# Amber configuration file, created with: ./configure -noX11 gnu ############################################################################### # (1) Location of the installation BASEDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14 BINDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14/bin LIBDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14/lib INCDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14/include DATDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14/dat LOGDIR=/mnt/disk2/andrea/bin/AMBER_PARA/amber14/logs ############################################################################### # (2) If you want NAB to search additional libraries by default, add them # to the FLIBS variable here. (External libraries can also be linked into # NAB programs simply by including them on the command line; libraries # included in FLIBS are always searched.) FLIBS= -lsff -lpbsa -lrism -lfftw3 -larpack -llapack -lblas -lnetcdf -lgfortran -w FLIBS_PTRAJ= -larpack -llapack -lblas -lgfortran -w FLIBSF= -larpack -llapack -lblas FLIBS_FFTW3= -lfftw3 ############################################################################### # (3) Modify any of the following if you need to change, e.g. to use gcc # rather than cc, etc. SHELL=/bin/sh INSTALLTYPE=serial BUILDAMBER=amber # Set the C compiler, etc. # The configure script should be fine, but if you need to hand-edit, # here is some info: # Example: CC-->gcc; LEX-->flex; YACC-->yacc (built in byacc) # Note: If your lexer is "really" flex, you need to set # LEX=flex below. For example, on some distributions, # /usr/bin/lex is really just a pointer to /usr/bin/flex, # so LEX=flex is necessary. In general, gcc seems to need flex. # The compiler flags CFLAGS and CXXFLAGS should always be used. # By contrast, *OPTFLAGS and *NOOPTFLAGS will only be used with # certain files, and usually at compile-time but not link-time. # Where *OPTFLAGS and *NOOPTFLAGS are requested (in Makefiles, # makedepend and depend), they should come before CFLAGS or # CXXFLAGS; this allows the user to override *OPTFLAGS and # *NOOPTFLAGS using the BUILDFLAGS variable. # AMBERBUILDFLAGS provides a hook into all stages of the build process. # It can be used to build debug versions, invoke special features, etc. # Example: make AMBERBUILDFLAGS='-O0 -g' sander # CC=gcc CFLAGS= -D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE -DBINTRAJ -DHASGZ -DHASBZ2 $(CUSTOMBUILDFLAGS) $(AMBERBUILDFLAGS) CNOOPTFLAGS= COPTFLAGS=-O3 -mtune=native AMBERCFLAGS= $(AMBERBUILDFLAGS) CXX=g++ CPLUSPLUS=g++ CXXFLAGS= $(CUSTOMBUILDFLAGS) $(AMBERBUILDFLAGS) CXXNOOPTFLAGS= CXXOPTFLAGS=-O3 AMBERCXXFLAGS= $(AMBERBUILDFLAGS) NABFLAGS= $(AMBERBUILDFLAGS) PBSAFLAG=-DFFTW $(AMBERBUILDFLAGS) LDFLAGS= $(CUSTOMBUILDFLAGS) $(AMBERBUILDFLAGS) AMBERLDFLAGS=$(AMBERBUILDFLAGS) LEX= flex YACC= $(BINDIR)/yacc AR= ar rv M4= m4 RANLIB=ranlib # Set the C-preprocessor. Code for a small preprocessor is in # ucpp-1.3; it gets installed as $(BINDIR)/ucpp; CPP=ucpp -l # These variables control whether we will use compiled versions of BLAS # and LAPACK (which are generally slower), or whether those libraries are # already available (presumably in an optimized form). LAPACK=install BLAS=install F2C=skip # These variables determine whether builtin versions of certain components # can be used, or whether we need to compile our own versions. UCPP=install C9XCOMPLEX=skip # For Windows/cygwin, set SFX to ".exe"; for Unix/Linux leave it empty: # Set OBJSFX to ".obj" instead of ".o" on Windows: SFX= OSFX=.o MV=mv RM=rm CP=cp # Information about Fortran compilation: FC=gfortran FFLAGS= $(LOCALFLAGS) $(CUSTOMBUILDFLAGS) -I$(INCDIR) $(NETCDFINC) $(AMBERBUILDFLAGS) FNOOPTFLAGS= -O0 FOPTFLAGS= -O3 -mtune=native AMBERFFLAGS=$(AMBERBUILDFLAGS) FREEFORMAT_FLAG= -ffree-form LM=-lm FPP=cpp -traditional -P FPPFLAGS= -DBINTRAJ -DEMIL $(CUSTOMBUILDFLAGS) $(AMBERBUILDFLAGS) AMBERFPPFLAGS=$(AMBERBUILDFLAGS) FCREAL8=-fdefault-real-8 NOFORTRANMAIN=-lgfortran -w XHOME= /usr XLIBS= -L/usr/lib64 -L/usr/lib MAKE_XLEAP=skip_xleap NETCDF=$(INCDIR)/netcdf.mod NETCDFLIB=$(LIBDIR)/libnetcdf.a NETCDFLIBF=$(LIBDIR)/libnetcdff.a $(LIBDIR)/libnetcdf.a NETCDFINC=-I$(INCDIR) FFTWLIB=-lfftw3 EMIL=EMIL EMILLIB=$(LIBDIR)/libemil.a -lstdc++ ZLIB=-lz BZLIB=-lbz2 HASFC=yes MTKPP=install_mtkpp XBLAS=$(LIBDIR)/libxblas-amb.a FFTW3=$(LIBDIR)/libfftw3.a MDGX=yes COMPILER=gnu MKL= MKL_PROCESSOR= #CUDA Specific build flags NVCC= PMEMD_CU_INCLUDES= PMEMD_CU_LIBS= PMEMD_CU_DEFINES= #PMEMD Specific build flags PMEMD_F90=gfortran -DBINTRAJ -DEMIL -DPUBFFT PMEMD_FOPTFLAGS=-O3 -mtune=native $(AMBERBUILDFLAGS) PMEMD_CC=gcc PMEMD_COPTFLAGS=-O3 -mtune=native -D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE -DBINTRAJ $(AMBERBUILDFLAGS) PMEMD_FLIBSF= $(LIBDIR)/libemil.a -lstdc++ PMEMD_LD= gfortran $(AMBERBUILDFLAGS) LDOUT= -o #for NAB: MPI= #1D-RISM RISM=yes #3D-RISM NAB RISMSFF=-DRISMSFF SFF_RISM_INTERFACE=../rism/amber_rism_interface.NAB.o TESTRISMSFF=testrism #3D-RISM SANDER RISMSANDER=-DRISMSANDER SANDER_RISM_INTERFACE=../rism/amber_rism_interface.SANDER.o FLIBS_RISMSANDER=-lrism TESTRISMSANDER=testrism #for EMIL: EMIL_MPIFLAGS= #PUPIL PUPILLIBS=-lrt -lm -lc -L${PUPIL_PATH}/lib -lPUPIL -lPUPILBlind #Python interpreter we are using PYTHON=/usr/local/bin/python2.7 #Type of Amber_Phenix build and python include file AMBERPHENIX=no INCLUDE_PY= PYTHON_VER= #For LIO QM GPU Library LIOLIBS=