资源说明:BD_BOX is an open source, scalable Brownian dynamics package for UNIX/LINUX platforms. BD_BOX uses flexible bead models to represent macromolecules
# bash examples #################################### # Configuration examples, CPU # #################################### # default configuration ./configure --prefix=$HOME/bd_box # default configuration with an alternate compiler (Intel icc) ./configure CC=icc # configuration with an aggressive optimization and loops unrolling # for the specified target architecture (64bit mode, gcc) ./configure CC=gcc CFLAGS="-O3 -funroll-loops -march=core2 -m64" # enabling SSE for nonbonded interactions lists ./configure CC=gcc CFLAGS="-O3 -funroll-loops" --enable-sse # enabling SSE for nonbonded interactions lists, single precision ./configure CC=gcc CFLAGS="-O3 -funroll-loops" --enable-sse --enable-float ################################################################ # LAPACK configuration examples # ################################################################ # system lapack ./configure --with-lapack="-llapack" # ATLAS: export ATLAS_DIR=$HOME/ATLAS # command: ls $ATLAS_DIR # should give: include lib # command: ls $ATLAS_DIR/lib # should give: libatlas.a libcblas.a libf77blas.a liblapack.a libptcblas.a libptf77blas.a export ATLAS_DIR=$HOME/ATLAS ./configure --with-lapack="-L $ATLAS_DIR/lib -llapack -lcblas -lf77blas -latlas -lgfortran" # acml # command: ls /opt/acml/acml4.2.0/gfortran64/ # should give: libacml.a libacml.so libacml_mv.a libacml_mv.so export ACML_DIR=/opt/acml/acml4.2.0/gfortran64/ ./configure --with-lapack="-L $ACML_DIR/lib -lacml -lacml_mv -lgfortran" # to use single precision add --enable-float #Intel MKL 10.3 version (for other version use MKL Advisory) and icc compiler export INTELLIB_DIR=/opt/intel/mkl/lib/intel64 export CC=/opt/intel/bin/icc export CXX=/opt/intel/bin/icpc ./configure --with-lapack="-L${INTELLIB_DIR} -Wl,--start-group \ -lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core -Wl,--end-group -openmp -lpthread" ######################################################## # exmaple of configuration for ScaLAPACK # ######################################################## # Using ScaLAPACK with own static version of ATLAS # ATLAS_DIR directory containing ATLAS # SCALAPACK_DIR directory containing SCALAPACK AND BLACS # for example export SCALAPACK_DIR=$HOME/ScaLAPACK # command: ls $SCALAPACK_DIR # should give: libblacs.a libblacsCinit.a libblacsF77init.a libscalapack.a # for example export export ATLAS_DIR=$HOME/ATLAS # command: ls $ATLAS_DIR # should give: include lib # command: ls $ATLAS_DIR/lib # should give: libatlas.a libcblas.a libf77blas.a liblapack.a libptcblas.a libptf77blas.a ./configure CC=mpicc CFLAGS="-O3" --enable-mpi \ --with-scalapack="-L $SCALAPACK_DIR -lscalapack -lblacsCinit -lblacs -L $ATLAS_DIR/lib -llapack -lcblas -lf77blas -latlas -lgfortran" # Using ScaLAPACK with system LAPACK ./configure CC=mpicc CFLAGS="-O3" --enable-mpi --with-scalapack="-L $SCALAPACK_DIR -lscalapack -lblacsCinit -lblacs -llapack" # Using ScaLAPACK with system LAPACK and ScaLAPACK ./configure CC=mpicc CFLAGS="-O3" --enable-mpi --with-scalapack="-lscalapack-openmpi -llapack" # Run mpi version, with box.prm configuration file mpiexec -n 4 ./bd_box box.prm --MPI_block=64 --MPI_nprow=2 --MPI_npcol=2 # it's necessary to compile with --enable-mpi # bd_box compiled with --enable-mpi but without --with-scalapack, will not perform the Cholesky decomposition ------------------------------------------------------------------------------------------------------------------------------------- ###################################################### # Configuration, GPU using MAGMA and MKL # ###################################################### # download and install MKL # download and compile MAGMA with MKL # directory containing libmagma.a libmagmablas.a export MAGMALIB_DIR=~/magma/lib # directory containing cuda toolkit (bin, ..., src ) export CUDA_DIR=~/cuda # directory containing cudpp.h libcudpp.a export CUDPP_DIR=~/cudpp # here we're assuming that MKL is configured and all paths are set, you can use MKL advisory for more information source ~/intel/bin/compilervars.sh intel64 ./configure --with-magma="-L${MAGMALIB_DIR} -lmagma -lmagmablas" \ -with-lapack="-lmkl_intel_lp64 -lmkl_gf_lp64 -lmkl_gnu_thread -lmkl_core -liomp5 -lm -lpthread" \ --with-cuda="${CUDA_DIR}" --enable-float CFLAGS="-O3" \ NVCCFLAGS="-O3 -arch=sm_11" --with-cudpp="${CUDPP_DIR}"; # for the current version of BD_BOX --enable-float is essential # change -arch=sm_11 to -arch=sm20 for Fermi # change -arch=sm_11 to -arch=sm13 for GTX 200 series # -arch=sm_11 is ok for GTS250 ------------------------------------------------------------------------------------------------------------------------------------- ############### # Compilation # ############### make make install ------------------------------------------------------------------------------------------------------------------------------------- ################ # MS Windows # ################ Install Windows SDK 7.0 - version 7.1 doesn't work with cuda toolkit 3.2 and doesn't contain OpenMP. Create directory C:\Program Files\Microsoft Visual Studio 9.0\Common7\Tools Copy vcvars32.bat there, from C:\Program Files\Microsoft Visual Studio 9.0\VC\bin. Rename vcvars32.bat to vsvars32.bat; only if does not already exist. CUDA Toolkit requires that file. Run "Windows SDK 7.0 Command Prompt" from Start->All programs->Microsoft Windows SDK->Windows SDK 7.0 Command Prompt Run SetEnv for platform example SetEnv /xp Go to bd_box\src directory. Run nmake -f bd_box.mak example: nmake -f bd_box.mak nodebug=1 openmp=1 CPU=AMD64 example: nmake -f bd_box_gpu.mak nodebug=1 openmp=1 CPU=AMD64 or use VS and bd_box.sln and bd_box_gpu.sln.
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