Hi I'm attempting to use ARMPL as the FFTW library and the BLAS library in CP2K for my Mac M1 Max Macbook Pro, but I'm having issues during the build. I keep getting the following error: ... "___kmpc_reduce_nowait", referenced from: __ZN5armplL13asum_parallelIfEENS_14remove_complexIT_E4typeExPKS2_xPFS4_xS6_xEi.omp_outlined in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelIfLb0EEENS_14remove_complexIT_E4typeEiPS2_ii.omp_outlined in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelIfLb0EEENS_14remove_complexIT_E4typeEiPS2_ii.omp_outlined.1 in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelIdEENS_14remove_complexIT_E4typeExPKS2_xPFS4_xS6_xEi.omp_outlined in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelIdLb0EEENS_14remove_complexIT_E4typeEiPS2_ii.omp_outlined in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelIdLb0EEENS_14remove_complexIT_E4typeEiPS2_ii.omp_outlined.2 in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) __ZN5armplL13asum_parallelINSt3__17complexIfEEEENS_14remove_complexIT_E4typeExPKS5_xPFS7_xS9_xEi.omp_outlined in libarmpl_lp64_mp.a[204](41979031_asum_apple_m1_flang-new_mp.o) ...ld: symbol(s) not found for architecture arm64collect2: error: ld returned 1 exit status
I do not know what I am doing wrong. I have copied the ssmp file I am using if anyone has any insights into what errors I am making. Any help would be greatly appreciated. Thanks.
#!/bin/bash # # CP2K Darwin arch file for a serial arm64 binary # (https://www.cp2k.org/howto:compile_on_macos) # # Tested with: GNU 13.2.0, FFTW 3.3.10, LIBINT 2.6.0, LIBVORI 220621, # LIBXC 6.2.2, OpenBLAS 0.3.26, SPGLIB 2.3.1, # LIBGRPP 20231215 # on an Apple M1 (macOS 14.2.1 Sonoma) # # Usage: Source this arch file and then run make as instructed. # Ensure the links in /usr/local/bin to the lastest gcc version. # # Last update: 19.03.2024 # # \ if [[ "${0}" == "${BASH_SOURCE}" ]]; then \ echo "ERROR: Script ${0##*/} must be sourced"; \ echo "Usage: source ${0##*/}"; \ exit 1; \ fi; \ this_file=${BASH_SOURCE##*/}; \ cd tools/toolchain; \ [[ -z "${target_cpu}" ]] && target_cpu="native"; \ if $(command -v brew >/dev/null 2>&1); then \ brew install cmake; \ brew install coreutils; \ brew install libxc; \ brew install pkg-config; \ brew install wget; \ else \ echo "ERROR: Homebrew installation not found"; \ echo ' Run: /bin/bash -c "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/HEAD/install.sh)"'; \ cd ../..; \ return 1; \ fi; \ ./install_cp2k_toolchain.sh -j${maxtasks} --mpi-mode=no --no-arch-files --target-cpu=${target_cpu} \ --with-cmake=$(brew --prefix cmake) --with-fftw=no --with-gcc=system \ --with-libxc=$(brew --prefix libxc) --with-libxsmm=no --with-openblas=no; \ source ./install/setup; \ cd ../..; \ echo; \ echo "Check the output above for error messages and consistency!"; \ echo; \ echo "If everything is OK, you can build a CP2K production binary with"; \ echo " make -j ARCH=${this_file%.*} VERSION=${this_file##*.}"; \ echo; \ echo "Alternatively, you can add further checks, e.g. for regression testing, with"; \ echo " make -j ARCH=${this_file%.*} VERSION=${this_file##*.} DO_CHECKS=yes"; \ echo; \ echo "Run always the following command before using the CP2K binary"; \ echo " source ${PWD}/tools/toolchain/install/setup"; \ echo; \ return # Set options DO_CHECKS := no TARGET_CPU := native USE_LIBGRPP := 20231215 USE_LIBINT := 2.6.0 USE_LIBVORI := 220621 USE_LIBXC := 6.2.2 USE_SPGLIB := 2.3.1 LMAX := 5 MAX_CONTR := 4 CC := gcc CXX := g++ FC := gfortran LD := gfortran AR := ar -r -s CFLAGS := -O2 -fopenmp -fopenmp-simd -ftree-vectorize -funroll-loops -g -mtune=$(TARGET_CPU) DFLAGS += -D__MAX_CONTR=$(strip $(MAX_CONTR)) DFLAGS += -D__NO_STATM_ACCESS INSTALL_PATH := $(PWD)/tools/toolchain/install # Settings for regression testing ifeq ($(DO_CHECKS), yes) DFLAGS += -D__CHECK_DIAG FCFLAGS_DEBUG := -fcheck=bounds,do,recursion,pointer FCFLAGS_DEBUG += -fcheck=all,no-array-temps # FCFLAGS_DEBUG += -ffpe-trap=invalid,overflow,zero FCFLAGS_DEBUG += -fimplicit-none FCFLAGS_DEBUG += -finit-derived FCFLAGS_DEBUG += -finit-real=snan FCFLAGS_DEBUG += -finit-integer=-42 FCFLAGS_DEBUG += -finline-matmul-limit=0 WFLAGS := -Werror=aliasing WFLAGS += -Werror=ampersand WFLAGS += -Werror=c-binding-type WFLAGS += -Werror=conversion WFLAGS += -Werror=intrinsic-shadow WFLAGS += -Werror=intrinsics-std WFLAGS += -Werror=line-truncation WFLAGS += -Wrealloc-lhs WFLAGS += -Werror=tabs WFLAGS += -Werror=target-lifetime WFLAGS += -Werror=underflow WFLAGS += -Werror=unused-but-set-variable WFLAGS += -Werror=unused-dummy-argument WFLAGS += -Werror=unused-variable endif ifneq ($(USE_LIBVORI),) USE_LIBVORI := $(strip $(USE_LIBVORI)) LIBVORI_LIB := $(INSTALL_PATH)/libvori-$(USE_LIBVORI)/lib DFLAGS += -D__LIBVORI LIBS += $(LIBVORI_LIB)/libvori.a endif LIBXC_HOME := $(shell brew --prefix libxc) CFLAGS += -I$(LIBXC_HOME)/include DFLAGS += -D__LIBXC LIBS += -Wl,-rpath,$(LIBXC_HOME)/lib -L$(LIBXC_HOME)/lib -lxcf03 -lxc ifneq ($(USE_LIBGRPP),) USE_LIBGRPP := $(strip $(USE_LIBGRPP)) LIBGRPP_INC := $(INSTALL_PATH)/libgrpp-main-$(USE_LIBGRPP)/include LIBGRPP_LIB := $(INSTALL_PATH)/libgrpp-main-$(USE_LIBGRPP)/lib CFLAGS += -I$(LIBGRPP_INC) DFLAGS += -D__LIBGRPP LIBS += $(LIBGRPP_LIB)/liblibgrpp.a endif ifneq ($(USE_LIBINT),) USE_LIBINT := $(strip $(USE_LIBINT)) LMAX := $(strip $(LMAX)) LIBINT_INC := $(INSTALL_PATH)/libint-v$(USE_LIBINT)-cp2k-lmax-$(LMAX)/include LIBINT_LIB := $(INSTALL_PATH)/libint-v$(USE_LIBINT)-cp2k-lmax-$(LMAX)/lib CFLAGS += -I$(LIBINT_INC) DFLAGS += -D__LIBINT LIBS += $(LIBINT_LIB)/libint2.a LIBS += $(LIBINT_LIB)/libint2.a endif ifneq ($(USE_SPGLIB),) USE_SPGLIB := $(strip $(USE_SPGLIB)) SPGLIB_INC := $(INSTALL_PATH)/spglib-$(USE_SPGLIB)/include SPGLIB_LIB := $(INSTALL_PATH)/spglib-$(USE_SPGLIB)/lib CFLAGS += -I$(SPGLIB_INC) DFLAGS += -D__SPGLIB LIBS += $(SPGLIB_LIB)/libsymspg.a endif FFTW_HOME := /opt/arm/armpl_23.10_flang-new_clang_17 CFLAGS += -I$(FFTW_HOME)/include_lp64_mp DFLAGS += -D__FFTW3 LIBS += $(FFTW_HOME)/lib/libarmpl_lp64_mp.a LIBS += $(FFTW_HOME)/lib/libarmpl_lp64.a OPENBLAS_HOME := /opt/arm/armpl_23.10_flang-new_clang_17 CFLAGS += -I$(OPENBLAS_HOME)/include_lp64_mp LIBS += $(OPENBLAS_HOME)/lib/libarmpl_lp64.a CFLAGS += $(DFLAGS) FCFLAGS := $(CFLAGS) $(FCFLAGS_DEBUG) $(WFLAGS) FCFLAGS += -fallow-argument-mismatch FCFLAGS += -fbacktrace FCFLAGS += -ffree-form FCFLAGS += -ffree-line-length-none FCFLAGS += -fno-omit-frame-pointer FCFLAGS += -std=f2008 LDFLAGS += $(FCFLAGS) LIBS += -ldl -lstdc++ # End
Hi Chris; I may have determined an issue. It looks like CP2K doesn't support LLVM as a compiler, and since I cannot use GCC for ARMPL on MacOS, I may be stuck at an impasse. I will investigate whether using MiMiC would be more convenient for me on an Apple silicon machine, but for now it looks like CP2K isn't feasible. Thanks for the suggestions and help!
Hi.
I know this doesn't help you answer the ArmPL side of the question, but if you want CP2K on your Mac the best method is probably to follow these instructions:
https://www.cp2k.org/howto:compile_on_macos/
I managed to easily get one of their test cases running, following the "brew install" method.
You're right that today CP2K is very much GCC-centric. To date we haven't had previous interest in a GCC version of ArmPL on macOS, but that doesn't mean it won't happen in future. After all, multiple compilers are supported on Linux (GCC, ACfL/LLVM and NVHPC) and Windows (MSVC and LLVM).
Thanks again for trying.
Hi again.
I've done a bit more investigation, and it looks like the "fix" to get ArmPL working with GCC/gfortran on macOS is relatively simple. You just need to add "-lc++" to the end of your link line.
I've followed the full build instructions for CP2K on the page mentioned above, and have ended up shoehorning ArmPL into the generated arch/Darwin-gnu-arm64.ssmp file to replace libfftw3 and libopenblas sections with the following:
ARMPL_HOME := /opt/arm/armpl_24.04_flang-new_clang_18/LIBS += $(ARMPL_HOME)/lib/libarmpl_lp64.a $(ARMPL_HOME)/lib/libFortranDecimal.a $(ARMPL_HOME)/lib/libFortranRuntime.a -lc++ This seems to work for me. Obviously, this isn't a tried a tested solution, but it probably helps in many cases.
Doing builds using our parallel version this is definitely a bad thing to try, as it would have both libomp and libgomp included, but if you are happy not using OpenMP in the library then this solution should be OK.
Chris
Thanks for the suggestion, Chris! I will try this solution when I get a chance and let you know how it turns out.
I have a slight update. It turns out that flang-new for me wasn't properly compiling OpenMP code, which definitely explains my error when trying to compile CP2K. There seems to be a bug in LLVM when installing Flang as a standalone compiler where it doesn not properly install the omp files correctly. I'm currently working with the devs at LLVM to get it fixed. When I'm able to properly compile OpenMP code with Flang, I'll let you know the results of the CP2K compile.