added support for Marc/Mentat2013.1

This commit is contained in:
Franz Roters 2013-12-19 13:37:35 +00:00
parent 61c6839723
commit 543639bb8f
38 changed files with 38173 additions and 6 deletions

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@ -8,7 +8,7 @@ bin_link = { \
],
}
MarcReleases =[2011,2012,2013]
MarcReleases =[2011,2012,2013,2013.1]
damaskEnv = damask.Environment('../../') # script location relative to root
baseDir = damaskEnv.relPath('code/')

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTRAN $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTHIGH $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTHIGHMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTLOW $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTRANLOWMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,52 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTRANMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -0,0 +1,41 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user.f on host `hostname`"
echo "program: $program"
$FORTRAN $user.f || \
{
echo "$0: compile failed for $user.f"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$user.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$SYSLIBS || \
{
echo "$0: link failed for $user.o on host `hostname`"
exit 1
}
/bin/rm $userobj

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@ -0,0 +1,726 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
MPI_DEFAULT=intelmpi
MPI_OTHER=hpmpi
MPITYPE=$MPI_DEFAULT
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
#BCSGPUSOLVER=NONE
BCSGPUSOLVER=BCSGPU
SOLVERFLAGS=
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU -DCUDA"
BCS_DIR=bcsgpusolver
export PATH=$MARC_CUDA/bin:$MARC_CUDA/nvvm:$PATH
export LD_LIBRARY_PATH=$MARC_CUDA/lib64:$LD_LIBRARY_PATH
else
BCS_DIR=bcssolver
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T,y1"
# Below line is moved in run_marc file
# export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
INTELMPI_VERSION=HYDRA
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -genvall -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra -genvall"
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
MARCCODECOV=
#MARCCODECOV="ON"
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS="-real-size 64 -integer-size 32"
I8DEFINES="-DFLOAT=8 -DINT=4"
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8 -real-size 64 -integer-size 64"
I8DEFINES="-DI64 -DFLOAT=8 -DINT=8"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
MTHREAD=OPENMP
if test "$MARC_OPENMP" = "NONE" ; then
MTHREAD=NONE
fi
#MTHREAD=NONE
if test "$_OEM_NASTRAN" -ne 0
then
MTHREAD=NONE
fi
OMP_COMPAT=NO
OMP_COMPAT=YES
if test "$MTHREAD" = "NONE"
then
OMP_COMPAT=NO
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DMKL -DOPENMP"
fi
if test "$OMP_COMPAT" = "YES"
then
FDEFINES="$FDEFINES -DOMP_COMPAT"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource $METIS"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
if test "$MARCCODECOV" = "ON"
then
PROFILE="-prof-gen=srcpos"
fi
FORT_OPT="-c -assume byterecl -safe_cray_ptr -mp1 -WB"
if test "$MTHREAD" = "OPENMP"
then
FORT_OPT=" $FORT_OPT -openmp"
if test "$OMP_COMPAT" = "YES"
then
FORT_OPT=" $FORT_OPT -openmp-threadprivate=compat"
fi
else
# FORT_OPT=" $FORT_OPT -auto "
FORT_OPT=" $FORT_OPT -save -zero"
fi
FORTLOW="$FCOMP $FORT_OPT $PROFILE -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP $FORT_OPT $PROFILE -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP $FORT_OPT -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3
DFORTLOW="$FCOMP $FORT_OPT $PROFILE -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP $FORT_OPT $PROFILE -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias -O2 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB -fno-alias -O2 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP $FORT_OPT -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3
DFORTLOW="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2013.1 \
-openmp -openmp_report2 -openmp-threadprivate=compat\
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -fpp $FORT_OPT $PROFILE -fno-alias -O1 -fp-model precise $FDEFINES -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_20 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_cuda/include -I${MARC_CUDA}/include -I$MARC_SOURCE/mdsrc $I8DEFINES -Xcompiler -fvisibility=hidden -Xcompiler -fPIC $I8DEFINES "
NVCCLIB="ar rvl"
NVCCLD=icc
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2=" -lmkl_blacs_intelmpi_lp64"
else
MUMPSSOLVERLIBS2=" -lmkl_blacs_intelmpi_ilp64"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2=" -lmkl_blacs_lp64"
else
MUMPSSOLVERLIBS2=" -lmkl_blacs_ilp64"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a "
MARCCUDALIBS1="-L${MARC_LIB}/cuda_dummy -lmarccuda "
MARCCUDALIBS2="-L${MARC_LIB}/cuda -lmarccuda "
MARCCUDALIBS=$MARCCUDALIBS1
CUDALIBS="-L$MARC_CUDA/lib64 -lcudart -lcublas -L/usr/lib64 -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB="$MARC_MKL/libmkl_blacs_lp64.a -L$MARC_MKL -lmkl_scalapack_lp64 -lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core "
else
MKLLIB="$MARC_MKL/libmkl_blacs_ilp64.a -L$MARC_MKL -lmkl_scalapack_ilp64 -lmkl_intel_ilp64 -lmkl_intel_thread -lmkl_core "
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MF2SOLVERLIBS} -Wl,--start-group $MKLLIB ${MUMPSSOLVERLIBS2} \
-liomp5 -Wl,--end-group \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -threads -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

View File

@ -0,0 +1,679 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
MPI_DEFAULT=intelmpi
MPI_OTHER=hpmpi
MPITYPE=$MPI_DEFAULT
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
#BCSGPUSOLVER=NONE
BCSGPUSOLVER=BCSGPU
SOLVERFLAGS=
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU -DCUDA"
BCS_DIR=bcsgpusolver
export PATH=$MARC_CUDA/bin:$MARC_CUDA/nvvm:$PATH
export LD_LIBRARY_PATH=$MARC_CUDA/lib64:$LD_LIBRARY_PATH
else
BCS_DIR=bcssolver
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T,y1"
# Below line is moved in run_marc file
# export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
INTELMPI_VERSION=HYDRA
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -genvall -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra -genvall"
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
MARCCODECOV=
#MARCCODECOV="ON"
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS=
I8DEFINES=
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8"
I8DEFINES="-DI64"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
MTHREAD=OPENMP
if test "$MARC_OPENMP" = "NONE" ; then
MTHREAD=NONE
fi
#MTHREAD=NONE
if test "$_OEM_NASTRAN" -ne 0
then
MTHREAD=NONE
fi
OMP_COMPAT=NO
OMP_COMPAT=YES
if test "$MTHREAD" = "NONE"
then
OMP_COMPAT=NO
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DMKL -DOPENMP"
fi
if test "$OMP_COMPAT" = "YES"
then
FDEFINES="$FDEFINES -DOMP_COMPAT"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource $METIS"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS "
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
if test "$MARCCODECOV" = "ON"
then
PROFILE="-prof-gen=srcpos"
fi
FORT_OPT="-c -assume byterecl -safe_cray_ptr -mp1 -WB"
if test "$MTHREAD" = "OPENMP"
then
FORT_OPT=" $FORT_OPT -openmp"
if test "$OMP_COMPAT" = "YES"
then
FORT_OPT=" $FORT_OPT -openmp-threadprivate=compat"
fi
else
# FORT_OPT=" $FORT_OPT -auto "
FORT_OPT=" $FORT_OPT -save -zero"
fi
FORTLOW="$FCOMP $FORT_OPT $PROFILE -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP $FORT_OPT $PROFILE -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP $FORT_OPT -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP $FORT_OPT $PROFILE $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP $FORT_OPT $PROFILE -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP $FORT_OPT -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -fpp $FORT_OPT $PROFILE -fno-alias -O1 -fp-model precise $FDEFINES -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_20 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_cuda/include -I${MARC_CUDA}/include -I$MARC_SOURCE/mdsrc $I8DEFINES -Xcompiler -fvisibility=hidden -Xcompiler -fPIC $I8DEFINES "
NVCCLIB="ar rvl"
NVCCLD=icc
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2=" -lmkl_blacs_intelmpi_lp64"
else
MUMPSSOLVERLIBS2=" -lmkl_blacs_intelmpi_ilp64"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2=" -lmkl_blacs_lp64"
else
MUMPSSOLVERLIBS2=" -lmkl_blacs_ilp64"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a "
MARCCUDALIBS1="-L${MARC_LIB}/cuda_dummy -lmarccuda "
MARCCUDALIBS2="-L${MARC_LIB}/cuda -lmarccuda "
MARCCUDALIBS=$MARCCUDALIBS1
CUDALIBS="-L$MARC_CUDA/lib64 -lcudart -lcublas -L/usr/lib64 -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB="$MARC_MKL/libmkl_blacs_lp64.a -L$MARC_MKL -lmkl_scalapack_lp64 -lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core "
else
MKLLIB="$MARC_MKL/libmkl_blacs_ilp64.a -L$MARC_MKL -lmkl_scalapack_ilp64 -lmkl_intel_ilp64 -lmkl_intel_thread -lmkl_core "
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MF2SOLVERLIBS} -Wl,--start-group $MKLLIB ${MUMPSSOLVERLIBS2} \
-liomp5 -Wl,--end-group \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -threads -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

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#!/bin/sh
# This script opens a window running an editor.
# The command to invoke the editor is specified during DAMASK installation
%EDITOR% $*

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#!/bin/sh
# This script opens a window running an editor. The default window is an
# xterm, and the default editor is vi. These may be customized.
dir=
for d in /usr/bin /usr/bin/X11; do
if test -x "$d/xterm"; then
dir="$d"
break
fi
done
if test -z "$dir"; then
echo "$0: Could not find xterm"
exit 1
fi
"$dir/xterm" -T "vi $*" -n "vi $*" -e vi $*

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
if [ "$1" = "" ]; then
echo "usage: $0 job_name"
exit 1
fi
echo STOP > $1.cnt

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#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=/msc/marc2013.1
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_marc" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

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#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_hmp" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

View File

@ -0,0 +1,186 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_mp" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

View File

@ -0,0 +1,186 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_lmp" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

View File

@ -0,0 +1,186 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_h" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

View File

@ -0,0 +1,186 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

View File

@ -0,0 +1,186 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
if test -z "$DIR"; then
REALCOM="`ls -l $0 |awk '{ print $NF; }'`"
DIRSCRIPT=`dirname $REALCOM`
case $DIRSCRIPT in
\/*)
;;
*)
DIRSCRIPT=`pwd`/$DIRSCRIPT
;;
esac
. $DIRSCRIPT/getarch
DIR="$MENTAT_MARCDIR"
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
assem_recov_nthread=$9
shift 9 # cannot use $10, $11, ...
nthread=$1
nsolver=$2
mode=$3
gpu=$4
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$assem_recov_nthread" != "" -a "$assem_recov_nthread" != "1" ]; then
assem_recov_nthread="-nthread_elem $assem_recov_nthread"
else
assem_recov_nthread=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
if [ "$gpu" != "" -a "$gpu" != "-" ]; then
gpu="-gpu $gpu"
else
gpu=""
fi
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_l" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$assem_recov_nthread $nthread $nsolver $mode $gpu > /dev/null 2>&1
sleep 1
exit 0

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#!/bin/bash
DEFAULT_VERSION='2013'
DEFAULT_VERSION='2013.1'
WORKINGDIR=`dirname $0`

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@ -1,16 +1,16 @@
Install MPIE modifications to use DAMASK_marc2010/11/12
Install MPIE modifications to use DAMASK_marc2010/11/12/13
Refer to http://damask.mpie.de for complete installation instructions.
Usually you will need to be root for this to work!
This is for the Linux64 version of Marc/Mentat2010(.2)/11/12/13.
This is for the Linux64 version of Marc/Mentat2010(.2)/11/12/13(.1).
See Marc and Mentat Release Guide for List of Build and Supported Platforms!
The Intel Fortran compiler needs to be installed. The 2010 release of Marc/Mentat relies on Intel Fortran 10.1(_18)! The 2011/2012/2013 release of Marc/Mentat relies on Intel Fortran 12.0! Make sure that ifort (the compiler executable) is in the PATH and that LD_LIBRARY_PATH is set correctly, refer to the Intel installation guide for instructions on how to do this.
The Intel Fortran compiler needs to be installed. The 2010 release of Marc/Mentat relies on Intel Fortran 10.1(_18)! The 2011/2012/2013 releases of Marc/Mentat relies on Intel Fortran 12.0! Make sure that ifort (the compiler executable) is in the PATH and that LD_LIBRARY_PATH is set correctly, refer to the Intel installation guide for instructions on how to do this.
The AMD Core Math Library or an other BLAS implementation (currently IMKL and LAPACK are supported) needs to be installed!
Add acml path to LD_LIBRARY_PATH, to do so either use the script setup_shellrc.py in the installstion folder or for a systemwide setup edit /etc/csh.cshrc.local and/or /etc/bash.bashrc.local.
Add acml path to LD_LIBRARY_PATH, to do so either use the script setup_shellrc.py in the installation folder or for a system wide setup edit /etc/csh.cshrc.local and/or /etc/bash.bashrc.local.
Assuming ACML is installed in path ACMLDIR the path should read: /ACMLDIR/ifort64_mp/lib (this is the version using paralllization, ie openmp):
for bash: LD_LIBRARY_PATH="/ACMLDIR/ifort64_mp/lib:${LD_LIBRARY_PATH}"; export LD_LIBRARY_PATH
for csh: setenv LD_LIBRARY_PATH /ACMLDIR/ifort64_mp/lib:${LD_LIBRARY_PATH}

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@ -0,0 +1,224 @@
! common block definition file taken from respective MSC.Marc release and reformated to free format
!***********************************************************************
!
! File: concom.cmn
!
! MSC.Marc include file
!
integer(pInt) &
iacous, iasmbl, iautth, ibear, icompl, iconj, icreep, ideva, idyn, idynt,&
ielas, ielcma, ielect, iform, ifour, iharm, ihcps, iheat, iheatt, ihresp,&
ijoule, ilem, ilnmom, iloren, inc, incext, incsub, ipass, iplres, ipois,&
ipoist, irpflo, ismall, ismalt, isoil, ispect, ispnow, istore, iswep, ithcrp,&
itherm, iupblg, iupdat, jacflg, jel, jparks, largst, lfond, loadup, loaduq,&
lodcor, lovl, lsub, magnet, ncycle, newtnt, newton, noshr, linear, ivscpl,&
icrpim, iradrt, ipshft, itshr, iangin, iupmdr, iconjf, jincfl, jpermg, jhour,&
isolvr, jritz, jtable, jshell, jdoubl, jform, jcentr, imini, kautth, iautof,&
ibukty, iassum, icnstd, icnstt, kmakmas, imethvp, iradrte, iradrtp, iupdate, iupdatp,&
ncycnt, marmen , idynme, ihavca, ispf, kmini, imixex, largtt, kdoela, iautofg,&
ipshftp, idntrc, ipore, jtablm, jtablc, isnecma, itrnspo, imsdif, jtrnspo, mcnear,&
imech, imecht, ielcmat, ielectt, magnett, imsdift, noplas, jtabls, jactch, jtablth,&
kgmsto , jpzo, ifricsh, iremkin, iremfor, ishearp, jspf, machining, jlshell, icompsol,&
iupblgfo, jcondir, nstcrp, nactive, ipassref, nstspnt, ibeart, icheckmpc, noline, icuring,&
ishrink, ioffsflg, isetoff, ioffsetm,iharmt, inc_incdat, iautspc, ibrake, icbush, istream_input,&
iprsinp, ivlsinp, ifirst_time,ipin_m, jgnstr_glb, imarc_return,iqvcinp, nqvceid, istpnx, imicro1,&
iaxisymm, jbreakglue,iglstif, jfastasm,iwear, iwearcf, imixmeth, ielcmadyn, idinout, igena_meth,&
magf_meth, non_assumed, iredoboudry, ioffsz0,icomplt, mesh_dual, iactrp, mgnewton, iusedens
dimension :: ideva(60)
integer(pInt) num_concom
parameter(num_concom=238)
common/marc_concom/&
iacous, iasmbl, iautth, ibear, icompl, iconj, icreep, ideva, idyn, idynt,&
ielas, ielcma, ielect, iform, ifour, iharm, ihcps, iheat, iheatt, ihresp,&
ijoule, ilem, ilnmom, iloren, inc, incext, incsub, ipass, iplres, ipois,&
ipoist, irpflo, ismall, ismalt, isoil, ispect, ispnow, istore, iswep, ithcrp,&
itherm, iupblg, iupdat, jacflg, jel, jparks, largst, lfond, loadup, loaduq,&
lodcor, lovl, lsub, magnet, ncycle, newtnt, newton, noshr, linear, ivscpl,&
icrpim, iradrt, ipshft, itshr, iangin, iupmdr, iconjf, jincfl, jpermg, jhour,&
isolvr, jritz, jtable, jshell, jdoubl, jform, jcentr, imini, kautth, iautof,&
ibukty, iassum, icnstd, icnstt, kmakmas, imethvp, iradrte, iradrtp, iupdate, iupdatp,&
ncycnt, marmen, idynme, ihavca, ispf, kmini, imixex, largtt, kdoela, iautofg,&
ipshftp, idntrc, ipore, jtablm, jtablc, isnecma, itrnspo, imsdif, jtrnspo, mcnear,&
imech, imecht, ielcmat, ielectt, magnett, imsdift, noplas, jtabls, jactch, jtablth,&
kgmsto , jpzo, ifricsh, iremkin, iremfor, ishearp, jspf, machining, jlshell, icompsol,&
iupblgfo, jcondir, nstcrp, nactive, ipassref, nstspnt, ibeart, icheckmpc, noline, icuring,&
ishrink, ioffsflg, isetoff, ioffsetm,iharmt, inc_incdat, iautspc, ibrake, icbush , istream_input,&
iprsinp, ivlsinp, ifirst_time,ipin_m, jgnstr_glb, imarc_return,iqvcinp, nqvceid, istpnx, imicro1,&
iaxisymm, jbreakglue,iglstif, jfastasm,iwear, iwearcf, imixmeth, ielcmadyn, idinout,igena_meth,&
magf_meth, non_assumed, iredoboudry, ioffsz0,icomplt, mesh_dual, iactrp, mgnewton, iusedens
!
! comments of variables:
!
! ideva(60) - debug print out flag
! 1 print element stiffness matrices, mass matrix
! 2 output matrices used in tying
! 3 force the solution of a nonpositive definite matrix
! 4 print info of connections to each node
! 5 info of gap convergence, internal heat generated, contact
! touching and separation
! 6 nodal value array during rezoning
! 7 tying info in CONRAD GAP option, fluid element numbers in
! CHANNEL option
! 8 output incremental displacements in local coord. system
! 9 latent heat output
! 10 stress-strain in local coord. system
! 11 additional info on interlaminar stress
! 12 output right hand side and solution vector
! 13 info of CPU resources used and memory available on NT
! 14 info of mesh adaption process, 2D outline information
! info of penetration checking for remeshing
! save .fem files after afmesh3d meshing
! 15 surface energy balance flag
! 16 print info regarding pyrolysis
! 17 print info of "streamline topology"
! 18 print mesh data changes after remeshing
! 19 print material flow stress data read in from *.mat file
! if unit flag is on, print out flow stress after conversion
! 20 print information on table input
! 21 print out information regarding kinematic boundary conditions
! 22 print out information regarding dist loads, point loads, film
! and foundations
! 23 print out information about automatic domain decomposition
! 24 print out iteration information in SuperForm status report file
! 25 print out information for ablation
! 26 print out information for films - Table input
! 27 print out the tying forces
! 28 print out for CASI solver, convection,
! 29 DDM single file debug printout
! 30 print out cavity debug info
! 31 print out welding related info
! 32 prints categorized DDM memory usage
! 33 print out the cutting info regarding machining feature
! 34 print out the list of quantities which can be defined via a table
! and for each quantity the supported independent variables
! 35 print out detailed coupling region info
! 36 print out solver debug info level 1 (Least Detailed)
! 37 print out solver debug info level 1 (Medium Detailed)
! 38 print out solver debug info level 1 (Very Detailed)
! 39 print detailed memory allocation info
! 40 print out marc-adams debug info
! 41 output rezone mapping post file for debugging
! 42 output post file after calling oprofos() for debugging
! 43 debug printout for vcct
! 44 debug printout for progressive failure
! 45 print out automatically generated midside node coordinates (arecrd)
! 46 print out message about routine and location, where the ibort is raised (ibort_inc)
! 47 print out summary message of element variables on a
! group-basis after all the automatic changes have been
! made (em_ellibp)
! 48 Automatically generate check results based on max and min vals.
! These vals are stored in the checkr file, which is inserted
! into the *dat file by the generate_check_results script from /marc/tools
! 49 Automatically generate check results based on the real calculated values
! at the sppecified check result locations.
! These vals are stored in the checkr file, which is inserted
! into the *dat file by the update_check_results script from /marc/tools
! 50 generate a file containing the resistance or capacity matrix;
! this file can be used to compare results with a reference file
! 51 print out detailed information for segment-to-segment contact
! 52 print out detailed relative displacement information
! for uniaxial sliding contact
! 53 print out detailed sliding direction information for
! uniaxial sliding contact
! 54 print out detailed information for edges attached to a curve
! 55 print information related to viscoelasticity calculations
! 56 print out detailed information for element coloring for multithreading
! 57 print out extra overheads due to multi-threading.
! These overhead includes (i) time and (ii) memory.
! The memory report will be summed over all the children.
!
!
! irpflo global flag for rigid plastic flow analysis
! = 1 eularian formulation
! = 2 regular formulation; rigid material present in the analysis
!
! jactch = 1 or 2 if elements are activated or deactivated
! = 3 if elements are adaptively remeshed or rezoned
! = 0 normally / reset to 0 when assembly is done
! ifricsh = 0 call to fricsh in otest not needed
! = 1 call to fricsh (nodal friction) in otest needed
! iremkin = 0 remove deactivated kinematic boundary conditions
! immediately - only in new input format (this is default)
! = 1 remove deactivated kinematic boundary conditions
! gradually - only in new input format
! iremfor = 0 remove force boundary conditions immediately -
! only in new input format (this is default)
! = 1 remove force boundary conditions gradually -
! only in new input format (this is default)
! ishearp set to 1 if shear panel elements are present in the model
!
! jspf = 0 not in spf loadcase
! > 0 in spf loadcase (jspf=1 during first increment)
! machining = 1 if the metal cutting feature is used, for memory allocation purpose
! = 0 (default) if no metal cutting feature required
!
! jlshell = 1 if there is a shell element in the mesh
! icompsol = 1 if there is a composite solid element in the mesh
! iupblgfo = 1 if follower force for point loads
! jcondir = 1 if contact priority option is used
! nstcrp = 0 (default) steady state creep flag (undocumented feature.
! if not 0, turns off special ncycle = 0 code in radial.f)
! nactive = number of active passes, if =1 then it's not a coupled analysis
! ipassref = reference ipass, if not in a multiphysics pass ipass=ipassref
! icheckmpc = value of mpc-check parameter option
! noline = set to 1 in osolty if no line seacrh should be done in ogetst
! icuring = set to 1 if the curing is included for the heat transfer analysis.
! ishrink = set to 1 if shrinkage strain is included for mechancial analysis.
! ioffsflg = 1 for small displacement beam/shell offsets
! = 2 for large displacement beam/shell offsets
! isetoff = 0 - do not apply beam/shell offsets
! = 1 - apply beam/shell offsets
! ioffsetm = min. value of offset flag
! iharmt = 1 global flag if a coupled analysis contains an harmonic pass
! inc_incdat = flag to record increment number of a new loadcase in incdat.f
! iautspc = flag for AutoSPC option
! ibrake = brake squeal in this increment
! icbush = set to 1 if cbush elements present in model
! istream_input = set to 1 for streaming input calling Marc as library
! iprsinp = set to 1 if pressure input, introduced so other variables
! such as h could be a function of pressure
! ivlsinp = set to 1 if velocity input, introduced so other variables
! such as h could be a function of velocity
! ipin_m = # of beam element with PIN flag
! jgnstr_glb = global control over pre or fast integrated composite shells
! imarc_return = Marc return flag for streaming input control
! iqvcimp = if non-zero, then the number of QVECT boundary conditions
! nqvceid = number of QVECT boundary conditions, where emisivity/absorbtion id entered
! istpnx = 1 if to stop at end of increment
! imicro1 = 1 if micro1 interface is used
! iaxisymm = set to 1 if axisymmetric analysis
! jbreakglue = set to 1 if breaking glued option is used
! iglstif = 1 if ddm and global stiffness matrix formed (sgi solver 6 or solver9)
! jfastasm = 1 do fast assembly using SuperForm code
! iwear = set to 1 if wear model, set to 2 if wear model and coordinates updated
! iwearcf = set to 1 to store nodal coefficient of friction for wear calculation
! imixmeth = set=1 then use nonlinear mixture material - allocate memory
! ielcmadyn = flag for magnetodynamics
! 0 - electromagnetics using newmark beta
! 1 - transient magnetics using backward euler
! idinout = flag to control if inside out elements should be deactivated
! igena_meth = 0 - generalized alpha parameters depend on whether or not contact
! is flagged (dynamic,7)
! 10 - generalized alpha parameters are optimized for a contact
! analysis (dynamic,8)
! 11 - generalized alpha parameters are optimized for an analysis
! without contact (dynamic,8)
! magf_meth = - Method to compute force in magnetostatic - structural
! = 1 - Virtual work method based on finite difference for the force computation
! = 2 - Maxwell stress tensor
! = 3 - Virtual work method based on local derivative for the force computation
! non_assumed = 1 no assumed strain formulation (forced)
! iredoboudry set to 1 if contact boundary needs to be recalculated
! ioffsz0 = 1 if composite are used with reference position.ne.0
! icomplt = 1 global flag if a coupled analysis contains an complex pass
! mesh_dual = 1 two independent meshes are used in magnetodynamic/thermal/structural
! one for magnetodynamic and the other for the remaining passes
! iactrp = 1 in an analysis with global remeshing, include inactive
! rigid bodies on post file
! mgnewton = 1 Use full Newton Raphson iteration for magnetostatic pass
!
! iusedens > 0 if mass density is used in the analysis (dynamics, mass dependent loading)
!
!***********************************************************************
!$omp threadprivate(/marc_concom/)
!!

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! common block definition file taken from respective MSC.Marc release and reformated to free format
!***********************************************************************
!
! File: creeps.cmn
!
! MSC.Marc include file
!
real(pReal) cptim,timinc,timinc_p,timinc_s,timincm,timinc_a,timinc_b
integer(pInt) icptim,icfte,icfst,icfeq,icftm,icetem,mcreep,jcreep,icpa,icftmp,icfstr,&
icfqcp,icfcpm,icrppr,icrcha,icpb,iicpmt,iicpa
real(pReal) time_beg_lcase,time_beg_inc,fractol,time_beg_pst
!
integer(pInt) num_creepsr,num_creepsi,num_creeps2r
parameter(num_creepsr=7)
parameter(num_creepsi=18)
parameter(num_creeps2r=4)
common/marc_creeps/cptim,timinc,timinc_p,timinc_s,timincm,timinc_a,timinc_b,icptim,icfte,icfst,&
icfeq,icftm,icetem,mcreep,jcreep,icpa,icftmp,icfstr,icfqcp,icfcpm,icrppr,icrcha,icpb,iicpmt,iicpa
common/marc_creeps2/time_beg_lcase,time_beg_inc,fractol,time_beg_pst
!
! time_beg_lcase time at the beginning of the current load case
! time_beg_inc time at the beginning of the current increment
! fractol fraction of loadcase or increment time when we
! consider it to be finished
! time_beg_pst time corresponding to first increment to be
! read in from thermal post file for auto step
!
!***********************************************************************
!$omp threadprivate(/marc_creeps/)
!$omp threadprivate(/marc_creeps2/)
!!