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I want to know technical details about Garbage collection and memory management in Erlang.

But, I cannot find it in and its documents.

Some articles online are only general talk without touching details, such as what Garbage collection algorithm is used, what is performance overhead , memory allocation is also like heap in C ?

Can anyone recommend better docs to study ?


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3 Answers 3

up vote 8 down vote accepted

A reference paper for the algorithm: One Pass Real-Time Generational Mark-Sweep Garbage Collection (1995) by Joe Armstrong and Robert Virding in 1995 (at CiteSeerX)

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I don't know your background, but apart from the paper already pointed out by jj1bdx you can also give a chance to Jesper Wilhelmsson thesis.

BTW, if you want to monitor memory usage in Erlang to compare it to e.g. C++ you can check out:

Hope this helps!

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Erlang has a few properties that make GC actually pretty easy.

1 - Every variable is immutable, so a variable can never point to a value that was created after it.

2 - Values are copied between Erlang processes, so the memory referenced in a process is almost always completely isolated.

Both of these (especially the latter) significantly limit the amount of the heap that the GC has to scan during a collection.

Erlang uses a copying GC. During a GC, the process is stopped then the live pointers are copied from the from-space to the to-space. I forget the exact percentages, but the heap will be increased if something like only 25% of the heap can be collected during a collection, and it will be decreased if 75% of the process heap can be collected. A collection is triggered when a process's heap becomes full.

The only exception is when it comes to large values that are sent to another process. These will be copied into a shared space and are reference counted. When a reference to a shared object is collected the count is decreased, when that count is 0 the object is freed. No attempts are made to handle fragmentation in the shared heap.

One interesting consequence of this is, for a shared object, the size of the shared object does not contribute to the calculated size of a process's heap, only the size of the reference does. That means, if you have a lot of large shared objects, your VM could run out of memory before a GC is triggered.

Most if this is taken from the talk Jesper Wilhelmsson gave at EUC2012.

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