/fc_malloc

Super Fast, Lock-Free, Wait-Free, CAS-free, thread-safe, memory allocator.

Primary LanguageC++

fc_malloc

Super Fast, Lock-Free, Wait-Free, CAS-free, thread-safe, memory allocator.

Design

The key to developing fast multi-threaded allocators is eliminating lock-contention and false sharing. Even simple atomic operations and spin-locks can destroy the performance of an allocation system. The real challenge is that the heap is a multi-producer, multi-consumer resource where all threads need to read and write the common memory pool.

With fc_malloc I borrowed design principles from the LMAX disruptor and assigned a dedicated thread for moving free blocks from all of the other threads to the shared pool. This makes all threads 'single producers' of free blocks and therefore it is possible to have a lock-free, wait-free per-thread free list. This also makes a single producer of 'free blocks' which means that blocks can be aquired with a single-producer, multiple consumer pattern.

When there is a need for more memory and existing free-lists are not sufficent, each thread maps its own range from the OS in 4 MB chunks. Allocating from this 'cache miss' is not much slower than allocating stack space and requires no contention. Requests for larger than 4MB are allocated direclty from the OS via mmap.

Initial Benchmarks

Testing memory allocation systems can be very difficulty and 'artificial tests', are not always the most accurate predictors of real world performance, but I sought to develop a test that would stress the allocation system, particularlly in multi-threaded environments.

The test I came up with creates 1 array per thread containing space for 500K allocations. I then assigned each thread the job of randomly allocating empty slots in 1 array and randomly deallocating random slots in another array. The result is a 'random' set of producer-consumer threads.

Each allocation was 128 bytes. Future versions of this benchmark will include random sizes as well.

Benchmark glibc jemalloc fc_malloc
Random Single Threaded 5.8s 4.5s 2.6s
Random Multi Threaded (10) 18.2s 13.6s 6.8s
Threads fcalloc (s) jemalloc(s) fcram(MB) jeram(mb)
1 4.8 9.7 97 84.3
2 5.9 14.8 120 104
3 6.5 16.8 145 123
4 7 18 167 142
5 8 18.9 185.5 160
6 8.7 20.3 214.3 189
7 9.9 22.9 238 212
8 11.4 25.2 257 224
9 12.5 26.1 278 244
10 12.9 27.9 308 270

As you can see from the results fc_malloc is over 2x faster than the stock malloc even for single threaded cases. For multi-threaded cases it is 2.6x faster than the stock allocator. The real test though is the comparison to jemalloc which is generally considered one of the highest performing alternative allocators available. Here fc_malloc is still 2x faster in the multi-threaded test.