A MPI-parallel Fortran 2008 code is crashing with floating-point exceptions when compiled with the gfortran -ffpe-trap flag.

Let's consider the following MWE Fortran program:

program mwe
  use mpi_f08
  integer :: ierror
  call MPI_Init(ierror)
  print*,"MPI_Init returned", ierror
end program

saved as mwe.F90, and accompanied by the CMake configuration

cmake_minimum_required(VERSION 3.16)

    DESCRIPTION "Minimal Working Example for Fortran MPI with SIGFPE safeguards"
    LANGUAGES Fortran)

find_package(MPI COMPONENTS Fortran REQUIRED)
string(APPEND CMAKE_Fortran_FLAGS " -ffpe-trap=invalid,zero,overflow")

set(exec "mwe")
add_executable(${exec} ${exec}.F90)
target_link_libraries(${exec} ${MPI_Fortran_LIBRARIES})

target_include_directories(${exec} PRIVATE ${MPI_Fortran_MODULE_DIR})

Note the -ffpe-trap compiler flag. Usage of this flag is recommended by the gfortran man page:

      Specify a list of floating point exception traps to enable.  On most systems, if a
      floating point exception occurs and the trap for that exception is enabled, a SIGFPE
      signal will be sent and the program being aborted, producing a core file useful for
      The first three exceptions (invalid, zero, and overflow) often indicate serious errors,
      and unless the program has provisions for dealing with these exceptions, enabling traps
      for these three exceptions is probably a good idea.

Machine 1 (personal PC): gfortran 10.3.0, Open MPI 4.0.3

Compilation of the code works. Running the code with mpiexec -np <N> with N=1..4 works. Running with N>4, or running the code without mpiexec does not work, but produces this error:

$ ./mwe

Program received signal SIGFPE: Floating-point exception - erroneous arithmetic operation.

Backtrace for this error:
#0  0x7ff5f4673d21 in ???
#1  0x7ff5f4672ef5 in ???
#2  0x7ff5f44a408f in ???
    at /build/glibc-SzIz7B/glibc-2.31/signal/../sysdeps/unix/sysv/linux/x86_64/sigaction.c:0
#3  0x7ff5f1f565d3 in ???
#4  0x7ff5f1f0f402 in ???
#5  0x7ff5f1eecf9e in ???
#6  0x7ff5f245c465 in ???
#7  0x7ff5f3f67020 in ???
#8  0x7ff5f3f5a478 in ???
#9  0x7ff5f40e8fcf in ???
#10  0x7ff5f3feae54 in ???
#11  0x7ff5f3e7eef2 in ???
#12  0x7ff5f40212fb in ???
#13  0x7ff5f43af322 in ???
#14  0x7ff5f4353072 in ???
#15  0x7ff5f444aa4b in ???
#16  0x7ff5f4937901 in ???
#17  0x557cd23a41df in ???
#18  0x557cd23a43ce in ???
#19  0x7ff5f4485082 in __libc_start_main
    at ../csu/libc-start.c:308
#20  0x557cd23a410d in ???
#21  0xffffffffffffffff in ???
Floating point exception

Machine 2 (HPC cluster): gfortran 12.2.0, Open MPI 4.1.4, Slurm 22.05.6

Compilation of the code works. Running the code with or without mpiexec works for all N. Submitting into a Slurm queue reproduces above SIGFPE:

$ ./mwe
 MPI_Init returned           0
$ srun ./mwe
srun: job ... queued and waiting for resources
srun: job ... has been allocated resources

Program received signal SIGFPE: Floating-point exception - erroneous arithmetic operation.

Backtrace for this error:
#0  0x152893b5451f in ???
        at ./signal/../sysdeps/unix/sysv/linux/x86_64/libc_sigaction.c:0
#1  0x152892295723 in ???
#2  0x15289226da4e in ???
#3  0x1528924340c5 in ???
#4  0x152893315992 in ???
#5  0x1528933013d8 in ???
#6  0x15289387d164 in ???
#7  0x15289395e0e6 in ???
#8  0x152893963165 in ???
#9  0x1528939d63bd in ???
#10  0x1528943f98f5 in ???
#11  0x152894225d6c in ???
#12  0x1528945026c7 in ???
#13  0x15289454aa5c in ???
#14  0x4011cc in ???
#15  0x4013aa in ???
#16  0x152893b3bd8f in __libc_start_call_main
        at ../sysdeps/nptl/libc_start_call_main.h:58
#17  0x152893b3be3f in __libc_start_main_impl
        at ../csu/libc-start.c:392
#18  0x4010f4 in ???
#19  0xffffffffffffffff in ???
srun: error: worker_node: task 0: Floating point exception

In all failing cases, the usage of -ffpe-trap=overflow is not a problem, but adding either of -ffpe-trap=invalid or -ffpe-trap=zero triggers the SIGFPE.

Expected behavior: I would like to avoid that the very first MPI command, MPI_Init would already trigger the floating-point exception safeguards of compilers. Since I have no control over the contents of the MPI infrastructure*, this renders the -ffpe-trap flags useless for MPI-parallel code.

*: Just my guess, that the root cause is either somewhere in Open MPI, or that this are multiple bugs that emerged multiple times in different codes (Open MPI, Slurm; the role of the compiler and system libraries is unclear to me).

  • Is the OpenMPI compiled for that particular version of GCC (gfortran)? Does the mpiexec come from the same version OpenMPI (not just the version number, also the compiler) as the OpenMPI used for compiling? Jun 20, 2023 at 13:59
  • Also, what is the exact mpif90 or equivalent command that the CMake issues? Run your make in verbose. E.g., make VERBOSE=1 bytefreaks.net/programming-2/make-building-with-cmake-verbose Jun 20, 2023 at 14:01
  • Or really just build your test code on the command line using mpif90 directly and avoid CMake completely. It seems to be an unnecessary layer that obscures stuff. Jun 20, 2023 at 14:04
  • I can positively say that the MWE and Open MPI were compiled with the same gfortran on the cluster. For my PC, I have to rely that the OS packagers (Ubuntu) haven't messed up. Jun 20, 2023 at 14:11
  • with X* being path specs in the local file system, the call is /X1/gcc-12.2.0/gcc-12.2.0-X2/bin/gfortran -ffpe-trap=invalid,zero,overflow CMakeFiles/mwe.dir/mwe.F90.o -o mwe -Wl,-rpath,/X1/gcc-12.2.0/openmpi-4.1.4-X3/lib /X1/gcc-12.2.0/openmpi-4.1.4-X3/lib/libmpi_usempif08.so /X1/gcc-12.2.0/openmpi-4.1.4-X3/lib/libmpi_usempi_ignore_tkr.so /X1/gcc-12.2.0/openmpi-4.1.4-X3/lib/libmpi_mpifh.so /X1/gcc-12.2.0/openmpi-4.1.4-X3/lib/libmpi.so Jun 20, 2023 at 14:16


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