It depends on your configurations, since HotSpot configures itself differently in different Java environments. For example, in a server with more than 2GB and two processors some JVMs will be configured in '-server' mode instead of the default '-client' mode, which configure the sizes of the memory spaces (generations) differently, and that has an impact as to when garbage collection will occur.
A full GC can occur automatically, but also if you call the garbage collector in your code (ex: using
System.gc()). Automatically, it depends on how the minor collections are behaving.
There are at least two algorithms being used. If you are using defaults, a copying algorithm is used for minor collections, and a mark-sweep algorithm for major collections.
A copying algorithm consists of copying used memory from one block to another, and then clearing the space containing the blocks with no references to them. The copying algorithm in the JVM uses uses a large area for objects that are created for the first time (called
Eden), and two smaller ones (called
survivors). Surviving objects are copied once from
Eden and several times from the
survivor spaces during each minor collection until they become tenured and are copied to another space (called
tenured space) where they can only be removed in a major collection.
Most of the objects in
Eden die quickly, so the first collection copies the surviving objects to the survivor spaces (which are by default much smaller). There are two survivors
s2. Every time the
Eden fills, the surviving objects from
s1 are copied to
s1 are cleared. Next time, survivors from
s2 are copied back to
s1. They keep on being copied from
s1 until a certain number of copies is reached, or because a block is too big and doesn't fit, or some other criteria. Then the surviving memory block is copied to the
tenured objects are not affected by the minor collections. They accumulate until the area gets full (or the garbage collector is called). Then the JVM will run a mark-sweep algorithm in a major collection which will preserve only the surviving objects that still have references.
If you have larger objects that don't fit into the survivors, they might be copied directly to the
tenured space, which will fill more quickly and you will get major collections more frequently.
Also, the sizes of the survivor spaces, amount of copies between
Eden size related to the size of
s2, size of the tenured generation, all these may be automatically configured differently in different environments with JVM ergonomics, which may automatically select a
-client behavior. You might try to run both JVMs as
-client and check if they still behave differently.