
- PASSED
ll2.5deg_grid_to_T42_grid_bilinear_test10.out - PASSED
ll2.5deg_grid_to_T42_grid_patch_test11.out - PASSED
T42_grid_to_ll2.5deg_grid_patch_test12.out - PASSED
T42_grid_to_ll2.5deg_grid_bilinear_test13.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test15.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out - PASSED
T42_grid_to_wr50a_090614_bilinear_test18.out - PASSED
T42_grid_to_wr50a_090614_patch_test19.out - PASSED
T42_grid_to_wr50a_090614_conserve_test20.out - PASSED
T42_grid_to_wr50a_090614_conserve2nd_test21.out - PASSED
wr50a_090614_to_T42_grid_bilinear_test22.out - PASSED
wr50a_090614_to_T42_grid_patch_test23.out - PASSED
wr50a_090614_to_T42_grid_conserve_test24.out - PASSED
wr50a_090614_to_T42_grid_conserve2nd_test25.out - PASSED
T42_grid_to_ar9v4_100920_bilinear_test26.out - PASSED
T42_grid_to_ar9v4_100920_patch_test27.out - PASSED
T42_grid_to_ar9v4_100920_conserve_test28.out - PASSED
T42_grid_to_ar9v4_100920_conserve2nd_test29.out - PASSED
ar9v4_100920_to_T42_grid_bilinear_test30.out - PASSED
ar9v4_100920_to_T42_grid_patch_test31.out - PASSED
ar9v4_100920_to_T42_grid_conserve_test32.out - PASSED
wr50a_090614_to_ar9v4_100920_bilinear_test33.out - PASSED
wr50a_090614_to_ar9v4_100920_patch_test34.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve_test35.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out - PASSED
ar9v4_100920_to_wr50a_090614_bilinear_test37.out - PASSED
ar9v4_100920_to_wr50a_090614_patch_test38.out - PASSED
ar9v4_100920_to_wr50a_090614_conserve_test39.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out - PASSED
ne30np4-t2_to_wr50a_090614_bilinear_test52.out - PASSED
ne30np4-t2_to_wr50a_090614_patch_test53.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve_test54.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out - PASSED
wr50a_090614_to_ne30np4-t2_bilinear_test56.out - PASSED
wr50a_090614_to_ne30np4-t2_patch_test57.out - PASSED
ar9v4_100920_to_ne30np4-t2_conserve_test58.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out - PAS=
SED
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out - PAS=
SED
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out - PAS=
SED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out - PAS=
SED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out - =
PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out - =
PASSED
T42_grid_to_mpas_uniform_10242_dual_patch_test67.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out - PASSE=
D
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out - PASSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out=
 - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out - PA=
SSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out - =
PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out - PASSE=
D
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out=
 - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out - PA=
SSED
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out - PASSED
T42_grid_to_ww3a_120213_conserve_test83.out - PASSED
ww3a_120213_to_T42_grid_conserve_test84.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out - PASSED
wr50a_090614_to_wr50a_090614_neareststod_test89.out - PASSED
T42_grid_to_T42_grid_neareststod_test90.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out - PASSE=
D
wr50a_090614_to_wr50a_090614_nearestdtos_test92.out - PASSED
T42_grid_to_T42_grid_nearestdtos_test93.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out - PASSE=
D
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out - PASSED
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out - PASSE=
D
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out - PASSED
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out - PASSED
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out - PASSED
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out - PASSED
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out - PASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out - P=
ASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out - P=
ASSED
mpas_uniform_10242_to_T42_grid_conserve_test115.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve_test116.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out - PASSED
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out - PASSED
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out - PASSED
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out - PASSED
C48_mosaic_to_latlon_mosaic_bilinear_test122.out - PASSED
C48_mosaic_to_latlon_mosaic_patch_test123.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve_test124.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out - PASSED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out - PASS=
ED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out - PASS=
ED
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out - PASSED
latlon_grid_to_SCRIP_1x1_bilinear_test139.out - PASSED
latlon_grid_to_SCRIP_1x1_conserve_test140.out - PASSED
SCRIP_1x1_to_latlon_grid_bilinear_test141.out - PASSED
SCRIP_1x1_to_latlon_grid_conserve_test142.out - PASSED
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143.out - PASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.ou=
t - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out - PASSE=
D
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out - PASSED
C48_mosaic_to_latlon_mosaic_neareststod_test154.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out - PASSED
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out - PASSED
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out - PASSED
C48_mosaic_to_C48_mosaic_nearestdtos_test159.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test161.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test163.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test164.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test165.out - PASSED


The following tests pass:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Found 165 external tests, 165 pass and 0 fail.

 The following are the output files of the external tests.



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_bilinear_t=
est1.nc -m bilinear  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.=
nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142956447778876          Grid 2 max:    2.8781934731=
062639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.95391883825889190    
 
 Mean relative error         2.9685108849422315E-006
 Maximum relative error      1.1493004899310925E-005
 Least squares error         1.7488474827208072E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_patch_test=
2.nc -m patch  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142952242530209          Grid 2 max:    2.8781963083=
920821    
 
 Maximum negative weight    -4.4114131943119576E-002
 Maximum positive weight    0.58372840861774467    
 
 Mean relative error         2.6718769339078756E-006
 Maximum relative error      8.4647073273348436E-006
 Least squares error         1.5632930836288615E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3=
.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_1024=
2_dual_counterclockwise_bilinear_test3.nc -m bilinear  -i --src_regiona=
l --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual_counterclockwise.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_counterclockwis=
e_bilinear_test3.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test=
3.nc - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142956447778876          Grid 2 max:    2.8781934731=
062639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.95391883825889190    
 
 Mean relative error         2.9685108849422315E-006
 Maximum relative error      1.1493004899310925E-005
 Least squares error         1.7488474827208072E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.ou=
t


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_1024=
2_dual_counterclockwise_patch_test4.nc -m patch  -i --src_regional --ds=
t_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual_counterclockwise.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_counterclockwis=
e_patch_test4.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.n=
c - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4142952242530209          Grid 2 max:    2.8781963083=
920821    
 
 Maximum negative weight    -4.4114131943119576E-002
 Maximum positive weight    0.58372840861774467    
 
 Mean relative error         2.6718769339078756E-006
 Maximum relative error      8.4647073273348436E-006
 Least squares error         1.5632930836288615E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20120314.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20120314_to_scrip_regional_1=
140x690_conserve_test5.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conser=
ve_test5.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758058    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062494E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461644E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751872E-002
 Conservation error     2.2759572004815709E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20120314.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0120314_conserve_test6.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2012=
0314.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conser=
ve_test6.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20130228.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1=
140x690_conserve_test7.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conser=
ve_test7.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758058    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062494E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461644E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751872E-002
 Conservation error     2.2759572004815709E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0130228_conserve_test8.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conser=
ve_test8.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_2=
0130228_conserve2nd_test9.nc -m conserve2nd    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conser=
ve2nd_test9.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc =
- ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041266844648387          Grid 2 max:    1.2679654485=
035983    
 
 Maximum negative weight   -0.12673877222349739    
 Maximum positive weight     1.0000000366883184    
 
 Mean relative error         4.6838433798124069E-006
 Maximum relative error      2.3750711731418021E-004
 Least squares error         1.2857177704537607E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524510479E-002
 Conservation error     1.6722734308416420E-015

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_bilinear_test10.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid=
.nc -w ll2.5deg_grid_to_T42_grid_bilinear_test10.nc -m bilinear  -p non=
e     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_T42_grid_bilinear_test10.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0006969117483824          Grid 2 max:    2.9993030882=
516178    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96589386245818398    
 
 Mean relative error         1.5952287252993385E-004
 Maximum relative error      1.1480005671931216E-003
 Least squares error         1.2315304773456381E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_patch_test11.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid=
.nc -w ll2.5deg_grid_to_T42_grid_patch_test11.nc -m patch  -p 4        =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_patch_test11.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_T42_grid_patch_test11.nc - ESMF Offline Regridding We=
ight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0015427152627137          Grid 2 max:    2.9984574105=
762514    
 
 Maximum negative weight    -6.3624361605005578E-002
 Maximum positive weight    0.69918466380898125    
 
 Mean relative error         1.5609425918282729E-004
 Maximum relative error      9.4921568323778579E-004
 Least squares error         1.1613392943153260E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_patch_test12.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid=
.nc -w T42_grid_to_ll2.5deg_grid_patch_test12.nc -m patch  -p none -i  =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_patch_test12.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ll2.5deg_grid_patch_test12.nc - ESMF Offline Regridding We=
ight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0016725729207379          Grid 2 max:    2.9983274270=
788609    
 
 Maximum negative weight    -5.8614745980012047E-002
 Maximum positive weight    0.69932014203023107    
 
 Mean relative error         1.9715117708703640E-004
 Maximum relative error      1.1961145018723868E-003
 Least squares error         1.4713751545418163E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_bilinear_test13.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid=
.nc -w T42_grid_to_ll2.5deg_grid_bilinear_test13.nc -m bilinear  -p 4  =
      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ll2.5deg_grid_bilinear_test13.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96944230629924300    
 
 Mean relative error         2.0344046061245897E-004
 Maximum relative error      1.4544920500493522E-003
 Least squares error         1.5614625004551152E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc -m bilinear  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0005329596651873          Grid 2 max:    2.9994670403=
348134    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.74999524029242237    
 
 Mean relative error         2.2977195996963211E-005
 Maximum relative error      2.0758052589453025E-004
 Least squares error         1.8853287697986301E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test15.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc -m patch     --c=
heck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0006280708920590          Grid 2 max:    2.9993719229=
740163    
 
 Maximum negative weight    -5.8732028303127744E-002
 Maximum positive weight    0.52992119849501085    
 
 Mean relative error         2.4801410654674764E-005
 Maximum relative error      1.5210930320135805E-004
 Least squares error         1.8509575576241889E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc -m conserve  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0010503048349342          Grid 2 max:    2.9989496951=
650638    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.19205720453310238    
 
 Mean relative error         2.1786738416079617E-004
 Maximum relative error      9.1628879155132830E-004
 Least squares error         1.3904366145515811E-004
 
 Grid 1 area     25.132741163829067    
 Grid 2 area     25.132741163829390    
 Conservation error     3.2329694477084558E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc -m conserv=
e2nd     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0008831374510163          Grid 2 max:    2.9991168625=
489810    
 
 Maximum negative weight    -1.3853114995673198E-002
 Maximum positive weight    0.19205720453310238    
 
 Mean relative error         9.0103204264824525E-005
 Maximum relative error      4.0827820940581299E-004
 Least squares error         5.8460316852204941E-005
 
 Grid 1 area     25.132741163829067    
 Grid 2 area     25.132741163829319    
 Conservation error     2.5224267119483557E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_wr50a_090614_bilinear_test18.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_bilinear_test18.nc -m bilinear  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_bilinear_test18.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_bilinear_test18.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.4079281859407948          Grid 2 max:    2.8803012117=
977635    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99634551426679507    
 
 Mean relative error         1.0307089262538523E-004
 Maximum relative error      5.3681060887402431E-004
 Least squares error         6.7329861438909767E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_patch_test19.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_patch_test19.nc -m patch  --dst_regional=
  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_patch_test19.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_patch_test19.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.4082253315533444          Grid 2 max:    2.8798319793=
013225    
 
 Maximum negative weight    -6.1982849778907730E-002
 Maximum positive weight    0.70465405420293459    
 
 Mean relative error         9.9450805069487859E-005
 Maximum relative error      3.8153304568270337E-004
 Least squares error         6.2111011424470760E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve_test20.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_conserve_test20.nc -m conserve  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve_test20.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_conserve_test20.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.3878213849895453          Grid 2 max:    2.8936308884=
595001    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.2815297282765641E-003
 Maximum relative error      2.2883538003152459E-002
 Least squares error         2.6274833680737246E-003
 
 Grid 1 area     5.5407699343700179    
 Grid 2 area     5.5407699343699361    
 Conservation error     8.1712414612411521E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve2nd_test21.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.=
nc -w T42_grid_to_wr50a_090614_conserve2nd_test21.nc -m conserve2nd  --=
dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve2nd_test21.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_wr50a_090614_conserve2nd_test21.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.3845267669069368          Grid 2 max:    2.8957949854=
499025    
 
 Maximum negative weight   -0.13786489542922725    
 Maximum positive weight     1.0002948868372754    
 
 Mean relative error         2.8775322676955877E-004
 Maximum relative error      2.3146485552752890E-002
 Least squares error         4.8922641119643557E-004
 
 Grid 1 area     5.5407699343700179    
 Grid 2 area     5.5407699343699806    
 Conservation error     3.7303493627405260E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_bilinear_test22.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_bilinear_test22.nc -m bilinear  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_bilinear_test22.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_bilinear_test22.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4212109642574657          Grid 2 max:    2.8681824891=
925887    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.96060522484247135    
 
 Mean relative error         2.5767331934934054E-006
 Maximum relative error      1.1928839020257408E-005
 Least squares error         1.5906331542704589E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_patch_test23.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_patch_test23.nc -m patch  --src_regional=
 -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_patch_test23.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_patch_test23.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4212112528473682          Grid 2 max:    2.8681804561=
835298    
 
 Maximum negative weight    -4.4685625522894859E-002
 Maximum positive weight    0.58406263519934720    
 
 Mean relative error         1.9460604338607886E-006
 Maximum relative error      8.4291838829148476E-006
 Least squares error         1.3033118721059917E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve_test24.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_conserve_test24.nc -m conserve  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve_test24.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_conserve_test24.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4462745312330034          Grid 2 max:    2.8551416805=
517165    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     3.0963068567666868E-002
 
 Mean relative error         1.0071631128575511E-004
 Maximum relative error      3.1532770857316245E-004
 Least squares error         6.3320017241751413E-005
 
 Grid 1 area     5.5408316793620020    
 Grid 2 area     5.5408316793619692    
 Conservation error     3.2862601528904634E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve2nd_test25.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w wr50a_090614_to_T42_grid_conserve2nd_test25.nc -m conserve2nd  --=
src_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve2nd_test25.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_T42_grid_conserve2nd_test25.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4462602609904478          Grid 2 max:    2.8551540296=
434021    
 
 Maximum negative weight    -1.6301139323853006E-003
 Maximum positive weight     3.0963068567666868E-002
 
 Mean relative error         1.0048028459523792E-004
 Maximum relative error      3.0908050555322400E-004
 Least squares error         6.3105484777010811E-005
 
 Grid 1 area     5.5408316793620020    
 Grid 2 area     5.5408316793619878    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ar9v4_100920_bilinear_test26.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_bilinear_test26.nc -m bilinear  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_bilinear_test26.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_bilinear_test26.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2703257423673397          Grid 2 max:    2.9201992314=
369911    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99872570461984922    
 
 Mean relative error         1.3394951567904161E-004
 Maximum relative error      9.2581498202157100E-004
 Least squares error         8.3368157242846082E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_patch_test27.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_patch_test27.nc -m patch  --dst_regional=
  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_patch_test27.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_patch_test27.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2700121597223741          Grid 2 max:    2.9202273174=
271727    
 
 Maximum negative weight    -6.2540089210556149E-002
 Maximum positive weight    0.70435907483241200    
 
 Mean relative error         1.3173523889149725E-004
 Maximum relative error      6.6103353672108023E-004
 Least squares error         7.8064944040824304E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve_test28.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_conserve_test28.nc -m conserve  --dst_re=
gional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve_test28.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_conserve_test28.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2491180122290928          Grid 2 max:    2.9299407062=
126144    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         5.1422713889145910E-003
 Maximum relative error      2.9606974086507792E-002
 Least squares error         3.0263915044839306E-003
 
 Grid 1 area     4.1018856117112836    
 Grid 2 area     4.1018856117116274    
 Conservation error     3.4372504842394846E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve2nd_test29.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.=
nc -w T42_grid_to_ar9v4_100920_conserve2nd_test29.nc -m conserve2nd  --=
dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ar9v4_100920_conserve2nd_test29.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.2464275018998059          Grid 2 max:    2.9328316034=
035238    
 
 Maximum negative weight   -0.17883944347109665    
 Maximum positive weight     1.0005937408936014    
 
 Mean relative error         4.9611395280694897E-004
 Maximum relative error      2.4539565317318272E-002
 Least squares error         6.0449696940234664E-004
 
 Grid 1 area     4.1018856117112836    
 Grid 2 area     4.1018856117111611    
 Conservation error     1.2256862191861728E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ar9v4_100920_to_T42_grid_bilinear_test30.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_bilinear_test30.nc -m bilinear  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_bilinear_test30.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_bilinear_test30.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2811467481781360          Grid 2 max:    2.9030771043=
937893    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.97069562984918856    
 
 Mean relative error         1.1370584188084108E-007
 Maximum relative error      6.6594387613438440E-007
 Least squares error         7.0800770054424182E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_patch_test31.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_patch_test31.nc -m patch  --src_regional=
 -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_patch_test31.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_patch_test31.nc - ESMF Offline Regridding Wei=
ght Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2811467351719621          Grid 2 max:    2.9030771575=
279171    
 
 Maximum negative weight    -4.6372575695870270E-002
 Maximum positive weight    0.58401374175767296    
 
 Mean relative error         9.0797951255136989E-008
 Maximum relative error      4.9922437218925768E-007
 Least squares error         6.2180756095066909E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_conserve_test32.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.=
nc -w ar9v4_100920_to_T42_grid_conserve_test32.nc -m conserve  --src_re=
gional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_conserve_test32.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_T42_grid_conserve_test32.nc - ESMF Offline Regridding =
Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.3296536947647677          Grid 2 max:    2.9025590263=
106453    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.2151017517006469E-003
 
 Mean relative error         1.1998198659356756E-004
 Maximum relative error      1.1084381276231503E-003
 Least squares error         7.3028406048986595E-005
 
 Grid 1 area     4.1019920664849998    
 Grid 2 area     4.1019920664849217    
 Conservation error     7.8159700933611020E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_bilinear_test33.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_bilinear_test33.nc -m bilinear  =
-r -i --64bit_offset  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_bilinear_test33.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4089644815987663          Grid 2 max:    2.8807649520=
770275    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99824720937746014    
 
 Mean relative error         2.8571480438867563E-006
 Maximum relative error      1.1997232002712688E-005
 Least squares error         1.5552835563231448E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_patch_test34.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_patch_test34.nc -m patch  -r -i =
--netcdf4  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_patch_test34.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_patch_test34.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4089675425015453          Grid 2 max:    2.8807685722=
465126    
 
 Maximum negative weight    -9.4843121544540471E-002
 Maximum positive weight    0.90937680385522857    
 
 Mean relative error         2.5123668763586519E-006
 Maximum relative error      8.6110688752145300E-006
 Least squares error         1.3633446462307249E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve_test35.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_conserve_test35.nc -m conserve  =
-r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve_test35.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_conserve_test35.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4088365788687174          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         6.3146800262014308E-004
 Maximum relative error      2.7210620439182503E-003
 Least squares error         3.5993920164122790E-004
 
 Grid 1 area     3.2737326943875487    
 Grid 2 area     3.2737326943876330    
 Conservation error     8.4376949871511897E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100=
920.nc -w wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc -m conserv=
e2nd  -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4076516491621116          Grid 2 max:    2.8819521687=
264174    
 
 Maximum negative weight   -0.30309805044794508    
 Maximum positive weight     1.0000170475085626    
 
 Mean relative error         2.5850149029310287E-005
 Maximum relative error      2.5001141665430379E-003
 Least squares error         4.8324047740492745E-005
 
 Grid 1 area     3.2737326943875487    
 Grid 2 area     3.2737326943875544    
 Conservation error     5.7731597280508140E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_bilinear_test37.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_bilinear_test37.nc -m bilinear  =
-r -i --64bit_offset  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_bilinear_test37.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098643758588638          Grid 2 max:    2.8808050704=
292856    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99229912235069240    
 
 Mean relative error         1.4300140913556688E-007
 Maximum relative error      5.0670984297114177E-007
 Least squares error         7.9012629124112017E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_patch_test38.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_patch_test38.nc -m patch  -r -i =
--netcdf4  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_patch_test38.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_patch_test38.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098644882324194          Grid 2 max:    2.8808053347=
889073    
 
 Maximum negative weight    -6.9438884880716784E-002
 Maximum positive weight    0.89744928897172893    
 
 Mean relative error         1.3346960440957170E-007
 Maximum relative error      3.5941723480111264E-007
 Least squares error         7.1953230266559584E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_conserve_test39.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w ar9v4_100920_to_wr50a_090614_conserve_test39.nc -m conserve  =
-i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_conserve_test39.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_wr50a_090614_conserve_test39.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.4098713210066789          Grid 2 max:    2.8808017655=
996201    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     6.9865670601383295E-002
 
 Mean relative error         4.6103857876181182E-006
 Maximum relative error      9.9774031715568062E-004
 Least squares error         8.3235226301412158E-006
 
 Grid 1 area     3.2737370905810135    
 Grid 2 area     3.2737370905809065    
 Conservation error     1.0702549957386509E-013

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080358    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239305710538E-005
 Maximum relative error      3.5423921218374546E-004
 Least squares error         2.5418777226479929E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc -m patch  -p=
 all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0004140583187933          Grid 2 max:    2.9995861921=
453697    
 
 Maximum negative weight    -4.3093132730389401E-002
 Maximum positive weight    0.62160874159041579    
 
 Mean relative error         2.9595153681206409E-005
 Maximum relative error      2.3468032665852228E-004
 Least squares error         2.2194846802747773E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc -m conser=
ve  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0007720940189109          Grid 2 max:    2.9992279059=
810887    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.93032802678336535    
 
 Mean relative error         3.0620202684084410E-004
 Maximum relative error      1.6029209620308589E-003
 Least squares error         2.0729209485469846E-004
 
 Grid 1 area     25.132741146490989    
 Grid 2 area     25.132741146491057    
 Conservation error     6.7501559897209518E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_0=
50503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc -m con=
serve2nd  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0005313249446095          Grid 2 max:    2.9994686750=
554158    
 
 Maximum negative weight   -0.10189307513594642    
 Maximum positive weight    0.93361484396240157    
 
 Mean relative error         1.4471651998304084E-004
 Maximum relative error      6.9729508758061129E-004
 Least squares error         9.2161234729707230E-005
 
 Grid 1 area     25.132741146490989    
 Grid 2 area     25.132741146491036    
 Conservation error     4.6185277824406512E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335378E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573677E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc -m patch  -p=
 all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0008163242211341          Grid 2 max:    2.9991836757=
787431    
 
 Maximum negative weight    -5.2453953163262568E-002
 Maximum positive weight    0.70481582759008532    
 
 Mean relative error         1.6228071643103166E-004
 Maximum relative error      8.1632422137323214E-004
 Least squares error         1.1412492077025642E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc -m conser=
ve  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
747006    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.5509508215902800E-003
 Maximum relative error      2.0168439180763165E-002
 Least squares error         2.4925207875614508E-003
 
 Grid 1 area     25.132741163862576    
 Grid 2 area     25.132741163862899    
 Conservation error     3.2329694477084558E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc -m con=
serve2nd  -p none  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:   0.99980044833805315          Grid 2 max:    3.0001996637=
999326    
 
 Maximum negative weight   -0.10585450365472351    
 Maximum positive weight     1.0000354739103363    
 
 Mean relative error         4.0258038118924975E-004
 Maximum relative error      2.6450052052758464E-003
 Least squares error         2.5544646506188217E-004
 
 Grid 1 area     25.132741163862576    
 Grid 2 area     25.132741163862455    
 Conservation error     1.2079226507921703E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_tes=
t48.nc -m bilinear  -p all -i   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.=
nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000000000000004          Grid 2 max:    2.9999999999=
999987    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.4277827179838701E-005
 Maximum relative error      9.6936464568289703E-005
 Least squares error         1.0420189393260786E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49=
.nc -m patch  -p all -i   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000261788519795          Grid 2 max:    2.9999738211=
480285    
 
 Maximum negative weight    -5.2741950008508669E-002
 Maximum positive weight    0.66596236446253687    
 
 Mean relative error         1.0743240146780889E-005
 Maximum relative error      6.4191810729427178E-005
 Least squares error         7.4530295796176406E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve_tes=
t50.nc -m conserve  -p none -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.=
nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0000785348911296          Grid 2 max:    2.9999214651=
088670    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.49854345278642803    
 
 Mean relative error         2.2370033311681903E-004
 Maximum relative error      2.3913496459469618E-003
 Least squares error         1.4528010518900518E-004
 
 Grid 1 area     25.132741163821976    
 Grid 2 area     25.132741163821940    
 Conservation error     3.5527136788005009E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_=
test51.nc -m conserve2nd  -p none -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test=
51.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:   0.99995191851706755          Grid 2 max:    3.0000480814=
828392    
 
 Maximum negative weight    -4.1404873409852695E-002
 Maximum positive weight    0.54728401807630767    
 
 Mean relative error         3.5700222874833905E-004
 Maximum relative error      1.7323374312334500E-003
 Least squares error         2.2348320340610082E-004
 
 Grid 1 area     25.132741163821976    
 Grid 2 area     25.132741163822740    
 Conservation error     7.6383344094210770E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_bilinear_test52.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_09061=
4.nc -w ne30np4-t2_to_wr50a_090614_bilinear_test52.nc -m bilinear  --ds=
t_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_wr50a_090614_bilinear_test52.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.4078070725580001          Grid 2 max:    2.8807536356=
835590    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99894209264501699    
 
 Mean relative error         2.2857240227858491E-005
 Maximum relative error      1.3034610711876269E-004
 Least squares error         1.3990871385700670E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_patch_test53.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_09061=
4.nc -w ne30np4-t2_to_wr50a_090614_patch_test53.nc -m patch  --dst_regi=
onal -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_patch_test53.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_wr50a_090614_patch_test53.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.4077881638043797          Grid 2 max:    2.8806577556=
681443    
 
 Maximum negative weight    -7.0802712058223902E-002
 Maximum positive weight    0.62604339534933173    
 
 Mean relative error         1.8492176088181690E-005
 Maximum relative error      8.4237243279657731E-005
 Least squares error         1.0917897390054111E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve_test54.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_10092=
0.nc -w ne30np4-t2_to_ar9v4_100920_conserve_test54.nc -m conserve  --ds=
t_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_ar9v4_100920_conserve_test54.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.2615116263895656          Grid 2 max:    2.9255963916=
782330    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.2109034102557440E-003
 Maximum relative error      1.3132060105454053E-002
 Least squares error         1.3028590754329873E-003
 
 Grid 1 area     4.1019625178992962    
 Grid 2 area     4.1019625178992003    
 Conservation error     9.5923269327613525E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4-t2.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_10092=
0.nc -w ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc -m conserve2nd=
  --dst_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.2598915272411995          Grid 2 max:    2.9263201655=
421720    
 
 Maximum negative weight   -0.21884389977565052    
 Maximum positive weight     1.0001922401604193    
 
 Mean relative error         3.9850058943553617E-004
 Maximum relative error      1.0524808476885467E-002
 Least squares error         2.8606096926348760E-004
 
 Grid 1 area     4.1019625178992962    
 Grid 2 area     4.1019625178991923    
 Conservation error     1.0391687510491465E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_bilinear_test56.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w wr50a_090614_to_ne30np4-t2_bilinear_test56.nc -m bilinear  --sr=
c_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ne30np4-t2_bilinear_test56.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4114134857666032          Grid 2 max:    2.8772456070=
632639    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99611193445448276    
 
 Mean relative error         3.1132168105004037E-006
 Maximum relative error      1.2540906935666507E-005
 Least squares error         1.8291466946400142E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_patch_test57.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w wr50a_090614_to_ne30np4-t2_patch_test57.nc -m patch  --src_regi=
onal -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_patch_test57.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_ne30np4-t2_patch_test57.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4114191674924017          Grid 2 max:    2.8772444873=
336465    
 
 Maximum negative weight    -8.8937867737293994E-002
 Maximum positive weight    0.66400398688413709    
 
 Mean relative error         2.7839477519659460E-006
 Maximum relative error      8.9976173478404172E-006
 Least squares error         1.6108963457877390E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_ne30np4-t2_conserve_test58.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ar9v4_100920.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t=
2.nc -w ar9v4_100920_to_ne30np4-t2_conserve_test58.nc -m conserve  --sr=
c_regional -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ar9v4_100920_to_ne30np4-t2_conserve_test58.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.2692253004076504          Grid 1 max:    2.9212689561=
084089    
 Grid 2 min:    1.2861389689788607          Grid 2 max:    2.9132569891=
198647    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     9.1782952578195506E-002
 
 Mean relative error         2.7377562095863447E-004
 Maximum relative error      1.9485797454945415E-003
 Least squares error         1.6074565146877298E-004
 
 Grid 1 area     4.1019920664849989    
 Grid 2 area     4.1019920664849119    
 Conservation error     8.7041485130612273E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_bilinear_test59.nc -m bilinear  --src_loc corner --dst_loc corner    =
--check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_=
test59.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0011281597298824          Grid 2 max:    2.9987641360=
805384    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.50473712171260843    
 
 Mean relative error         2.0026025856754331E-004
 Maximum relative error      8.9630634429856452E-004
 Least squares error         1.2518081469127743E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_bilinear_test60.nc -m bilinear   --src_loc corner --dst_loc corner  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_=
test60.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0009699279661364          Grid 2 max:    2.9990310320=
243152    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.38191633875290704    
 
 Mean relative error         1.7579552083652985E-004
 Maximum relative error      7.4857024423672215E-004
 Least squares error         1.1345148771463086E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_patch_test61.nc -m patch   --src_loc corner --dst_loc corner    --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_tes=
t61.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc - ESMF O=
ffline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0007664191351133          Grid 2 max:    2.9991509827=
950935    
 
 Maximum negative weight    -8.7239116125593152E-002
 Maximum positive weight    0.50392123408048939    
 
 Mean relative error         1.2268232022935528E-004
 Maximum relative error      5.9619379805876042E-004
 Least squares error         7.8124166255741161E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_patch_test62.nc -m patch  --src_loc corner --dst_loc corner    --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_tes=
t62.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc - ESMF O=
ffline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0007768228489147          Grid 2 max:    2.9992275643=
404742    
 
 Maximum negative weight    -2.9792420601031287E-002
 Maximum positive weight    0.40101053184952573    
 
 Mean relative error         1.3066287713470436E-004
 Maximum relative error      5.5589087118558512E-004
 Least squares error         8.4720224746374006E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_conserve_test63.nc -m conserve  -i      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_=
test63.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0009085993378688          Grid 2 max:    2.9990449685=
787040    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.38191209425119160    
 
 Mean relative error         7.0231678159128803E-004
 Maximum relative error      3.7707384435921223E-003
 Least squares error         4.2834597006489262E-004
 
 Grid 1 area     25.132741228715886    
 Grid 2 area     25.132741228715709    
 Conservation error     1.7763568394002505E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_conserve_test64.nc -m conserve          --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_=
test64.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc - ESM=
F Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0009703413207154          Grid 2 max:    2.9988858616=
192537    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.20000000431993198    
 
 Mean relative error         1.7462455265368124E-004
 Maximum relative error      7.3852448463029928E-004
 Least squares error         1.1330539336195382E-004
 
 Grid 1 area     25.132741228720150    
 Grid 2 area     25.132741228720146    
 Conservation error     3.5527136788005009E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dua=
l_conserve2nd_test65.nc -m conserve2nd  -i      --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2=
nd_test65.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0005971525423090          Grid 2 max:    2.9994043159=
920314    
 
 Maximum negative weight    -5.2302895979323943E-002
 Maximum positive weight    0.43530340586418770    
 
 Mean relative error         6.1257600436670837E-004
 Maximum relative error      4.5043735317753745E-003
 Least squares error         4.0733086883227020E-004
 
 Grid 1 area     25.132741228715886    
 Grid 2 area     25.132741228715833    
 Conservation error     5.3290705182007514E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_1024=
2_conserve2nd_test66.nc -m conserve2nd          --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2=
nd_test66.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0003544947867753          Grid 2 max:    2.9994929939=
864212    
 
 Maximum negative weight    -1.3548292150780329E-002
 Maximum positive weight    0.22183390422914437    
 
 Mean relative error         1.1501710726857487E-004
 Maximum relative error      7.8199491537867915E-004
 Least squares error         7.3922944544840157E-005
 
 Grid 1 area     25.132741228720150    
 Grid 2 area     25.132741228720221    
 Conservation error     7.1054273576010019E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_dual_patch_test67.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242_dual.nc -w T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc -m=
 patch    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0014283670941011          Grid 2 max:    2.9984291734=
808379    
 
 Maximum negative weight    -5.8162135290800943E-002
 Maximum positive weight    0.70434611102594480    
 
 Mean relative error         2.4791441139646909E-004
 Maximum relative error      1.1964451410941658E-003
 Least squares error         1.7295655608570075E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68=
.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0006265050669247          Grid 2 max:    2.9993655076=
212620    
 
 Maximum negative weight    -3.7966505486605392E-002
 Maximum positive weight    0.76948484718886268    
 
 Mean relative error         1.0018764466370500E-004
 Maximum relative error      5.5941940624416094E-004
 Least squares error         7.1352542997220854E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uni=
form_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve=
_test69.nc -m conserve  -i    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test6=
9.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0007223903655242          Grid 2 max:    2.9992876694=
983464    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.3586985616313679E-003
 Maximum relative error      9.9089649267739676E-003
 Least squares error         1.4697463444350656E-003
 
 Grid 1 area     25.132741163864676    
 Grid 2 area     25.132741163864690    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve_tes=
t70.nc -m conserve        --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.=
nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc - ESMF Offli=
ne Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0003540821997574          Grid 2 max:    2.9997863000=
280902    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.8005404692723675E-003
 Maximum relative error      9.1833470932938532E-003
 Least squares error         1.1963445155095571E-003
 
 Grid 1 area     25.132741228720143    
 Grid 2 area     25.132741228720082    
 Conservation error     6.0396132539608516E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uni=
form_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve=
2nd_test71.nc -m conserve2nd  -i    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_te=
st71.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:   0.99979514011332393          Grid 2 max:    3.0002189596=
164137    
 
 Maximum negative weight    -7.4719918620803530E-002
 Maximum positive weight     1.0000138196046424    
 
 Mean relative error         7.2967191849432540E-004
 Maximum relative error      4.9552680488289891E-003
 Least squares error         4.9930859418429168E-004
 
 Grid 1 area     25.132741163864676    
 Grid 2 area     25.132741163864907    
 Conservation error     2.3092638912203256E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_=
test72.nc -m conserve2nd        --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test=
72.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:   0.99987961785205326          Grid 2 max:    3.0000836553=
651826    
 
 Maximum negative weight    -6.2875430739396970E-002
 Maximum positive weight     1.0000038416287966    
 
 Mean relative error         2.9731357703591607E-004
 Maximum relative error      2.8936836883728693E-003
 Least squares error         2.0226450731602677E-004
 
 Grid 1 area     25.132741228720143    
 Grid 2 area     25.132741228720210    
 Conservation error     6.7501559897209518E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_bilinear_test73.nc -m bilinear    --src_loc corner  --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bil=
inear_test73.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc=
 - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0003587162593064          Grid 2 max:    2.9995240749=
406564    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99551188548477842    
 
 Mean relative error         1.3197458555628703E-004
 Maximum relative error      7.8068525778381517E-004
 Least squares error         8.7375151915731591E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_bilinear_test74.nc -m bilinear    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear=
_test74.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc - ES=
MF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0002885106931363          Grid 2 max:    2.9997510833=
963319    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98562177531819473    
 
 Mean relative error         1.0569120322063392E-005
 Maximum relative error      9.4667928509240421E-005
 Least squares error         7.5750544491419034E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_patch_test75.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_pat=
ch_test75.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc - =
ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0005539295715478          Grid 2 max:    2.9994449570=
138206    
 
 Maximum negative weight    -3.8518390425710175E-002
 Maximum positive weight    0.76801340742282564    
 
 Mean relative error         1.2627575971176433E-004
 Maximum relative error      5.6096976260798168E-004
 Least squares error         8.1928550174391714E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_patch_test76.nc -m patch    --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_te=
st76.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0002723451303324          Grid 2 max:    2.9997337190=
686961    
 
 Maximum negative weight    -5.6858267396534698E-002
 Maximum positive weight    0.65460845128776879    
 
 Mean relative error         9.5807626313556728E-006
 Maximum relative error      6.2711804731344214E-005
 Least squares error         6.6069160236499169E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pen=
tagons_100408_conserve_test77.nc -m conserve     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_con=
serve_test77.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc=
 - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301046          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000002    
 
 Mean relative error         3.0856633780707789E-003
 Maximum relative error      1.8408116426323437E-002
 Least squares error         1.9671714224314138E-003
 
 Grid 1 area     25.132741228720146    
 Grid 2 area     25.132741228720434    
 Conservation error     2.8776980798284058E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne60np4_pentagons_100408.nc -d /export/scripts_dir/daily_buil=
ds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inp=
ut/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10=
242_conserve_test78.nc -m conserve     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_1004=
08.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve=
_test78.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc - ES=
MF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0005566193119535          Grid 2 max:    2.9993011798=
476008    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.13289114745696567    
 
 Mean relative error         8.5481276753673530E-005
 Maximum relative error      3.7493683496640459E-004
 Least squares error         5.5175911537771906E-005
 
 Grid 1 area     25.132741163821972    
 Grid 2 area     25.132741163822455    
 Conservation error     4.8316906031686813E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_bilinear_t=
est79.nc -m bilinear  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79=
.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.4078260710674075          Grid 2 max:    2.8802364714=
818132    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99676690947457658    
 
 Mean relative error         8.4816712278229734E-005
 Maximum relative error      3.4838108923085836E-004
 Least squares error         4.9537801680696420E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_patch_test=
80.nc -m patch  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.4080342585141421          Grid 2 max:    2.8803350035=
838555    
 
 Maximum negative weight    -3.8767089443496938E-002
 Maximum positive weight    0.77066928197976181    
 
 Mean relative error         7.3991153168547063E-005
 Maximum relative error      2.2051044462201441E-004
 Least squares error         4.1760948653343427E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_unif=
orm_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_conserve_t=
est81.nc -m conserve  -i --src_regional    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81=
.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4324716155424235          Grid 2 max:    2.8664581772=
404918    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.13412785847808445    
 
 Mean relative error         3.3188314311300581E-004
 Maximum relative error      1.6390681319075383E-003
 Least squares error         1.9671537018039611E-004
 
 Grid 1 area     5.5408316793619994    
 Grid 2 area     5.5408316793619914    
 Conservation error     7.9936057773011271E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242_dual.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_conserve_t=
est82.nc -m conserve  --dst_regional       --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dua=
l.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82=
.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.3947768775705289          Grid 2 max:    2.8891151432=
756823    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.6535139680051250E-003
 Maximum relative error      1.5754890439058825E-002
 Least squares error         1.6292337023121127E-003
 
 Grid 1 area     5.5408007161638997    
 Grid 2 area     5.5408007161638650    
 Conservation error     3.4638958368304884E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ww3a_120213_conserve_test83.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.n=
c -w T42_grid_to_ww3a_120213_conserve_test83.nc -m conserve  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Weight File: T42_grid_to_ww3a_120213_conserve_test83.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_ww3a_120213_conserve_test83.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0043177903077030          Grid 2 max:    2.9973733743=
125406    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.61381699025081071    
 
 Mean relative error         1.0401692492597952E-003
 Maximum relative error      4.9809645290137452E-003
 Least squares error         6.8044026636770538E-004
 
 Grid 1 area     17.551152008903301    
 Grid 2 area     17.551152008903294    
 Conservation error     7.1054273576010019E-015

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ww3a_120213_to_T42_grid_conserve_test84.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ww3a_120213.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.n=
c -w ww3a_120213_to_T42_grid_conserve_test84.nc -m conserve  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ww3a_120213_to_T42_grid_conserve_test84.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ww3a_120213_to_T42_grid_conserve_test84.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0032136634006090          Grid 1 max:    2.9992203821=
030659    
 Grid 2 min:    1.0032136684894020          Grid 2 max:    2.9992203821=
030659    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.3351114506114708E-003
 Maximum relative error      1.1442400378215478E-002
 Least squares error         1.5450893395666568E-003
 
 Grid 1 area     17.551262143557825    
 Grid 2 area     17.551262143557850    
 Conservation error     2.4868995751603507E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne15np4_scrip.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.=
5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc -m =
bilinear  -p all    --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0005139225633701          Grid 1 max:    2.9994860767=
997000    
 Grid 2 min:    1.0006941076112335          Grid 2 max:    2.9993058923=
887661    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.97477713569104840    
 
 Mean relative error         6.2111131743676287E-005
 Maximum relative error      5.0298578803447628E-004
 Least squares error         4.5001298038450227E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne15np4_scrip.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.=
5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc -m =
conserve  -p none   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0005139225633701          Grid 1 max:    2.9994860767=
997000    
 Grid 2 min:    1.0007993776002215          Grid 2 max:    2.9992006223=
997785    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.6434733521317899E-004
 Maximum relative error      1.6433980992000621E-003
 Least squares error         2.3537181116070572E-004
 
 Grid 1 area     25.132741163811851    
 Grid 2 area     25.132741163812184    
 Conservation error     3.3395508580724709E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ARM_30_x8.g_scrip.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRI=
P_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc -m biline=
ar  -p all   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0003788019910109          Grid 2 max:    2.9996211975=
843625    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98403492267559622    
 
 Mean relative error         4.0068296664639296E-005
 Maximum relative error      4.0919728480314410E-004
 Least squares error         3.0341086065913880E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ARM_30_x8.g_scrip.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRI=
P_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc -m conser=
ve  -p none   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0004711803997250          Grid 2 max:    2.9995288190=
720810    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         7.8303800170336250E-004
 Maximum relative error      2.7520856784953706E-003
 Least squares error         5.0499246931837280E-004
 
 Grid 1 area     25.132741768764497    
 Grid 2 area     25.132741768764348    
 Conservation error     1.4921397450962104E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_neareststod_test89.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w wr50a_090614_to_wr50a_090614_neareststod_test89.nc -m nearest=
stod  --src_regional --dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_neareststod_test89.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_wr50a_090614_neareststod_test89.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4077278853648267          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_neareststod_test90.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc -=
w T42_grid_to_T42_grid_neareststod_test90.nc -m neareststod  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_neareststod_test90.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_T42_grid_neareststod_test90.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_nearests=
tod_test91.nc -m neareststod      --src_loc corner --dst_loc corner  --=
check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_neareststod_te=
st91.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301049          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_nearestdtos_test92.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wr50a_090614.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090=
614.nc -w wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc -m nearest=
dtos  --src_regional --dst_regional  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.4077278853648267          Grid 1 max:    2.8808062066=
569420    
 Grid 2 min:    1.4077278853648267          Grid 2 max:    2.8808062066=
569420    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_nearestdtos_test93.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc -=
w T42_grid_to_T42_grid_nearestdtos_test93.nc -m nearestdtos  -i  --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_nearestdtos_test93.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_T42_grid_nearestdtos_test93.nc - ESMF Offline Regridding W=
eight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0005929367551678          Grid 2 max:    2.9994070632=
448326    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpa=
s_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_nearestd=
tos_test94.nc -m nearestdtos      --src_loc corner --dst_loc corner  --=
check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_te=
st94.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002226373301049          Grid 1 max:    2.9997875328=
209118    
 Grid 2 min:    1.0002226373301049          Grid 2 max:    2.9997875328=
209118    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP=
_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc -m bilinear=
  -p none -i   --src_missingvalue so  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002284908917738          Grid 2 max:    2.9997715086=
835397    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99680832383063989    
 
 Mean relative error         2.7309284630409650E-006
 Maximum relative error      3.5485727970346936E-005
 Least squares error         2.4235762337495624E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP=
_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc -m conserve=
    -i --src_missingvalue so  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515882887          Grid 2 max:    2.9997490479=
870059    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99992220268968013    
 
 Mean relative error         5.7138641266402549E-005
 Maximum relative error      9.6686564325284999E-004
 Least squares error         4.5414408765757126E-005
 
 Grid 1 area     18.053469711205111    
 Grid 2 area     18.053469711205256    
 Conservation error     1.4566126083082054E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc -m bilinear  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894296          Grid 2 max:    2.9997715551=
858839    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067310705851669E-009
 Maximum relative error      5.6184475796693228E-008
 Least squares error         7.8633045463436691E-009
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-08
  - Area Conservation  : 10E-16



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc -m conserve  =
   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894023          Grid 2 max:    2.9997715551=
858830    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067310976259840E-009
 Maximum relative error      5.6184472459840344E-008
 Least squares error         7.8633045420140172E-009
 
 Grid 1 area     25.132741163818846    
 Grid 2 area     25.132741163818860    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/so_Omon_GISS-E2.nc -d /export/scripts_dir/daily_builds/extern=
al_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_=
1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc -m conserv=
e2nd     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0002284443894296          Grid 1 max:    2.9997715551=
858839    
 Grid 2 min:    1.0002284443894023          Grid 2 max:    2.9997715551=
858830    
 
 Maximum negative weight    -2.0247314279283951E-015
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2067311231089685E-009
 Maximum relative error      5.6184472459840344E-008
 Least squares error         7.8633045420038726E-009
 
 Grid 1 area     25.132741163818846    
 Grid 2 area     25.132741163818860    
 Conservation error     1.4210854715202004E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.n=
c -m bilinear   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002284908917738          Grid 2 max:    2.9997715086=
835397    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         5.4218502129952670E-005
 Maximum relative error      1.5732878654888108E-002
 Least squares error         3.4723290919403017E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.n=
c -m conserve   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515883156          Grid 2 max:    2.9997490479=
870077    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99992220268967791    
 
 Mean relative error         5.9977385435243067E-005
 Maximum relative error      9.6686304233434522E-004
 Least squares error         4.7435225637414761E-005
 
 Grid 1 area     14.102839583426567    
 Grid 2 area     14.102839583426579    
 Conservation error     1.2434497875801753E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve_t=
est102.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test10=
2.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037641937451421          Grid 2 max:    1.2674095477=
758058    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.1817100638062555E-004
 Maximum relative error      1.2463857845340057E-003
 Least squares error         1.6722631542461649E-004
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539751872E-002
 Conservation error     2.2759572004815709E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_t=
est103.nc -m bilinear    -r -i --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test10=
3.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1040949295672497          Grid 1 max:    1.2678148475=
214770    
 Grid 2 min:    1.1042026257052491          Grid 2 max:    1.2675319751=
838212    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99591105054183515    
 
 Mean relative error         9.0979470250296139E-007
 Maximum relative error      7.3313467229456635E-006
 Least squares error         1.2275487745380830E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_conserve_t=
est104.nc -m conserve    -r     --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test10=
4.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041871683857565          Grid 2 max:    1.2679213311=
012254    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.2969666127430706E-005
 Maximum relative error      2.6018572724500273E-004
 Least squares error         7.9719020209779461E-005
 
 Grid 1 area     4.9476074524512151E-002
 Grid 2 area     4.9476074524515315E-002
 Conservation error     3.1641356201816961E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_t=
est105.nc -m bilinear    -r --dst_loc corner --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test10=
5.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1040951381660200          Grid 2 max:    1.2678149861=
596402    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99823829254021057    
 
 Mean relative error         8.3660389496620093E-008
 Maximum relative error      1.9053202492041687E-007
 Least squares error         7.1326526662334344E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve2n=
d_test106.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_tes=
t106.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037577571380004          Grid 2 max:    1.2674094778=
279075    
 
 Maximum negative weight    -9.3807537075742548E-002
 Maximum positive weight     1.0000016462518759    
 
 Mean relative error         1.1079680668926185E-005
 Maximum relative error      9.9860850983971559E-004
 Least squares error         1.6253679197788220E-005
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539752379E-002
 Conservation error     1.7694179454963432E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_t=
est107.nc -m bilinear    -r -i --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test10=
7.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1042025151207180          Grid 2 max:    1.2675319882=
614913    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99574832179220607    
 
 Mean relative error         7.7595179178742798E-007
 Maximum relative error      8.7101224194488131E-006
 Least squares error         1.1122534491965541E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_t=
est108.nc -m bilinear    -r    --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test10=
8.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041930400206228          Grid 2 max:    1.2677505229=
297097    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.99979777063699515    
 
 Mean relative error         8.3641087992750486E-008
 Maximum relative error      1.9047882022690803E-007
 Least squares error         7.1307896643841468E-008
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4_esmf.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5=
_050503.nc -w ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc -m b=
ilinear  -p all   --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080362    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239323879869E-005
 Maximum relative error      3.5423921220678915E-004
 Least squares error         2.5418777262613209E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4_esmf.nc -w fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc -m b=
ilinear  -p all   --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335357E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573669E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ne30np4dual_esmf.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9=
x2.5_050503.nc -w ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111=
.nc -m bilinear  -p all   --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.=
nc
   Weight File: ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.n=
c
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    2.9999999999=
999987    
 Grid 2 min:    1.0003173769919633          Grid 2 max:    2.9996826230=
080358    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4029239305710538E-005
 Maximum relative error      3.5423921218374546E-004
 Least squares error         2.5418777226479929E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/fv1.9x2.5_050503.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30n=
p4dual_esmf.nc -w fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112=
.nc -m bilinear  -p all   --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.=
nc
   Weight File: fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.n=
c
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0002733713253025          Grid 1 max:    2.9997266286=
746980    
 Grid 2 min:    1.0002733713253025          Grid 2 max:    2.9997266286=
746980    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.6289703910335378E-004
 Maximum relative error      1.1996535010058965E-003
 Least squares error         1.2155788949573677E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne6=
0np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100=
408_conserve_test113.nc -m conserve    --norm_type dstarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve=
_test113.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0002316457600182          Grid 2 max:    2.9996255169=
445423    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000002605    
 
 Mean relative error         3.9930412749466532E-003
 Maximum relative error      1.9847001400026210E-002
 Least squares error         2.5021674970176354E-003
 
 Grid 1 area     25.132741228715876    
 Grid 2 area     25.132741228716458    
 Conservation error     5.8264504332328215E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ne6=
0np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100=
408_conserve_test114.nc -m conserve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons=
_100408.nc
   Weight File: mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve=
_test114.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc - E=
SMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0002316457600195          Grid 2 max:    2.9996255169=
445383    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000002    
 
 Mean relative error         3.9930412749465960E-003
 Maximum relative error      1.9847001400035976E-002
 Least squares error         2.5021674970176384E-003
 
 Grid 1 area     25.132741228715876    
 Grid 2 area     25.132741228716458    
 Conservation error     5.8264504332328215E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_T42_grid_conserve_test115.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/mpas_uniform_10242.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/T42=
_grid.nc -w mpas_uniform_10242_to_T42_grid_conserve_test115.nc -m conse=
rve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: mpas_uniform_10242_to_T42_grid_conserve_test115.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 mpas_uniform_10242_to_T42_grid_conserve_test115.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0002316457600195          Grid 1 max:    2.9996255169=
445383    
 Grid 2 min:    1.0014754650268216          Grid 2 max:    2.9984586288=
289945    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.80095899694569517    
 
 Mean relative error         5.3062722702205316E-004
 Maximum relative error      2.5161336733329821E-003
 Least squares error         3.3421111501551778E-004
 
 Grid 1 area     25.132741228715890    
 Grid 2 area     25.132741228715965    
 Conservation error     7.4606987254810520E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve_test116.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242.nc -w T42_grid_to_mpas_uniform_10242_conserve_test116.nc -m conse=
rve    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve_test116.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_conserve_test116.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:    1.0009490510105956          Grid 2 max:    2.9990267037=
688985    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.8209792383482549E-003
 Maximum relative error      6.9637126088784350E-003
 Least squares error         1.1454775127853582E-003
 
 Grid 1 area     25.132741163875927    
 Grid 2 area     25.132741163875906    
 Conservation error     2.1316282072803006E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID1.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_tes=
t117.nc -m conserve   -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2=
.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.8424495774725367          Grid 1 max:    2.9773270320=
511718    
 Grid 2 min:    2.8594469699826890          Grid 2 max:    2.9773270320=
511718    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area    0.26744889098092639    
 Grid 2 area    0.26744889098092639    
 Conservation error     0.0000000000000000    

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID1.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_tes=
t118.nc -m bilinear   -r --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2=
.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.7429453804815580          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    2.7429453804815580          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.3652863182711287E-004
 Maximum relative error      3.9287576864440159E-003
 Least squares error         4.5458781754768429E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ConcaveQuadUGRID2.nc -d /export/scripts_dir/daily_builds/exte=
rnal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/Conc=
aveQuadUGRID1.nc -w ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_tes=
t119.nc -m conserve   -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1=
.nc
   Weight File: ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119=
.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    2.8533123941364806          Grid 1 max:    2.9773270320=
511718    
 Grid 2 min:    2.8594469699826890          Grid 2 max:    2.9773270320=
511718    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area    0.27718787418641805    
 Grid 2 area    0.27718787418641805    
 Conservation error     0.0000000000000000    

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wam_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3=
D.nc -w wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc -m bilinear   -i=
 --src_loc corner --dst_loc corner -l greatcircle  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Weight File: wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0008115447814405          Grid 1 max:    2.9991884544=
225318    
 Grid 2 min:    1.0008115466731184          Grid 2 max:    2.9991884533=
566111    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98306522538443220    
 
 Mean relative error         1.3831487149091714E-004
 Maximum relative error      7.9507100290357414E-004
 Least squares error         9.5230427230864951E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ipe_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc -m bilinear   -i=
 --src_loc corner --dst_loc corner --line_type greatcircle  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc - ESMF Offline Regriddi=
ng Weight Generator
 
 Grid 1 min:    1.0001694524456735          Grid 1 max:    2.9999883676=
137902    
 Grid 2 min:    1.0010020091088907          Grid 2 max:    2.9986733034=
567559    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98562403423640510    
 
 Mean relative error         4.1383338591143883E-004
 Maximum relative error      3.2112542949449801E-003
 Least squares error         3.1325315634452998E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_bilinear_test122.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_bilinear_test122.nc -m bilinear  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_bilinear_test122.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0013887370969792          Grid 2 max:    2.9986112618=
419214    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.98129231027144892    
 
 Mean relative error         9.7854008146719236E-005
 Maximum relative error      7.2708767938518088E-004
 Least squares error         7.0988994428024265E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_patch_test123.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_patch_test123.nc -m patch  --tilef=
ile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_patch_test123.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_patch_test123.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0018874533622679          Grid 2 max:    2.9981125455=
770248    
 
 Maximum negative weight    -4.4699989157694894E-002
 Maximum positive weight    0.70564624430008727    
 
 Mean relative error         9.1294261799830320E-005
 Maximum relative error      6.3967945147166559E-004
 Least squares error         7.2368904517964552E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve_test124.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_conserve_test124.nc -m conserve  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve_test124.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_conserve_test124.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0016212737876695          Grid 2 max:    2.9983787252=
073890    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         6.1540472324183497E-004
 Maximum relative error      2.5810873881453511E-003
 Least squares error         3.9294421349729346E-004
 
 Grid 1 area     25.132741163814153    
 Grid 2 area     25.132741163814089    
 Conservation error     6.3948846218409017E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc -m conserve=
2nd  --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0013129542190811          Grid 2 max:    2.9986870447=
198859    
 
 Maximum negative weight   -0.12101186579566607    
 Maximum positive weight     1.0000005194093762    
 
 Mean relative error         1.4825353225334740E-004
 Maximum relative error      1.2257925848766856E-003
 Least squares error         1.0276900892619837E-004
 
 Grid 1 area     25.132741163814153    
 Grid 2 area     25.132741163814035    
 Conservation error     1.1723955140041653E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc -m bilinear =
 -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.5448363373415233E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2206209814732897E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc -m bilinear =
 -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5445121139735695E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2205163975130116E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc -m bilinear =
 -p none --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_=
dst_exponent 3.0  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5445121139735709E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2205163975130113E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg=
_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc -m bilin=
ear  -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg=
_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc -m bilin=
ear  -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/UGRID_1D_LocStream.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGR=
ID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestd=
tos_test131.nc -m nearestdtos  --src_loc corner --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_te=
st131.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc - ESMF=
 Offline Regridding Weight Generator
 
 Grid 1 min:    2.3162454233730210          Grid 1 max:    2.3420404733=
724305    
 Grid 2 min:    2.3162454233730210          Grid 2 max:    2.3420404733=
724305    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/UGRID_1D_LocStream.nc -d /export/scripts_dir/daily_builds/ext=
ernal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGR=
ID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearests=
tod_test132.nc -m neareststod  --src_loc corner --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_te=
st132.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc - ESMF=
 Offline Regridding Weight Generator
 
 Grid 1 min:    2.3162454233730210          Grid 1 max:    2.3420404733=
724305    
 Grid 2 min:    2.3162454233730210          Grid 2 max:    2.3420404733=
724305    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc -m bil=
inear  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3162384474134021          Grid 2 max:    2.3420433842=
147492    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.30560087489904852    
 
 Mean relative error         3.6486801501522839E-006
 Maximum relative error      7.8107750742917061E-006
 Least squares error         1.8301180922915784E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc -m =
neareststod  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc - ESMF Offline =
Regridding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3067978976287553          Grid 2 max:    2.3447459208=
363126    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.5568061230662538E-003
 Maximum relative error      4.0788103233498239E-003
 Least squares error         1.1938483407102185E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc -=
m nearestdtos  -r --src_coordinates xc,yc --dst_coordinates xc,yc --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5059098210481028          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc -=
m neareststod  -r --src_coordinates xc,yc --dst_coordinates xc,yc --che=
ck

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc - ESMF Offline=
 Regridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5059098210481028          Grid 2 max:    3.0000000000=
000000    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc -m b=
ilinear  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5238648110761068          Grid 2 max:    2.9736273634=
088168    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         4.7543904334779839E-010
 Maximum relative error      2.4150457368935281E-009
 Least squares error         2.8069949164904129E-010
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-10
  - Max  Relative Error: 10E-9
  - Area Conservation  : 10E-10



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/WRFG_CF_CART2D.nc -d /export/scripts_dir/daily_builds/externa=
l_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF=
_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc -m patc=
h  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.5059098210481028          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.5274718953636510          Grid 2 max:    2.9868572114=
205145    
 
 Maximum negative weight    -5.3744154587580230E-006
 Maximum positive weight    0.25226019268560956    
 
 Mean relative error         5.0008510021269637E-004
 Maximum relative error      4.4490580632587694E-003
 Least squares error         3.2842282259198317E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-4



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_bilinear_test139.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/latlon_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.=
nc -w latlon_grid_to_SCRIP_1x1_bilinear_test139.nc -m bilinear   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 latlon_grid_to_SCRIP_1x1_bilinear_test139.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0012560718067114          Grid 1 max:    2.9987439271=
320953    
 Grid 2 min:    1.0012560737170322          Grid 2 max:    2.9987439258=
585482    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.67584788635840454    
 
 Mean relative error         1.3909949506225340E-004
 Maximum relative error      1.1708966440551994E-003
 Least squares error         1.1070864612035868E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-16



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_conserve_test140.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/latlon_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.=
nc -w latlon_grid_to_SCRIP_1x1_conserve_test140.nc -m conserve   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_conserve_test140.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 latlon_grid_to_SCRIP_1x1_conserve_test140.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0012560718067114          Grid 1 max:    2.9987439271=
320953    
 Grid 2 min:    1.0012560718067107          Grid 2 max:    2.9987439271=
320953    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.4176475102320209E-003
 Maximum relative error      1.5676522837397247E-002
 Least squares error         2.3113146354161200E-003
 
 Grid 1 area     25.132741163801036    
 Grid 2 area     25.132741163801171    
 Conservation error     1.3500311979441904E-013

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-2
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_bilinear_test141.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.=
nc -w SCRIP_1x1_to_latlon_grid_bilinear_test141.nc -m bilinear   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_latlon_grid_bilinear_test141.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    1.0014461876266605          Grid 2 max:    2.9985538113=
123349    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.37561120272624959    
 
 Mean relative error         3.1827367062984824E-005
 Maximum relative error      1.8987943974872406E-004
 Least squares error         2.3251344829581411E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-5
  - Max  Relative Error: 10E-4
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_conserve_test142.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.=
nc -w SCRIP_1x1_to_latlon_grid_conserve_test142.nc -m conserve   --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_conserve_test142.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_latlon_grid_conserve_test142.nc - ESMF Offline Regridding=
 Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    1.0017504673884614          Grid 2 max:    2.9982495315=
084052    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.29998096800153939    
 
 Mean relative error         3.1313933166260985E-004
 Maximum relative error      1.1769619679156235E-003
 Least squares error         2.0701941696187236E-004
 
 Grid 1 area     25.132741163819201    
 Grid 2 area     25.132741163819311    
 Conservation error     1.1013412404281553E-013

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_c=
onserve2nd_test143.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/bggd_SCRIP_NCL_BR_INTERPOL.nc -d /export/scripts_dir/daily_bu=
ilds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/i=
nput/icos_ESMF_unstruct_six_corners_INTERPOL.nc -w bggd_SCRIP_NCL_BR_IN=
TERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.n=
c -m conserve2nd  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/bggd_SCRIP_NCL_BR_INTE=
RPOL.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/icos_ESMF_unstruc=
t_six_corners_INTERPOL.nc
   Weight File: bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_co=
rners_INTERPOL_conserve2nd_test143.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_=
conserve2nd_test143.nc - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.0000000000000004          Grid 1 max:    3.0000000000=
000000    
 Grid 2 min:    1.0001735551726760          Grid 2 max:    2.9997675412=
703071    
 
 Maximum negative weight    -8.4456244840079728E-002
 Maximum positive weight    0.87666878628819345    
 
 Mean relative error         2.4500113860675916E-004
 Maximum relative error      6.7708562737445639E-003
 Least squares error         2.4945684083124394E-004
 
 Grid 1 area     19.068548406404588    
 Grid 2 area     19.068548406404673    
 Conservation error     8.5265128291212022E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.ou=
t


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d_20130228.nc -d /export/scripts_dir/daily_builds/=
external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/=
scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1=
140x690_conserve2nd_test144.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.=
nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conser=
ve2nd_test144.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.n=
c - ESMF Offline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1037577571380004          Grid 2 max:    1.2674094778=
279072    
 
 Maximum negative weight    -9.3807537075742548E-002
 Maximum positive weight     1.0000016462518759    
 
 Mean relative error         1.1079680668925797E-005
 Maximum relative error      9.9860850983971559E-004
 Least squares error         1.6253679197788220E-005
 
 Grid 1 area     4.9476057539754148E-002
 Grid 2 area     4.9476057539752379E-002
 Conservation error     1.7694179454963432E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test14=
5.nc -m conserve2nd   --src_missingvalue so --dst_missingvalue so -i  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145=
.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002509515882985          Grid 2 max:    2.9997490479=
870246    
 
 Maximum negative weight    -4.9534314985921327E-002
 Maximum positive weight    0.99992220268967791    
 
 Mean relative error         1.8899531407512995E-005
 Maximum relative error      1.0048198889939567E-003
 Least squares error         2.4416284491458343E-005
 
 Grid 1 area     14.102839583426567    
 Grid 2 area     14.102839583426622    
 Conservation error     5.5067062021407764E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc -=
m patch   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc - ESMF Offline Re=
gridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0003355795984232          Grid 2 max:    2.9996644199=
862486    
 
 Maximum negative weight   -0.10439317844361651    
 Maximum positive weight     1.0007507025011046    
 
 Mean relative error         7.5987093859928404E-005
 Maximum relative error      1.6774269500576391E-002
 Least squares error         3.3312128344408631E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Om=
on_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test14=
7.nc -m neareststod   --src_missingvalue so --dst_missingvalue so -i  -=
-check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.n=
c
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147=
.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc - ESMF Offl=
ine Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0002285837768650          Grid 2 max:    2.9997714157=
984485    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         7.9448929921378964E-003
 Maximum relative error     0.26183952448598574    
 Least squares error         1.1282250917455144E-002
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-01
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test=
148.nc -m patch    -r -i --src_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.n=
c
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.1040949295672497          Grid 1 max:    1.2678148475=
214770    
 Grid 2 min:    1.1042026465281245          Grid 2 max:    1.2675320420=
047116    
 
 Maximum negative weight    -8.1436098425530956E-002
 Maximum positive weight    0.82637326758497398    
 
 Mean relative error         9.1775376050376268E-007
 Maximum relative error      5.0252722956782980E-006
 Least squares error         1.1671978551545557E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_reg=
ional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test=
149.nc -m patch    -r -i --src_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_11=
40x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.n=
c
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1042026065334465          Grid 2 max:    1.2675319872=
252799    
 
 Maximum negative weight   -0.12395848224286986    
 Maximum positive weight    0.77039976301170887    
 
 Mean relative error         7.5650177334016722E-007
 Maximum relative error      5.7865527027764755E-006
 Least squares error         9.7756160206199054E-007
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_gri=
d2d_20130228.nc -w FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_te=
st150.nc -m neareststod  -r -i --src_loc center --dst_loc corner --chec=
k

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_2013=
0228.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test1=
50.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc - ESMF Of=
fline Regridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1041930030111393          Grid 2 max:    1.2677504289=
561952    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         2.8606635668916986E-005
 Maximum relative error      1.4866695668596826E-003
 Least squares error         5.6277028643628780E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_patch_test=
151.nc -m patch    -r    --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.n=
c
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc - ESMF Offlin=
e Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041933881614086          Grid 2 max:    1.2677506290=
793994    
 
 Maximum negative weight    -3.2407333587520307E-002
 Maximum positive weight    0.32924025675464802    
 
 Mean relative error         1.6716402430708585E-007
 Maximum relative error      3.7550974808249279E-007
 Least squares error         1.3671453724668149E-007
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/scrip_regional_1140x690.nc -d /export/scripts_dir/daily_build=
s/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/inpu=
t/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_neareststo=
d_test152.nc -m neareststod    -r --dst_loc center  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x69=
0.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_tes=
t152.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc - ESMF =
Offline Regridding Weight Generator
 
 Grid 1 min:    1.0199345591738922          Grid 1 max:    1.6329052363=
650856    
 Grid 2 min:    1.1041344826670603          Grid 2 max:    1.2679908606=
067594    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.0047219841781502E-004
 Maximum relative error      2.9778625277139271E-004
 Least squares error         9.3834232246408774E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ipe_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc -m neareststo=
d   -i --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0001694524456735          Grid 1 max:    2.9999883676=
137902    
 Grid 2 min:    1.0002735052036527          Grid 2 max:    2.9998919271=
201183    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         8.5114267533632562E-003
 Maximum relative error      4.5522117658876052E-002
 Least squares error         5.8956884525179507E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_neareststod_test154.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosa=
ic.nc -w C48_mosaic_to_latlon_mosaic_neareststod_test154.nc -m nearests=
tod  --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_latlon_mosaic_neareststod_test154.nc - ESMF Offline Regr=
idding Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0006114203163836          Grid 2 max:    2.9993885790=
962960    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         3.7954234240005521E-003
 Maximum relative error      1.6957872319489767E-002
 Least squares error         2.4357725890471978E-003
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc -m bilinear =
 -p none --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0004758892016996          Grid 2 max:    2.9995241107=
983004    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight    0.89997715018436542    
 
 Mean relative error         1.5582863936334233E-004
 Maximum relative error      1.3802938606293481E-003
 Least squares error         1.2266966596685244E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/SCRIP_1x1.nc -d /export/scripts_dir/daily_builds/external_dem=
os/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_Loc=
Stream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc -m patch =
 --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStrea=
m.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc - ESMF Offline Regrid=
ding Weight Generator
 
 Grid 1 min:    1.0002284452388037          Grid 1 max:    2.9997715543=
365087    
 Grid 2 min:    2.3162407753775387          Grid 2 max:    2.3420320558=
690468    
 
 Maximum negative weight    -2.1316343577744666E-002
 Maximum positive weight    0.33152935279914392    
 
 Mean relative error         2.6389000837261425E-006
 Maximum relative error      3.5940896322470741E-006
 Least squares error         1.1643056021891035E-006
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/GRIDSPEC_ACCESS1.nc -d /export/scripts_dir/daily_builds/exter=
nal_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/GRIDS=
PEC_ACCESS1.nc -w GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test=
157.nc -m nearestdtos   --src_missingvalue so --dst_missingvalue so -i =
 --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.=
nc
   Weight File: GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test15=
7.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc - ESMF Off=
line Regridding Weight Generator
 
 Grid 1 min:    1.0001607174717779          Grid 1 max:    2.9998392821=
035065    
 Grid 2 min:    1.0001607174717779          Grid 2 max:    2.9998392821=
035065    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/wam_ugrid3D.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3=
D.nc -w wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc -m nearestdto=
s   --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc - ESMF Offline Regri=
dding Weight Generator
 
 Grid 1 min:    1.0008115447814405          Grid 1 max:    2.9991884544=
225318    
 Grid 2 min:    1.0008115447814405          Grid 2 max:    2.9991884544=
225318    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



C48_mosaic_to_C48_mosaic_nearestdtos_test159.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/C48_mosaic.nc -d /export/scripts_dir/daily_builds/external_de=
mos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.=
nc -w C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc -m nearestdtos  -=
-tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Weight File: C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/

 Completed weight generation successfully.

 C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc - ESMF Offline Regridd=
ing Weight Generator
 
 Grid 1 min:    1.0006114203163836          Grid 1 max:    2.9993885790=
962960    
 Grid 2 min:    1.0006114203163836          Grid 2 max:    2.9993885790=
962960    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/FVCOM_grid2d.nc -d /export/scripts_dir/daily_builds/external_=
demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_gri=
d2d.nc -w FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc -m neares=
tdtos  -r -i --src_loc center --dst_loc center --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc - ESMF Offline Reg=
ridding Weight Generator
 
 Grid 1 min:    1.1041930030111393          Grid 1 max:    1.2677504289=
561952    
 Grid 2 min:    1.1041930030111393          Grid 2 max:    1.2677504289=
561952    
 
 Maximum negative weight     0.0000000000000000    
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         0.0000000000000000    
 Maximum relative error      0.0000000000000000    
 Least squares error         0.0000000000000000    
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test161.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll1deg_grid.nc -d /export/scripts_dir/daily_builds/external_d=
emos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_g=
rid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc -m patch  -l gr=
eatcircle   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none

 Completed weight generation successfully.

 ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0000761524206250          Grid 1 max:    2.9999238475=
793755    
 Grid 2 min:    1.0006280745185316          Grid 2 max:    2.9993719193=
475057    
 
 Maximum negative weight    -5.8731841620398829E-002
 Maximum positive weight    0.52992353007301263    
 
 Mean relative error         2.4802280017151448E-005
 Maximum relative error      1.5211292794950135E-004
 Least squares error         1.8509706071779025E-005
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/T42_grid.nc -d /export/scripts_dir/daily_builds/external_demo=
s/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_=
10242.nc -w T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc -m co=
nserve2nd    --norm_type fracarea  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/mpas_uniform_1024=
2.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none

 Completed weight generation successfully.

 T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc - ESMF Offline R=
egridding Weight Generator
 
 Grid 1 min:    1.0005929367551678          Grid 1 max:    2.9994070632=
448326    
 Grid 2 min:   0.99983450152820852          Grid 2 max:    2.9998346802=
467979    
 
 Maximum negative weight    -5.9209702422542747E-002
 Maximum positive weight     1.0000023196477925    
 
 Mean relative error         3.8729980807208220E-004
 Maximum relative error      3.5374017109129140E-003
 Least squares error         2.7344395649900701E-004
 
 Grid 1 area     25.132741163875927    
 Grid 2 area     25.132741163875874    
 Conservation error     5.3290705182007514E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test163.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc -m patch  -p no=
ne --extrap_method neareststod   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473957    
 
 Maximum negative weight    -6.6825024090604382E-002
 Maximum positive weight     1.0000000000000000    
 
 Mean relative error         1.5501198156396689E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1565865982918863E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test164.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc -m patch  -p no=
ne --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_dst_ex=
ponent 3.0  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.00000000   

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473957    
 
 Maximum negative weight    -6.6825024090604382E-002
 Maximum positive weight    0.69615092203641293    
 
 Mean relative error         1.5497955922717154E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1564762235055775E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test165.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_RegridWeightGen -s /export/scripts_dir/dai=
ly_builds/external_demos/gfortran/external_demos/ESMF_RegridWeightGenCh=
eck/input/ll2.5deg_grid.nc -d /export/scripts_dir/daily_builds/external=
_demos/gfortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_g=
rid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc -m patch  -p no=
ne --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2

 Completed weight generation successfully.

 ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc - ESMF Offline Regriddin=
g Weight Generator
 
 Grid 1 min:    1.0004758892016996          Grid 1 max:    2.9995241107=
983004    
 Grid 2 min:    1.0010272373524889          Grid 2 max:    2.9989727626=
473957    
 
 Maximum negative weight    -6.6825024090604007E-002
 Maximum positive weight    0.69621778026161729    
 
 Mean relative error         1.5640398239840256E-004
 Maximum relative error      9.5101251020568303E-004
 Least squares error         1.1632950605771505E-004
 
 Grid 1 area  0.000000000000000
 Grid 2 area  0.000000000000000
 Conservation error  0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



The following is the output of 'gmake run'

perl ./RegridWeightGenCheckDriver.pl > RegridWeightGenCheck.Log




Fri Oct  4 08:49:38 MDT 2019 run ESMF_RegridCheck dryrun ..............=
.PASSED


Fri Oct  4 08:54:08 MDT 2019 run ESMF_RegridCheck (16 PETS)............=
.PASSED


Special wgettar files:

ESMF_MPIRUN: mpirun

ESMF_TOOLRUN:

NUM_PROCS: 4

Tests to be run:
BT42_ugrid_to_BT42_ugrid_dual_bilinear
BT42_ugrid_to_BT42_ugrid_dual_patch
BT42_ugrid_to_GRIDSPEC_2.5_bilinear
BT42_ugrid_to_GRIDSPEC_2.5_conserve
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd
C48_mosaic_to_GRIDSPEC_1x1_time_conserve
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear

Test or Dryrun Results:
BT42_ugrid_to_BT42_ugrid_dual_bilinear.out - PASSED
BT42_ugrid_to_BT42_ugrid_dual_patch.out - PASSED
BT42_ugrid_to_GRIDSPEC_2.5_bilinear.out - PASSED
BT42_ugrid_to_GRIDSPEC_2.5_conserve.out - PASSED
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch.out - PASSED
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod.out - PASSED
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve.out - PASSED
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear.out - PASSED
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch.out - PASSED
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear.out - PASSED
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod.out - PASSED
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd.out - PASSED
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd.out - PASSED
C48_mosaic_to_GRIDSPEC_1x1_time_conserve.out - PASSED
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear.out - PASSED


The following tests pass:
BT42_ugrid_to_BT42_ugrid_dual_bilinear
BT42_ugrid_to_BT42_ugrid_dual_patch
BT42_ugrid_to_GRIDSPEC_2.5_bilinear
BT42_ugrid_to_GRIDSPEC_2.5_conserve
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch
GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod
GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve
FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear
FVCOM_grid2d_test_to_ADCIRC_grid2d_patch
ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear
ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd
GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_bilinear
C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd
C48_mosaic_to_GRIDSPEC_1x1_time_conserve
GRIDSPEC_1x1_time_to_C48_mosaic_bilinear

Found 19 external tests, 19 pass and 0 fail.

 The following are the output files of the external tests.



----------------------------------------------------------



BT42_ugrid_to_BT42_ugrid_dual_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc  -m bilinear --src_=
var nodedata --dst_var nodedata  --dst_loc corner  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc
   Source variable names: nodedata
   Destination variable names: nodedata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name mesh
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            nodedata
 
 Value min:    1.0023919096530998          Value max:    3.997608090346=
8993    
 Mean relative error         2.8067638164245364E-004
 Maximum relative error      1.7939074934945195E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



BT42_ugrid_to_BT42_ugrid_dual_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc  -m patch --src_var=
 nodedata --dst_var nodedata1   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/BT42_ugrid_dual.nc
   Source variable names: nodedata
   Destination variable names: nodedata1
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name mesh
   Destination Grid is a global grid
   Regrid Method: patch
   Pole option: ALL

 
 Variable Name            nodedata1
 
 Value min:    1.8751444659767824          Value max:    3.998802470618=
3314    
 Mean relative error         1.6474543502079892E-004
 Maximum relative error      4.4639803891292581E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04


----------------------------------------------------------



BT42_ugrid_to_GRIDSPEC_2.5_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc  -m bilinear --src_var=
 nodedata --dst_var nodedata   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc
   Source variable names: nodedata
   Destination variable names: nodedata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            nodedata
 
 Value min:    1.0022649656994369          Value max:    3.997735033240=
3070    
 Mean relative error         1.6269674760722210E-004
 Maximum relative error      1.5775167675972802E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



BT42_ugrid_to_GRIDSPEC_2.5_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/BT42_ugr=
id.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc  -m conserve --src_var=
 elmtdata --dst_var elmtdata   --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/BT42_ugrid.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5.nc
   Source variable names: elmtdata
   Destination variable names: elmtdata
   Source File is in UGRID format with mesh name mesh
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: conservative
   Pole option: NONE

 
 Variable Name            elmtdata
 
 Value min:    1.0026985909826793          Value max:    3.997301407975=
2955    
 Mean relative error         7.8377542233516501E-004
 Maximum relative error      4.1281067930918139E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc  -m patch =
--src_var so --dst_var so  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0015792639714034          Value max:    13.99842071388=
0533    
 Mean relative error         8.6595176537221365E-006
 Maximum relative error      1.5183578862630823E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1x1_time_to_GRIDSPEC_2.5_time_neareststod.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc  -m neares=
tstod --src_var so --dst_var so  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0020547587806448          Value max:    13.99794524121=
9355    
 Mean relative error         7.1785038341433676E-004
 Maximum relative error      5.4422423963820009E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_2.5_time_to_GRIDSPEC_1x1_time_nearestdtos.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_2.5_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m neares=
tdtos --src_var so --dst_var so1  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_2.5_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: so
   Destination variable names: so1
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            so1
 
 Value min:    1.0020547587806448          Value max:    13.99794524121=
9355    
 Mean relative error         1.7516227596347213E-009
 Maximum relative error      1.9142184809378590E-008
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-08


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m patch =
--src_var zeta --dst_var zeta  -i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: zeta
   Destination variable names: zeta
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Destination Grid has a mask, using missing value   -999.000000000000=
00    
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            zeta
 
 Value min:    1.1042026281356812          Value max:    1.267532110214=
2334    
 Mean relative error         9.2988602832134875E-007
 Maximum relative error      5.0433009625879547E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m conser=
ve --src_var ua,va --dst_var ua,va  -i -r --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: ua,va
   Destination variable names: ua,va
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Destination Grid has a mask, using missing value   -999.000000000000=
00    
   Regrid Method: conservative
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            ua
 
 Value min:    1.1042643785476685          Value max:    1.267504334449=
7681    
 Mean relative error         1.1735919555742746E-004
 Maximum relative error      1.2464727676685396E-003
 
 
 Variable Name            va
 
 Value min:    1.1042643785476685          Value max:    1.267504334449=
7681    
 Mean relative error         1.1735919555742746E-004
 Maximum relative error      1.2464727676685396E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



FVCOM_grid2d_test_to_GRIDSPEC_1140x690_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc  -m biline=
ar --src_var ua,va --dst_var ua,va  -i -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Source variable names: ua,va
   Destination variable names: ua,va
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a regional grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a regional grid
   Destination Grid has a mask, using missing value   -999.000000000000=
00    
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            ua
 
 Value min:    1.1042026281356812          Value max:    1.267531991004=
9438    
 Mean relative error         7.8968878393376309E-007
 Maximum relative error      8.7499938016077308E-006
 
 
 Variable Name            va
 
 Value min:    1.1042026281356812          Value max:    1.267531991004=
9438    
 Mean relative error         7.8968878393376309E-007
 Maximum relative error      8.7499938016077308E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06


----------------------------------------------------------



FVCOM_grid2d_test_to_ADCIRC_grid2d_patch.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/FVCOM_gr=
id2d_test.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc  -m patch --sr=
c_var zeta --dst_var zeta  --dst_loc corner -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Source variable names: zeta
   Destination variable names: zeta
   Souce Grid has a mask, using missingvalue   -999.00000000000000    =

   Source File is in UGRID format with mesh name fvcom_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name adcirc_mesh
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value   -999.000000000000=
00    
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            zeta
 
 Value min:    1.1041538715362549          Value max:    1.267814874649=
0479    
 Mean relative error         6.5311419775785823E-008
 Maximum relative error      4.5498045445955654E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-06


----------------------------------------------------------



ADCIRC_grid2d_to_FVCOM_grid2d_test_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/ADCIRC_g=
rid2d.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/ex=
ternal_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m bilinear -=
-src_var pressure --dst_var pressure  -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: pressure
   Destination variable names: pressure
   Souce Grid has a mask, using missingvalue   -99999.000000000000    =

   Source File is in UGRID format with mesh name adcirc_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value   -99999.0000000000=
00    
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            pressure
 
 Value min:    1.1041931575337318          Value max:    1.267750495359=
7976    
 Mean relative error         6.1157485954513880E-008
 Maximum relative error      6.6411095253992536E-006
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-06


----------------------------------------------------------



ADCIRC_grid2d_to_FVCOM_grid2d_test_neareststod.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/ADCIRC_g=
rid2d.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/ex=
ternal_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m neareststo=
d --src_var pressure --dst_var pressure1  --dst_loc corner -i  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/ADCIRC_grid2d.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: pressure
   Destination variable names: pressure1
   Souce Grid has a mask, using missingvalue   -99999.000000000000    =

   Source File is in UGRID format with mesh name adcirc_mesh
   Source Grid is a global grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value   -99999.0000000000=
00    
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points

 
 Variable Name            pressure1
 
 Value min:    1.1040949821472168          Value max:    1.267814874649=
0479    
 Mean relative error         8.2620104946528125E-008
 Maximum relative error      1.6191460025814281E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1140x690_to_FVCOM_grid2d_test_conserve2nd.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1140x690.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m conser=
ve2nd --src_var so --dst_var so  -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: so
   Destination variable names: so
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a regional grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a regional grid
   Regrid Method: 2nd order conservative
   Pole option: NONE

 
 Variable Name            so
 
 Value min:    1.1041266874538314          Value max:    1.267965453679=
0275    
 Mean relative error         4.6835925461346801E-006
 Maximum relative error      2.3751400448675250E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04


----------------------------------------------------------



GRIDSPEC_1140x690_to_FVCOM_grid2d_test_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1140x690.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc  -m biline=
ar --src_var so --dst_var so1  --dst_loc corner -r  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1140x690.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/FVCOM_grid2d_test.nc
   Source variable names: so
   Destination variable names: so1
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a regional grid
   Destination File is in UGRID format with mesh name fvcom_mesh
   Destination Grid is a regional grid
   Regrid Method: bilinear
   Pole option: NONE

 
 Variable Name            so1
 
 Value min:    1.1040951411677011          Value max:    1.267814986075=
5017    
 Mean relative error         8.7349906486091312E-008
 Maximum relative error      1.9421354484462889E-007
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m bilinear --sr=
c_var area_land --dst_var area_land  --srcdatafile mosaictest --tilefil=
e_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: area_land
   Destination variable names: area_land
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: bilinear
   Pole option: ALL

 
 Variable Name            area_land
 
 Value min:    1.0006881952285767          Value max:    2.999311923980=
7129    
 Mean relative error         1.0485143151861544E-004
 Maximum relative error      8.7008138869207948E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_conserve2nd.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m conserve2nd -=
-src_var evap_land --dst_var evap_land  --srcdatafile mosaictest --tile=
file_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: evap_land
   Destination variable names: evap_land
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: 2nd order conservative
   Pole option: NONE

 
 Variable Name            evap_land
 
 Value min:   0.99984735250473022          Value max:    14.00015258789=
0625    
 Mean relative error         4.2834424391730671E-005
 Maximum relative error      1.5236834409609469E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03


----------------------------------------------------------



C48_mosaic_to_GRIDSPEC_1x1_time_conserve.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/C48_mosa=
ic.nc -d /export/scripts_dir/daily_builds/external_demos/gfortran/exter=
nal_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc  -m conserve --sr=
c_var area_land,evap_land --dst_var var2d,var3d  --srcdatafile mosaicte=
st --tilefile_path ./input/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Source variable names: area_land,evap_land
   Destination variable names: var2d,var3d
   Source File is in GRIDSPEC MOSAIC format
   Source Grid is a global grid
   Destination File is in GRIDSPEC format with coordinate names lon lat
   Destination Grid is a global grid
   Regrid Method: conservative
   Pole option: NONE

 
 Variable Name            var2d
 
 Value min:    1.0006114244461060          Value max:    2.999388694763=
1836    
 Mean relative error         1.8126691836533506E-003
 Maximum relative error      8.1195373620226163E-003
 
 
 Variable Name            var3d
 
 Value min:    1.0006114244461060          Value max:    13.99938869476=
3184    
 Mean relative error         6.3581060437060510E-004
 Maximum relative error      8.1195373620226163E-003
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03


----------------------------------------------------------



GRIDSPEC_1x1_time_to_C48_mosaic_bilinear.out


mpirun -np 4  /export/scripts_dir/daily_builds/external_demos/gfortran/=
esmf/../install_dir/bin/ESMF_Regrid -s /export/scripts_dir/daily_builds=
/external_demos/gfortran/external_demos/ESMF_RegridCheck/input/GRIDSPEC=
_1x1_time.nc -d /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc  -m bilinear --sr=
c_var so --dst_var so  -i --dstdatafile mosaictest --tilefile_path ./in=
put/  --check

 Starting weight generation with these inputs:
   Source File: /export/scripts_dir/daily_builds/external_demos/gfortra=
n/external_demos/ESMF_RegridCheck/input/GRIDSPEC_1x1_time.nc
   Destination File: /export/scripts_dir/daily_builds/external_demos/gf=
ortran/external_demos/ESMF_RegridCheck/input/C48_mosaic.nc
   Source variable names: so
   Destination variable names: so
   Souce Grid has a mask, using missingvalue    1.0000000000000000E+020
   Source File is in GRIDSPEC format with coordinate names lon lat
   Source Grid is a global grid
   Destination File is in GRIDSPEC MOSAIC format
   Destination Grid is a global grid
   Destination Grid has a mask, using missing value    1.00000000000000=
00E+020
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points

 
 Variable Name            so
 
 Value min:    1.0007816069011390          Value max:    13.99921839309=
8861    
 Mean relative error         9.3439317720890122E-006
 Maximum relative error      2.0743945609521890E-004
 
 Completed file regrid successfully.


Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04


----------------------------------------------------------



The following is the output of 'gmake run'

perl ./RegridCheckDriver.pl > RegridCheck.Log







 The tarballs of the examples directories can be found at:
 /export/scripts_dir/daily_builds/external_demos/gfortran/esmf_logs/191=
0_test.
 These tarballs contain the *Log and *stdout files only, not the execut=
ables.
 This directory also contains failed build output files with the naming=
 convention of
 build_ESMF_BOPT_(day)(platform)ESMF_OS ESMF_ABI ESMF_COMPILER ESMF_COM=
M.
 For example, if the build fails on longs on the 19th of the month with=
 ESMF_BOPTg, the file
 would be called 'build_g_19longslinux32pgimpiuni'.
Test_results:green
Day_of_Week:Friday
Test_Failures:0