We've been having some weird crashes in some Intel FORTRAN code, and I eventually tracked the line down to:
L_F = EXP(-L_B2*L_BETASQ*L_DS)
Where the -L_B2*L_BETASQ*L_DS term evaluated to approximately -230. As it happens, EXP(-230) evaluates to about 1e-100. In all other known cases, L_DS is much smaller, resulting in the smallest (known) return from EXP being about 1e-50, which does not cause an error.
As soon as FORTRAN evaluates the clause EXP(-230), you get:
forrtl: severe (157): Program Exception - access violation Image PC Routine Line Source
But no other information.
Exception 157 is generally concerned with interoperability, and you cannot debug into EXP in FORTRAN as it cannot find a particular .c file - which presumably means that EXP is implemented in C (which I find surprising).
My hypothesis is that FORTRAN has implemented EXP in C, but the interface cannot translate floats which are smaller than 1e-100 into REAL(4)s. As I had previously believed floats and REAL(4)s to be byte-wise identical, I cannot back this hypothesis up - and I cannot find anything anywhere about it.
Before I close this bug down, can anyone confirm or deny my hypothesis - or provide me with another?
EDIT: I'm going to mark this question as answered, as High Performance Mark has answered the immediate question.
My hypothesis is unfortunately incorrect - I've tried to trap the problem doing this:
L_ARG = L_B2*L_BETASQ*L_DS IF (L_ARG .GT. 230.0) THEN L_F = 0.0 ELSE L_F = EXP(-L_ARG) ENDIF
Unfortunately, the exception now (apparently) occurs in the L_ARG .GT. 230.0 clause. This either means that the debugging in Release mode is worse than I thought, or it's some sort of 'stored up' floating point error (see "Floating-point invalid operation" when inputting float to a stringstream).