Page tree
Skip to end of metadata
Go to start of metadata

Finding memory problems in code can be a difficult task but there are tools available on the National Facility machines to make it possible. Memory errors can arise in many ways such as referencing arrays out of their declared bounds, failing to allocate dynamic arrays, attempting to free memory that cannot be freed or memory leaks leading to an increase in the memory requirements of the running program.

  • Debuggers such as idb and gdb can be used to pinpoint lines where segmentation violations occur. However this may not be the actual point at which the error occured. The difficulty with memory problems is that the error may be reported some time after the incorrect line of code. This requires that the code is compiled with the -g option.
  • For Fortran code it is always worth compiling with the option -check bounds to pinpoint any array subscript or substring references that are out of declared bounds at runtime.
  • Electric Fence can be used to detect errors in C code where the boundaries of a malloc() are overrun or where there is an attempt to touch a memory allocation that has already been freed. Although the Electric Fence documentation will say that it can be used to debug MPI codes this does not work on the AC. It appears that the start-up procedure for the executable linked with -lefence invokes some memory allocations that interfere with the SGI mpirun start-up. Code must be linked with the libefence.a library before being executed.
  • Valgrind is part of the system software on raijin and is very useful for both Fortran and C code. It does not require linking to a library but simply enter

    valgrind ./a.out

    The Valgrind tool Memcheck checks all reads and writes of memory and calls to malloc/new/free/delete are intercepted.

  • Mudflap is part of the more recent versions of gcc/g++. To use mudflap you need to do at least

    module load gcc/4.0.1
    gcc prog.c -fmudflap -lmudflap

    The environment variable MUDFLAP_OPTIONS can be used to control the output from mudflap. See for more details.

  • Totalview is installed on the AC and it can be used to debug sequential, MPI or OpenMP programs written in C, C++ or Fortran. In order to use the memory debugging tools of Totalview you need to recompile your code as follows

    module load totalview
    ifort -g prog.f -L$TVLIB -ltvheap
    icc -g prog.c -L$TVLIB -ltvheap

    Then start up Totalview and click on Tools -> Memory Debugging. 
    Under the Configuration tab make sure that “enable Memory Debugging” is chosen and click on any of the options that you wish to investigate.
    Run the code to the point where a memory error occurs. Say, for example, that this is a segmentation violation and the code stops. Then click on the “Heap Status” tab and highlight the process you want to look at in the left hand column. 
    You can chose to look at the Source View, Backtrace View, Graphical View or Corrupted Guard Blocks by making the relevant choice on the lower left hand side and clinking “Generate View”. 
    To find the line where a memory error is occuring, one method is to generate the Graphical View then chose the “Backtrace/Source” tab and double click on lines in the Backtrace window. 
    You may need to extend the size of the window to see all the details.

  • Intel Inspector,
  • DrMemory,
  • GNU mtrace,