I have an application that has multiple threads processing work from a todo queue. I have no influence over what gets into the queue and in what order (it is fed externally by the user). A single work item from the queue may take anywhere between a couple of seconds to several hours of runtime and should not be interrupted while processing. Also, a single work item may consume between a couple of megabytes to around 2GBs of memory. The memory consumption is my problem. I'm running as a 64bit process on a 8GB machine with 8 parallel threads. If each of them hits a worst case work item at the same time I run out of memory. I'm wondering about the best way to work around this.
- plan conservatively and run 4 threads only. The worst case shouldn't be a problem anymore, but we waste a lot of parallelism, making the average case a lot slower.
- make each thread check available memory (or rather total allocated memory by all threads) before starting with a new item. Only start when more than 2GB memory are left. Recheck periodically, hoping that other threads will finish their memory hogs and we may start eventually.
- try to predict how much memory items from the queue will need (hard) and plan accordingly. We could reorder the queue (overriding user choice) or simply adjust the number of running worker threads.
- more ideas?
I'm currently tending towards number 2 because it seems simple to implement and solve most cases. However, I'm still wondering what standard ways of handling situations like this exist? The operating system must do something very similar on a process level after all...