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I wrote a ~2300 line fortran program for my research. For a long time, I compiled it with gfortran's -O3 optimization flag. Although it worked well at the time, at some point certain simulations started producing bad results. I finally tracked the problem down to the O3 flag. I've seen advice to avoid using O3, so I'm fine avoiding it.

However, I still have some issues.

While the O0 and O2 optimization settings produce good results, the O1 option causes problems similar to the O3 setting.

When I compile the code with O1, I get a warning that a variable may be uninitialized (-Wmaybe-uninitialized). I'm sure the variable will be initialized. I don't get that warning with O0, O2, or O3; I used -Wall for all of them.

I'm looking for any advice on what to do. Are there any common culprits for this behaviour?

Unfortunately, it's not easy for me to say exactly what's going wrong. (Describing the symptoms in the simulations' results probably wouldn't be useful since it would take some time to explain what the simulation does.) I have only one guess. The code is a monte carlo simulation, so it uses lots of random numbers. Wrongly distributed or correlated "random" numbers could explain the symptoms.

The problem with O1 really concerns me. It's a big speedup over O0, but the problems with O1 make me hesitant to use O2.

The sourcecode is large enough that I don't see an easy way to pinpoint the problem, so I'd like to avoid searching for a needle in that haystack. (Although I've already excluded ~2/3 of the haystack.)

FWIW, I'm using gfortran 4.8.1 under Ubuntu, but gfortran 4.4.6 on Red Hat seems to have similar problems.


EDIT: I've tracked the problem down to one bit of code (relevant variable definitions are at the bottom and comments are removed for brevity):

if(rnum() <= specP)then
  ph%q(crossingType) = -1.0 * ph%q(crossingType)
else
  theta = dasin(dsqrt(rnum()))
  phi = 2*pi*rnum()

  newDir(crossingType) = dcos(theta)
  if(vel(crossingType) > 0) then
    newDir(crossingType) = -1.0 * newDir(crossingType)
  endif

  select case(crossingType)
    case(1)
      newDir(2) = dsin(theta)*dcos(phi)
      newDir(3) = dsin(theta)*dsin(phi)
    case(2)
      newDir(3) = dsin(theta)*dcos(phi)
      newDir(1) = dsin(theta)*dsin(phi)
    case(3)
      newDir(1) = dsin(theta)*dcos(phi)
      newDir(2) = dsin(theta)*dsin(phi)
    case default
      print *, 'ERROR!'
      read(*,*)
  end select

  ph%q = norm2(ph%q)*newDir
endif

If I set specP to 1.0, then the first part of the if statement always executes. Everything is fine for both the O0 and O3 optimization settings.

if I set specP to 0.0, the second part of the if statement always executes. The simulation works correctly with O0 but fails with O3.

If I replace the whole if statement with ph%q(crossingType) = -1.0 * ph%q(crossingType), then everything works as expected for both the O0 and O3 optimization settings; the problem isn't from specP being used elsewhere in the program.

Does anything look fishy with that code?

I've tried various things, but nothing has helped. (E.g. newDir = 0. I initially had something shorter instead of the case statement, but I moved to the case statement for brevity.)

Relevant variable definitions:

real*8, parameter     :: pi = 3.141592654D0
real*8                :: theta, phi, specP
real*8, dimension(3)  :: newDir
integer               :: crossingType ! has a value of 1, 2, or 3
type(phonon)      :: ph

Additionally:

type phonon
  real*8, dimension(3) :: q
  blah...
end type phonon

and

function rnum() !returns a random number in [0,1]
  implicit none
  real*8 :: rnum
  call random_number(rnum)
endfunction
  • 1
    What you write are the typical symptoms of a bug due to accessing uninitialized variables or some memory corruption. Instead of hiding the bug by playing with the optimization flags, I suggest you try to find the bug and fix it. I don't know gfortran but starting from gcc 4.8, address sanitizer is available. See here usage. Also, please try to check if all variables are indeed initialized, see compiler options for that. – Ali Feb 10 '14 at 22:42
  • Thanks for the info; I'll dig some more. – lnmaurer Feb 11 '14 at 2:53
  • I'm compiling it with the following command, but I'm not seeing anything. From looking at the simulation results, I know that the bug should rear its head almostimmediatly. f95 -Wall -Wtabs -ffree-line-length-none -O3 -o pmc -march=native -finit-real=nan -ffpe-trap=invalid,zero -fsanitize=address -g -fno-omit-frame-pointer ...files and libraries – lnmaurer Feb 11 '14 at 3:15
  • Adding -finit-integer=0 -finit-logical=false doesn't fix anything either. – lnmaurer Feb 11 '14 at 3:40
  • OK, please try these two: -O0 -finit-real=nan -finit-integer=-1000000 -finit-logical=true -ffpe-trap=invalid,zero,overflow -fbounds-check -ftrapv -fno-fast-math -g -fno-omit-frame-pointer and separately -O0 -ffpe-trap=invalid,zero,overflow -ftrapv -fno-fast-math -fsanitize=address -g -fno-omit-frame-pointer and compare the results to those good results that you have obtained previously with -O0 only. The point in -finit-* is to set the values obviously wrong. Some of the flags might conflict with the new -fsanitize=address so I split them into two that hopefully don't conflict. – Ali Feb 11 '14 at 11:35

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