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Makefile
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# MIMD version 7
# Standard application makefile.
# Replaces Make_vanilla, Make_linux_mpi, Make_linux_qdp, Make_qcdoc_gcc
# Do not use for making libraries
# Copy this file into the application directory and run make there.
#
# This file
MAKEFILE = Makefile
#----------------------------------------------------------------------
# User choices - edit to suit
#----------------------------------------------------------------------
# 1. Host and accelerator architecture. Controls optimization flags here and in libraries.
# Can control BINEXT below, a suffix appended to the name of the executable.
ARCH ?= # epyc hsw skx clx icx spr knl pow8 pow9
#GPU_ARCH ?= # nvidia amd intel
#----------------------------------------------------------------------
# 2. Compiler family
COMPILER = intel # intel, ibm, cray-intel, rocm
OFFLOAD ?= # cuda hip sycl openmp
#----------------------------------------------------------------------
# 3. MPP vs Scalar
# Compiling with MPI? false for a scalar machine
MPP = true
#----------------------------------------------------------------------
# 4. Generic Precision
# 1 = single precision; 2 = double
PRECISION = 2
#----------------------------------------------------------------------
# 5. Set compiler.
# Choices include mpicc cc gcc pgcc g++
ifeq ($(strip ${COMPILER}),intel)
ifeq ($(strip ${MPP}),true)
MY_CC ?= mpicc
MY_CXX ?= mpicxx
else
MY_CC ?= icx
MY_CXX ?= icpx
endif
else ifeq ($(strip ${COMPILER}),cray-intel)
ifeq ($(strip ${MPP}),true)
MY_CC ?= cc
MY_CXX ?= CC
else
MY_CC ?= icc
MY_CXX ?= icpc
endif
else ifeq ($(strip ${COMPILER}),gnu)
ifeq ($(strip ${MPP}),true)
MY_CC ?= mpicc
MY_CXX ?= mpiCC
else
MY_CC ?= gcc-8
MY_CXX ?= g++-8
endif
else ifeq ($(strip ${COMPILER}),ibm)
ifeq ($(strip ${MPP}),true)
MY_CC ?= mpixlc_r
MY_CXX ?= mpixlcxx_r
else
MY_CC ?= xlc_r
MY_CXX ?= xlc++_r
endif
else ifeq ($(strip ${COMPILER}),amdclang)
ifeq ($(strip ${MPP}),true)
MY_CC ?= mpicc
MY_CXX ?= mpicxx
else
MY_CC ?= amdclang
MY_CXX ?= amdclang++
endif
endif
# Accelerator
ifeq ($(strip ${OFFLOAD}),sycl)
MY_CC += -cc=icx
MY_CXX += -cxx=icpx -fsycl
endif
CC = ${MY_CC}
CXX = ${MY_CXX}
# If the above construction doesn't work, override the definitions here
# CC =
# CXX =
#----------------------------------------------------------------------
# 6. Compiler optimization level
# Choices include -g -O, etc
# Power9 recommendations are -Ofast
OPT ?= -O3 -g
# OpenMP?
OMP = true
#----------------------------------------------------------------------
# 7. Other compiler optimization flags. Uncomment stanza to suit.
#-------------- Gnu C -------------------------------------
ifeq ($(strip ${COMPILER}),gnu)
OCFLAGS += -std=c99
OCXXFLAGS += -std=gnu++17
ifeq ($(strip ${ARCH}),pow8)
ARCH_FLAG = -mcpu=power8
endif
ifeq ($(strip ${ARCH}),pow9)
ARCH_FLAG = -mcpu=power9 -mtune=power9
endif
ifeq ($(strip ${OMP}),true)
OCFLAGS += -fopenmp
OCXXFLAGS += -fopenmp
LDFLAGS += -fopenmp
endif
# Other Gnu options
#OCFLAGS += -mavx # depends on architecture
# enable all warnings with exceptions
OCFLAGS += -Wall -Wno-unused-variable -Wno-unused-but-set-variable -Wno-unknown-pragmas -Wno-unused-function
endif
#------------------------ BlueGene -----------------------------------
ifeq ($(strip ${COMPILER}),ibm)
OCFLAGS = -std=gnu99
OCXXFLAGS += -std=c++17
# consider running with XLSMPOPTS=stack=10M or higher
ifeq ($(strip ${OMP}),true)
OCFLAGS += -qsmp=omp
OCXXFLAGS += -qsmp=omp
LDFLAGS += -qsmp=omp
endif
endif
#-------------- Intel icc/ecc -----------------------------------
ifeq ($(strip ${COMPILER}),intel)
OCFLAGS += -std=c99
OCXXFLAGS += -std=c++17
ifeq ($(strip ${ARCH}),knl)
ARCH_FLAG = -xMIC-AVX512
BINEXT=.knl
else ifeq ($(strip ${ARCH}),knc)
ARCH_FLAG = -mmic
BINEXT=.knc
else ifeq ($(strip ${ARCH}),skx)
ARCH_FLAG = -xCORE-AVX512 -qopt-zmm-usage=high
BINEXT=.skx
else ifeq ($(strip ${ARCH}),clx)
ARCH_FLAG = -xCORE-AVX512 -qopt-zmm-usage=high
else ifeq ($(strip ${ARCH}),spr)
ARCH_FLAG = ""
else ifeq ($(strip ${ARCH}),icx)
ARCH_FLAG = -xCORE-AVX512 -qopt-zmm-usage=high
else ifeq ($(strip ${ARCH}),hsw)
ARCH_FLAG = -xCORE-AVX2
BINEXT=.hsw
else
ARCH_FLAG = -mavx
BINEXT=
endif
OCFLAGS += ${ARCH_FLAG}
OCXXFLAGS += ${ARCH_FLAG}
LDFLAGS += ${ARCH_FLAG}
OCFLAGS += -debug
OCXXFLAGS += -debug
ifeq ($(strip ${OMP}),true)
OCFLAGS += -fopenmp
OCXXFLAGS += -fopenmp
LDFLAGS += -fopenmp
endif
endif
#-------------- Cray-Intel -----------------------------------
ifeq ($(strip ${COMPILER}),cray-intel)
OCFLAGS += -std=c99
OCXXFLAGS += -std=c++17
ifeq ($(strip ${ARCH}),knl)
ARCH_FLAG = -xMIC-AVX512
BINEXT=.knl
else ifeq ($(strip ${ARCH}),knc)
ARCH_FLAG = -mmic
BINEXT=.knc
else ifeq ($(strip ${ARCH}),hsw)
ARCH_FLAG = -xCORE-AVX2
BINEXT=.hsw
else
ARCH_FLAG = -mavx
BINEXT=
endif
OCFLAGS += ${ARCH_FLAG}
OCXXFLAGS += ${ARCH_FLAG}
LDFLAGS += ${ARCH_FLAG}
OCFLAGS += # -parallel-source-info=2 -debug inline-debug-info -qopt-report=5
OCXXFLAGS += # -parallel-source-info=2 -debug inline-debug-info -qopt-report=5
ifeq ($(strip ${OMP}),true)
OCFLAGS += -qopenmp
OCXXFLAGS += -qopenmp
LDFLAGS += -qopenmp
endif
endif
#-------------- Portland Group ----------------------------
#OCFLAGS = -tp p6 -Munroll=c:4,n:4
#OCFLAGS= -mpentiumpro -march=pentiumpro -funroll-all-loops -malign-double -D_REENTRANT # Pentium pro
#-------------- AMD Clang ----------------------------
ifeq ($(strip ${COMPILER}),amdclang)
ifeq ($(strip ${OMP}),true)
OCFLAGS += -fopenmp
OCXXFLAGS += -fopenmp
LDFLAGS += -fopenmp
endif
endif
#----------------------------------------------------------------------
# 8. Choose large file support.
ifeq ($(strip ${COMPILER}),ibm)
CLFS = -D_LARGE_FILES # AIX
else
CLFS = -D_FILE_OFFSET_BITS=64 -D_LARGEFILE64_SOURCE # Large files gcc only
endif
#----------------------------------------------------------------------
# 9. Installation-specific MPI includes and libraries
# Not needed if using mpicc or on single processor
#----------------- Intel MPI Custom -------------------------------------------
# IMPI = -I/opt/intel/impi/5.1.3.181/compilers_and_libraries_2016.2.181/linux/mpi/intel64/include
# ifeq ($(strip ${ARCH}),knl)
# LMPI = -L/opt/intel/compiler/latest/compilers_and_libraries_2016/linux/mpi/mic/lib
# else ifeq ($(strip ${ARCH}),knc)
# LMPI = -L/opt/intel/compiler/latest/compilers_and_libraries_2016/linux/mpi/mic/lib
# else
# LMPI = -L/opt/intel/compiler/latest/compilers_and_libraries_2016/linux/mpi/intel64/lib
# endif
#----------------- MVICH ----------------------------------------------
#IMPI = -I/uufs/icebox/sys/src/mpich/1.2.0-via/include # MVICH
#LMPI = -L/uufs/icebox/sys/pkg/mpich/1.2.0-via/lib -lmpi -lvipl -lpthread # MVICH
#----------------------------------------------------------------------
# 10. I/O routines
# Both io_nonansi and io_ansi should work on a scalar machine
# Solaris 2.6 gave "bad file number" errors with io_ansi. CD
MACHINE_DEP_IO = io_ansi.o # (io_ansi.o io_nonansi.o io_dcap.o)
# Uncomment if you have and want to support dcache I/O
# (Forces use of io_dcap.o)
# WANTDCAP = true
# The location of the installed dcap libraries. Uncomment and enter if
# it is not already defined as a system environment variable.
# DCAP_DIR = /usr/local/develop/dcache
# Choose the appropriate library path according to the addressing
# size of the machine
# DCAPLIB = lib64 # (lib64 lib)
#----------------------------------------------------------------------
# 11. SciDAC package options
# Edit these "wants"
WANTQOP ?= # true # or blank. Implies HAVEQDP, HAVEQOP, HAVEQMP.
WANTQIO ?= # true # or blank. Implies HAVEQMP.
WANTQMP ?= # true or blank.
# QMP_MPI or QMP_SPI
QMP_BACKEND = QMP_MPI
# Edit these locations for the installed SciDAC packages
# It is assumed that these are the parents of "include" and "lib"
SCIDAC = ${HOME}/scidac/install
TAG=
# Parallel versions
QMPPAR ?= ${SCIDAC}/qmp${TAG}
QIOPAR ?= $(SCIDAC)/qio${TAG}
# Single processor versions
QMPSNG ?= ${SCIDAC}/qmp-single${TAG}
QIOSNG ?= $(SCIDAC)/qio-single${TAG}
QLA ?= ${SCIDAC}/qla${TAG}
# Either version
QDP ?= ${SCIDAC}/qdp${TAG}
QOPQDP ?= ${SCIDAC}/qopqdp${TAG}
QOP = ${QOPQDP}
# Make_template_scidac defines these macros:
# HAVEQOP HAVEQDP HAVEQIO HAVEQMP (Says what we are compiling with)
# LIBSCIDAC INCSCIDAC (The -L and -I compiler and linker lists)
# SCIDAC_LIBRARIES SCIDAC_HEADERS (Lists for make dependencies)
# CSCIDAC (List of compiler macros for SciDAC modules)
include ../Make_template_scidac
#----------------------------------------------------------------------
# 12. APE link I/O
WANT_APE_IO ?= # true
#----------------------------------------------------------------------
# 12. Intel MKL for FFTW and LAPACK
ifeq ($(strip ${COMPILER}),intel)
INCFFTW = -mkl
LIBFFTW = -mkl
else ifeq ($(strip ${COMPILER}),cray-intel)
INCFFTW = -mkl
LIBFFTW = -mkl
endif
#----------------------------------------------------------------------
# 12. FFTW3 Options
WANTFFTW ?= #true
ifeq ($(strip ${WANTFFTW}),true)
FFTW ?= ${HOME}/fftw/build-gcc
FFTW_HEADERS = ${FFTW}/include
INCFFTW = -I${FFTW_HEADERS}
LIBFFTW = -L${FFTW}/lib
LIBFFTW += -lfftw3 -lfftw3f
PACKAGE_HEADERS += ${FFTW_HEADERS}
endif
#----------------------------------------------------------------------
# 13. LAPACK Options (for qopqdp-lapack and arb_overlap )
#LIBLAPACK = -L/opt/ibmcmp/xlf/bg/11.1/lib /soft/apps/LAPACK/liblapack_bgp.a /soft/apps/LIBGOTO/libgoto.a -lxlf90 -lxlsmp # LAPACK on BG/P
# Utah physics and math Redhat-linux
# LIBLAPACK = -L/usr/uumath/lib64 -llapack-3.6.0 -lblas-3.6.0 -L/usr/lib/gcc/x86_64-redhat-linux/4.8.2 -lgfortran
# Utah physics and math Centos-linux. Must link with gfortran. Incompatible with Grid!
# LIBLAPACK = -L/usr/local/lib64 -llapack -lblas
# LDLAPACK = gfortran
# FNAL cluster (Jim's installation of ATLAS)
# LDFLAGS = -Wl,-rpath,"/usr/local/atlas-3.10-lapack-3.4.2/lib" -L/usr/local/atlas-3.10-lapack-3.4.2/lib
# LIBS = $(LDFLAGS) -lprimme -lm -llapack -lptf77blas -lptcblas -latlas -lgfortran -lpthread
# NERSC Cori Haswell
# LIBLAPACK = -L${LIBSCI_BASE_DIR}/INTEL/15.0/haswell/lib -lsci_intel
# NERSC Cori KNL
# LIBLAPACK = -L${LIBSCI_BASE_DIR}/INTEL/15.0/mic_knl/lib -lsci_intel
# NERSC Edison
# LIBLAPACK = -L${LIBSCI_BASE_DIR}/INTEL/15.0/ivybridge/lib -lsci_intel
# falco Centos-linux. Must link with gfortran.
# LIBLAPACK = -L/usr/uumath/lib64 -llapack -lblas
# LDLAPACK = gfortran
#----------------------------------------------------------------------
# 14. PRIMME Options (for arb_overlap and ks_eigen). REQUIRES LAPACK AS WELL.
WANTPRIMME = #true
# PRIMME version 2.0
ifeq ($(strip ${WANTPRIMME}),true)
PRIMME_HEADERS = ${HOME}/PRIMME/include
INCPRIMME = -I${PRIMME_HEADERS}
PACKAGE_HEADERS += ${PRIMME_HEADERS}
LIBPRIMME = -L${HOME}/PRIMME/lib -lprimme
CEIG ?= # -DPRIMME_PRECOND -DPOLY_EIGEN
endif
#----------------------------------------------------------------------
# 14. ARPACK Options (for ks_eigen). REQUIRES LAPACK AS WELL.
WANTARPACK = #true
ifeq ($(strip ${WANTARPACK}),true)
# LIBARPACK = -L/usr/lib64 -lparpack -larpack -lifcore -llapack -lblas
LIBARPACK = -L/usr/lib64 -larpack
endif
#----------------------------------------------------------------------
# 15. GPU/QUDA Options
WANTQUDA ?= false
ifeq ($(strip ${WANTQUDA}),true)
HAVE_QUDA = true
HAVE_GPU = true
CGPU += -DHAVE_QUDA
WANT_CL_BCG_GPU ?= #true
WANT_FN_CG_GPU ?= #true
WANT_FL_GPU ?= #true
WANT_FF_GPU ?= #true
WANT_GF_GPU ?= #true
WANT_EIG_GPU ?= #true
WANT_GSMEAR_GPU ?= #true
WANT_KS_CONT_GPU ?= #true
WANT_SHIFT_GPU ?= #true
WANT_SPIN_TASTE_GPU ?= #true
WANT_GAUGEFIX_OVR_GPU ?= #true
WANT_MULTIGRID ?= #true
endif
ifeq ($(strip ${WANTQUDA}),true)
ifeq ($(strip ${OFFLOAD}),)
OFFLOAD = CUDA
endif
QUDA_HOME ?= ${HOME}/quda
INCQUDA = -I${QUDA_HOME}/include -I${QUDA_HOME}/tests
PACKAGE_HEADERS += ${QUDA_HOME}/include
LIBQUDA ?= -Wl,-rpath ${QUDA_HOME}/lib -L${QUDA_HOME}/lib -lquda
QUDA_LIBRARIES = ${QUDA_HOME}/lib
QUDA_HEADERS = ${QUDA_HOME}/include
ifeq ($(strip ${OFFLOAD}),CUDA)
CUDA_HOME ?= /usr/local/cuda
INCQUDA += -I${CUDA_HOME}/include
PACKAGE_HEADERS += ${CUDA_HOME}/include
LIBQUDA += -L${CUDA_HOME}/lib64 -L${CUDA_MATH}/lib64 -L${CUDA_COMP}/lib -lcudart -lcuda -lcublas -lcufft -ldl
endif
# Verbosity choices:
# SET_QUDA_SILENT, SET_QUDA_SUMMARIZE, SET_QUDA_VERBOSE, SET_QUDA_DEBUG_VERBOSE
QUDA_VERBOSITY ?= SUMMARIZE
ifeq ($(strip ${QUDA_VERBOSITY}),SILENT)
CGPU += -DSET_QUDA_SILENT # silent output
else ifeq ($(strip ${QUDA_VERBOSITY}),SUMMARIZE)
CGPU += -DSET_QUDA_SUMMARIZE # summary output
else ifeq ($(strip ${QUDA_VERBOSITY}),VERBOSE)
CGPU += -DSET_QUDA_VERBOSE # verbose output, outputs autotuning information, residual history of solvers
else ifeq ($(strip ${QUDA_VERBOSITY}),DEBUG_VERBOSE)
CGPU += -DSET_QUDA_DEBUG_VERBOSE # debug-level output
endif
endif
#----------------------------------------------------------------------
# 16. QPhiX Options
WANTQPHIX = #true
WANT_FN_CG_QPHIX = true
WANT_GF_QPHIX = true
QPHIX_HOME = ../QPhiX_MILC/milc-qphix
ifeq ($(strip ${WANTQPHIX}), true)
INCQPHIX = -I${QPHIX_HOME}
PACKAGE_HEADERS += ${QPHIX_HOME}
HAVE_QPHIX = true
CPHI = -DHAVE_QPHIX
QPHIX_HEADERS = ${QPHIX_HOME}
ifeq ($(strip ${MPP}),true)
# MPI versions of QPHIX
ifeq ($(strip ${ARCH}),knl)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_avx512 -lrt
else ifeq ($(strip ${ARCH}),knc)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_mic -lrt
else ifeq ($(strip ${ARCH}),hsw)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_avx2 -lrt
else ifeq ($(strip ${ARCH}),skx)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_skx -lrt
endif
else
# Non-MPI versions
ifeq ($(strip ${ARCH}),knl)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_avx512_single -lrt
else ifeq ($(strip ${ARCH}),knc)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_mic_single -lrt
else ifeq ($(strip ${ARCH}),hsw)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_avx2_single -lrt
else ifeq ($(strip ${ARCH}),skx)
LIBQPHIX = -L${QPHIX_HOME} -lqphixmilc_skx_single -lrt
endif
endif
QPHIX_HEADERS = ${QPHIX_HOME}
PACKAGE_HEADERS += ${QPHIX_HEADERS}
QPHIX_LIBRARIES = ${QPHIX_HOME}
ifeq ($(strip ${WANT_FN_CG_QPHIX}),true)
HAVE_FN_CG_QPHIX = true
CPHI += -DUSE_CG_QPHIX
endif
ifeq ($(strip ${WANT_GF_QPHIX}),true)
HAVE_GF_QPHIX = true
CPHI += -DUSE_GF_QPHIX
endif
endif
#----------------------------------------------------------------------
# 16. Hadrons Options
WANTHADRONS ?= false # true implies WANTGRID = true
ifeq ($(strip ${WANTHADRONS}), true)
HAVE_HADRONS = true
CGPU += -DHAVE_HADRONS
ifeq ($(strip ${MPP}),true)
ifeq ($(strip ${ARCH}),knl)
HADRONS_ARCH = avx512
else ifeq ($(strip ${ARCH}),skx)
HADRONS_ARCH = avx512
else ifeq ($(strip ${ARCH}),hsw)
HADRONS_ARCH = avx2
endif
else
# Scalar version
HADRONS_ARCH = scalar
endif
HADRONS_HOME = ../Grid/install-hadrons-${HADRONS_ARCH}
HADRONS_LIBRARIES = ${HADRONS_HOME}/lib
LIBHADRONS = -L${HADRONS_LIBRARIES} -lHadrons -ldl
HADRONS_HEADERS = ${HADRONS_HOME}/include
INCHADRONS = -I${HADRONS_HEADERS}
PACKAGE_HEADERS += ${HADRONS_HEADERS}/Hadrons
PACKAGE_DEPS += Hadrons
LDFLAGS += -fopenmp
endif
#----------------------------------------------------------------------
# 16. Grid Options
WANTGRID ?= false
ifeq ($(strip ${WANTHADRONS}), true)
WANTGRID = true
endif
ifeq ($(strip ${WANTGRID}), true)
HAVE_GRID = true
HAVE_GPU = true
CGPU += -DHAVE_GRID
WANT_FN_CG_GPU ?= false
WANT_FL_GPU ?= false # Under development
WANT_FF_GPU ?= false # Future
WANT_GF_GPU ?= false # Future
WANT_EIG_GPU ?= false # Automatic for now
GRID_SHMEM_MAX ?= 2048 # Megabytes
GRID_DEVICE_MEM_MAX ?= 32768 # Megabytes
GRID_SHMEM_MPI ?= 1
GRID_ACCELERATOR_THREADS ?= 8
GRID_MULTI_CG ?= GRID_5DCG # GRID_5DCG GRID_BLOCKCG GRID_MRHSCG
CPHI += -DGRID_SHMEM_MAX=${GRID_SHMEM_MAX}
CPHI += -DGRID_SHMEM_MPI=${GRID_SHMEM_MPI}
CPHI += -DGRID_DEVICE_MEM_MAX=${GRID_DEVICE_MEM_MAX}
CPHI += -DGRID_ACCELERATOR_THREADS=${GRID_ACCELERATOR_THREADS}
CPHI += -DGRID_COMMS_OVERLAP=${GRID_COMMS_OVERLAP}
CPHI += -DGRID_MULTI_CG=${GRID_MULTI_CG}
endif
ifeq ($(strip ${WANTGRID}), true)
# Accelerator offloads
ifeq ($(strip ${OFFLOAD}),sycl)
GRID_ARCH = gpu-sycl
else ifeq ($(strip ${OFFLOAD}),cuda)
GRID_ARCH = gpu-cuda
else ifeq ($(strip ${OFFLOAD}),hip)
GRID_ARCH = gpu-hip
else
# CPU only
ifeq ($(strip ${ARCH}),knl)
GRID_ARCH = avx512
else ifeq ($(strip ${ARCH}),skx)
GRID_ARCH = avx512
else ifeq ($(strip ${ARCH}),clx)
GRID_ARCH = avx512
else ifeq ($(strip ${ARCH}),icx)
GRID_ARCH = avx512
else ifeq ($(strip ${ARCH}),hsw)
GRID_ARCH = avx2
else ifeq ($(strip ${ARCH}),epyc)
GRID_ARCH = avx2
else
# Scalar version
GRID_ARCH = scalar
endif
endif
GRID_HOME = ../Grid/install-grid-${GRID_ARCH}
GRID_LIBRARIES = ${GRID_HOME}/lib
LIBGRID = -L${GRID_LIBRARIES} -lGrid -lcrypto -lz
GRID_HEADERS = ${GRID_HOME}/include
INCGRID = -I${GRID_HEADERS}
PACKAGE_HEADERS += ${GRID_HEADERS}/Grid
PACKAGE_DEPS += Grid
endif
#----------------------------------------------------------------------
# 16. QPhiXJ (JLab) Options
WANTQPHIXJ = #true
# Choose vectorization parameters.
# Choices 4, 8 (or 1 for scalar)
QPHIXJ_SOALEN=4
ifeq ($(strip ${WANTQPHIXJ}), true)
HAVE_QPHIXJ = true
CPHI += -DHAVE_QPHIXJ
ifeq ($(strip ${MPP}),true)
# QMP versions of QPHIXJ
QPHIXJ_HOME = ../QPhiX_JLab/install
ifeq ($(strip ${ARCH}),knl)
QPHIXJ_ARCH = avx512
else ifeq ($(strip ${ARCH}),hsw)
QPHIXJ_ARCH = avx2
endif
else
# Scalar version
QPHIXJ_ARCH = scalar
QPHIXJ_SOALEN = 1
endif
# NOTE: These are QMP versions of QPHIXJ so requires QMP
QPHIXJ_HOME = ../QPhiX_JLab/install/dslash-${QPHIXJ_ARCH}-s${QPHIXJ_SOALEN}
QPHIXJ_LIBRARIES = ${QPHIXJ_HOME}/lib
LIBQPHIXJ = -L${QPHIXJ_LIBRARIES} -lqphix_solver -lqphix_codegen
QPHIXJ_HEADERS = ${QPHIXJ_HOME}/include
INCQPHIXJ = -I${QPHIXJ_HEADERS}
PACKAGE_HEADERS += ${QPHIXJ_HEADERS}
PACKAGE_DEPS += QPhiX_JLab
endif
#----------------------------------------------------------------------
# 17. Linker (need the C++ linker for QUDA, QPHIX, GRID)
ifeq ($(strip ${LDLAPACK}),)
ifeq ($(strip ${WANTQUDA}),true)
LD = ${CXX}
else ifeq ($(strip ${WANTQPHIX}),true)
LD = ${CXX}
else ifeq ($(strip ${WANTQPHIXJ}),true)
LD = ${CXX}
else ifeq ($(strip ${WANTGRID}),true)
LD = ${CXX}
else
LD = ${CC}
endif
else
LD = ${LDLAPACK}
endif
#----------------------------------------------------------------------
# 18. Extra ld flags
# VTune
# VTUNE_VERSION = 2016u2
# INCVTUNE = -I/opt/intel/vtune/${VTUNE_VERSION}/vtune_amplifier_xe_2016/include
# LIBVTUNE = -L/opt/intel/vtune/${VTUNE_VERSION}/vtune_amplifier_xe_2016/lib64 -l ittnotify
#
# OCFLAGS += -DVTUNE
#----------------------------------------------------------------------
# 19. Inlining choices
# USE INLINE SSE WITH EXTREME CAUTION! IT MAY GIVE WRONG RESULTS.
# SSE ASM and explicit C inlining is available for some of the library
# functions.
# Use SSE for P3 or P4 or Athlon Thunderbird and compilers, such
# as gcc that accept ASM macros
# Both SSE and C inline macros can be invoked selectively by defining
# SSE_INLINE and C_INLINE and changing the function call to the macro
# name.
# To invoke the inline macros globally (where available) without
# changing the code, define, instead, SSE_GLOBAL_INLINE or
# C_GLOBAL_INLINE.
# You may use SSE and C inlining at the same time. The SSE version
# takes precedence when both are available.
# See also the libraries Make_SSE_nasm for building non-inline SSE
# Some compilers don't like -DSSE_INLINE with the debugging -g option.
# Choose nothing or
# [ C_INLINE | C_GLOBAL_INLINE ] [ SSE_INLINE | SSE_GLOBAL_INLINE ]
INLINEOPT = -DC_GLOBAL_INLINE # -DSSE_GLOBAL_INLINE #-DC_INLINE
# There are special single-precision macros for the AMD Opteron
# To get them, uncomment the next line
#INLINEOPT += -DSSEOPTERON
#----------------------------------------------------------------------
# 20. Miscellaneous macros for performance control and metric
# Define them with a -D prefix.
#------------------------------
# git code version
GIT_VERSION := "$(shell git describe --abbrev=4 --dirty --always --tags)"
CGITVER = -DMILC_CODE_VERSION=\"$(GIT_VERSION)\"
#------------------------------
# Print timing statistics.
# Applications: many
# Use any combination of these
# CGTIME CG Solver
# FFTIME Fermion force
# FLTIME Link fattening
# GFTIME Gauge force
# IOTIME I/O timing
# PRTIME print time (clover_invert2)
# REMAP report remapping time for QDP, QOP in conjunction with above
CTIME ?= -DNERSC_TIME -DCGTIME -DFFTIME -DFLTIME -DGFTIME -DREMAP -DPRTIME -DIOTIME
#------------------------------
# Profiling
# Applications: QDP
# QDP_PROFILE Generates a report for all QDP routines
CPROF =#
#------------------------------
# Debugging and diagnostics
# Applications: all
# COM_CRC Message passing test. Checksums on all gathers.
# CHECK_MALLOC Report malloc/free activity.
# (Then process stdout using check_malloc.pl)
# CG_DEBUG Print debugging information for the inverters.
# CG_OK Print inverter convergence information even when OK
# REMAP_STDIO_APPEND All nodes append to stdout.
# NO_FREOPEN Don't use freopen to remap stdin and stdout
#
# HISQ_SVD_VALUES_INFO Print HISQ SVD diagnostics
# HISQ_SVD_COUNTER Print summary count of SVD uses
# HISQ_FORCE_FILTER_COUNTER Print summary count of force filter applications.
CDEBUG = -DCG_OK -DREMAP_STDIO_APPEND -DHISQ_SVD_COUNTER -DHISQ_FORCE_FILTER_COUNTER # -DCHECK_MALLOC
#------------------------------
# Backward compatibility
# As of version qopqdp 0.9.0 the normalization convention for the
# staggered inverter changed. If you are using a version of QOPQDP
# with the old convention, define this macro:
CCOMPAT += #-DOLD_QOPQDP_NORM
# Prior to version 7.7.2 the conversion from staggeredd to naive was peculiar.
CCOMPAT += #-DOLD_STAGGERED2NAIVE
CCOMPAT += #-DOLD_GAUSSRAND
#------------------------------
# Layout
# Applications: all
# These are currently selected only by editing Make_template.
# Choices
# layout_hyper_prime.o Standard hypercubic
# layout_timeslices.o Puts full timeslices on each node.
# layout_squares.o Puts 2D slices on each node.
# layout_hyper_tstretch.o Rarely used. Fewer timeslices on last node.
# In case node no is incommensurate with nt
# layout_timeslices_2.o Untested. Supposedly more forgiving.
#------------------------------
# Compute node grid layout
# layout_hyper_prime views the machine as a grid and selects a layout
# that distributes the lattice uniformly across the nodes and
# minimizes the surface to volume ratio. On fixed grid machines
# such as the IBM Bluegene it may be better to control the
# geometry. In that case some of our applications support
# the compiler macro FIX_NODE_GEOM. You must then provide
# and extra list of dimensions in the parameter input file.
# See e.g. ks_imp_rhmc.
CGEOM ?=#-DFIX_NODE_GEOM
#------------------------------
# I/O node grid layout
# For some applications and architectures it is more efficient to
# split large files and have a subset of processors handle the I/O.
# We define the I/O node partitions by hypercubes in the same manner
# as the compute node geometry above. The I/O node geometry must
# be commensurate with the compute node geometry.
# For applications that support it, the I/O node geometry is specified
# by the macro FIX_IONODE_GEOM. Then the parameter input file
# includes a list of dimensions.
CGEOM +=# -DFIX_IONODE_GEOM
#------------------------------
# Improved staggered CG inverter and Dslash
# Applications: ks_imp_dyn ks_imp_rhmc ks_imp_invert_multi ks_hl_spectrum
# Note, some options still require editing Make_template
# Choices
# dslash_fn.o Overlaps computation with backward gathers.
# dslash_fn2.o Does all gathers before computation
# but has fewer FORALLSITES loops
# dslash_fn_dblstore.o Double store version of dslash_fn.o
# Supports GATHER13
# DBLSTORE_FN Copies backward links. Requires more memory.
# You must also call for dslash_fn_dblstore.o for now.
# D_FN_GATHER13 Combine third and next neighbor gathers in Dslash.
# For now, works only with dslash_fn_dblstore.o
# FEWSUMS Fewer CG reduction calls
# If we are using QUDA, the backward links are unused, so we should
# avoid unecessary overhead and use the standard dslash. Note that
# dslash_fn also has hooks in place to offload any dslash_fn_field
# calls to QUDA
ifeq ($(strip ${WANTQUDA}),true)
KSCGSTORE = -DFEWSUMS
else
KSCGSTORE = -DDBLSTORE_FN -DFEWSUMS -DD_FN_GATHER13
endif
#------------------------------
# Staggered fermion force routines
# Applications: ks_imp_dyn ks_imp_rhmc
# These are currently selected only by editing Make_template
# Choices
# fermion_force_asqtad.o Optimized for the Asqtad action
# fermion_force_general.o Takes any quark action
#------------------------------
# Prefetching
# Applications: all
# PREFETCH (Not working yet)
CPREFETCH = #
#------------------------------
# Multimass improved KS CG solvers
# Applications: ks_imp_rhmc ks_measure ks_spectrum
# Choices
# KS_MULTICG=OFFSET The basic multicg solver.
# KS_MULTICG=HYBRID Solve with multicg and polish off with single mass CG.
# KS_MULTICG=FAKE Iterate the single mass solver.
# KS_MULTICG=REVERSE Iterate in reverse order
# KS_MULTICG=REVHYB Same as HYBRID but with vectors in reverse order.
# NO_REFINE No refinements except for masses with nonzero Naik eps
# CPU_REFINE Refine on CPU only (if at all), not GPU
# PRIMME_PRECOND
# POLY_EIGEN
# MATVEC_PRECOND
# CHEBYSHEV_EIGEN
KSCGMULTI ?= -DKS_MULTICG=HYBRID # -DNO_REFINE # -DHALF_MIXED
#------------------------------
# Mixed precision
# enabled mixed-precision solvers for QUDA and GRID (if set, overrides HALF_MIXED and MAX_MIXED macros below)
WANT_MIXED_PRECISION ?= 2
WANT_MIXED_PRECISION_GPU ?= ${WANT_MIXED_PRECISION}
# HALF_MIXED (not QUDA or GRID) If PRECISION=2, do multimass solve in single precision
# and single-mass refinements in double
# HALF_MIXED (QUDA) If PRECISION=2, use double-single mixed-precision solvers
# MAX_MIXED (QUDA) Use double-half or single-half mixed-precision solvers
# (for multi-shift, behavior is as HALF_MIXED)
KSCGMIXED ?= #
ifeq ($(strip ${WANT_MIXED_PRECISION_GPU}),1)
CGPU += -DHALF_MIXED # use single precision where appropriate
else ifeq ($(strip ${WANT_MIXED_PRECISION_GPU}),2)
CGPU += -DMAX_MIXED # use half precision where appropriate
endif
#------------------------------
# Multi source types
# MULTISOURCE (deprecated)
# MULTICOLORSOURCE (deprecated)
KSSOURCE ?= #
#------------------------------
# Multifermion force routines
# Applications: ks_imp_rhmc
# Choices
# KS_MULTIFF=FNMAT Construct matrix parallel transporters
# and use with sum of outer products of sources
# KS_MULTIFF=FNMATREV Older version of FNMAT. Traverses path
# in reverse order
# KS_MULTIFF=ASVEC Use improved Asqtad, parallel transporting
# groups of source vectors. See VECLENGTH.
# Additional options
# VECLENGTH=n Number of source vectors to process in one group.
# Applies only to the ASVEC option