I am running on Unity's Boehm–Demers–Weiser garbage collector, which is a non-generational GC.
I have a large tree of managed objects in memory (~100k objects, ~200MiB allocation).
These objects are essentially a cache and never go out of scope, so they never actually get sweeped by the GC.
However, because Boehm is non-generational, this stale cache never gets moved up to higher generations. This causes the mark phase to take a very high amount of processing time, as it has to traverse this whole cache on every collection, causing noticeable lag spikes.
This is "by-design", as the Unity documentation puts it:
Crucially, Unity’s garbage collection – which uses the Boehm GC algorithm – is non-generational and non-compacting. “Non-generational” means that the GC must sweep through the entire heap when performing a collection pass, and its performance therefore degrades as the heap expands.
I am well aware of approaches to reduce recurring garbage allocation, however I cannot find any information on how to optimize a large, stale, baseline allocation in a non-generational GC.
- Is there any way to mark a root pointer (e.g. static field) as ignored from GC entirely?
- Are there some data structure patterns that are faster to traverse in the mark phase?
- Conversely, are there known data structure patterns that hinder the mark phase speed?
These questions are just some of my hypotheses to solve this, but I'm open to all suggestions.