My small stress test, which allocates random length arrays (100..200MB each) in a loop, shows different behaviour on a 64 bit Win7 machine and on a 32 bit XP (in a VM). Both systems first normally allocate as much arrays as will fit into the LOH. Then the LOH gets bigger and bigger until the virtual address space available is filled up. Expected behaviour so far. But than - on further requests - both behave differently:
While on Win7 an OutOfMemoryException (OOM) is thrown, on XP it seems, the heap gets increased and even swapped to disk - at least no OOM is thrown. (Dont know, if this may have to do with XP running in a virtual box.)
Question: How does the runtime (or the OS?) decide, whether for managed memory allocation requests, if it is too large to get allocated, a OOM is generated or the large object heap is getting increased - eventually even swapped to disk? If it is swapped, when does an OOM occour than?
IMO this question is important to all production environments, potentially dealing with larger datasets. Somehow it feels more "safe" to know, the system would rather slow down dramatically in such situations (by swapping) than simply throwing an OOM. At least, it should somehow be deterministically, right?
@Edit: the app is a 32 bit application, therefore running in 32 bit mode on Win 7.