This is a bit of a hard problem to find out. Since I had spend sometime in a system to find this out and prove, let me list out the scenario where this happened
- We were stuck with using Java 6 , which did not have any compacting Garbage collector
- Our application was doing too much GC mostly young generation collection and some big old generation collecition
- Our heap-size was pretty big- main problem ( we reduced, but our application was guzzling on too many strings and collections)
The problem that manifested was that only one particular algorithm in our system was running slow; the rest all which were running at the same time, was running quite normally. This ruled out Full GC ; Also we were using jstat and other j** tools to check GC, thread dumps + tailing the GC logs.
From jstack thread dumps , taken for some time, we could get an idea which code block was really slowing. So the doubt fell to heap fragmentation.
To test that I wrote a simple program that initialized two List one ArrayList and one LinkedList and did add operations causing resize. This test I could execute via REST handle.
Normally there is not much difference. But inside a fragmented heap there is a clear difference seen in timing; a big collection resize with ArrayList becomes very slow than with Linked list. These timings were logged, and there were no other explanation to this than a fragmented head.
With Java 7, we shifted to G1GC, along with lot of work in GC tuning and improving applications; Here heap compaction is much better and it can handle bigger heaps, though I guess anything over 16 g heap will land you in places you don't really want to go- GC suckage :)