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As I'm doing a research on commonalities/differences of various mobile platforms, one of the aspects under investigation is memory management. As such, I'm interested in more detailed technical information on the various mechanisms.

In specific, e.g. which garbage collector type does Android use?
([Google Groups Discussion] suggests that it is using "tracing" mechanism - but I'd appreciate a "more official" source which I could possibly quote, plus hoping to find information there which implications the type could have on the programmer).

Also among my questions is in what way the GC in Android 3.0 (Honeycomb) has been tweaked specifically to utilize multiple processors?
[Android Devevelopers Guide] suggests that

Android 3.0 is the first version of the platform designed to run on either single or multicore processor architectures. A variety of changes in the Dalvik VM, Bionic library, and elsewhere add support for symmetric multiprocessing in multicore environments. These optimizations can benefit all applications, even those that are single-threaded. For example, with two active cores, a single-threaded application might still see a performance boost if the Dalvik garbage collector runs on the second core. The system will arrange for this automatically."

As before, I'd rather find a source with more technical information to read upon this. Again, what's the impact on the developer (other than the obvious that increased performance could be hoped for)?

Any such input is appreciated.


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1 Answer 1

To answer one of your questions, the Dalvik VM indeed does use a tracing garbage collector, using a Mark and Sweep approach.

According to The Dalvik Virtual Machine Architecture:

The current strategy in the Dalvik garbage collector is to keep mark bits, or the bits that indicate that a particular object is “reachable” and therefore should not be garbage collected, separate from other heap memory.

See also:

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I take it from your great links that "The main disadvantage of the mark-and-sweep approach is the fact that that normal program execution is suspended while the garbage collection algorithm runs. In particular, this can be a problem in a program that interacts with a human user or that must satisfy real-time execution constraints. For example, an interactive application that uses mark-and-sweep garbage collection becomes unresponsive periodically." Would be interesting to find technical details on how and to what extent Honeycomb's support for multiprocessors can mitigate this disadvantage!? –  vaiomike Feb 1 '11 at 11:09
So there's no copying involved whatsoever between heap spaces (e.g. from eden space to other spaces?) i.o.w. Android's GC does not use any form of generational/statistical collection strategies? –  Matthias Sep 5 '12 at 14:13
Looking at the source code, I see its marking white, black and grey, so it appears to be tri-color marking. –  Lucy Apr 17 '13 at 1:36

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