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29007b1b88
* update bun libraries to v1.2.5 * pin old v1.29.0 of otel
134 lines
7 KiB
Markdown
134 lines
7 KiB
Markdown
# xsync benchmarks
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If you're interested in `MapOf` comparison with some of the popular concurrent hash maps written in Go, check [this](https://github.com/cornelk/hashmap/pull/70) and [this](https://github.com/alphadose/haxmap/pull/22) PRs.
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The below results were obtained for xsync v2.3.1 on a c6g.metal EC2 instance (64 CPU, 128GB RAM) running Linux and Go 1.19.3. I'd like to thank [@felixge](https://github.com/felixge) who kindly ran the benchmarks.
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The following commands were used to run the benchmarks:
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```bash
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$ go test -run='^$' -cpu=1,2,4,8,16,32,64 -bench . -count=30 -timeout=0 | tee bench.txt
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$ benchstat bench.txt | tee benchstat.txt
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```
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The below sections contain some of the results. Refer to [this gist](https://gist.github.com/puzpuzpuz/e62e38e06feadecfdc823c0f941ece0b) for the complete output.
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Please note that `MapOf` got a number of optimizations since v2.3.1, so the current result is likely to be different.
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### Counter vs. atomic int64
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```
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name time/op
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Counter 27.3ns ± 1%
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Counter-2 27.2ns ±11%
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Counter-4 15.3ns ± 8%
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Counter-8 7.43ns ± 7%
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Counter-16 3.70ns ±10%
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Counter-32 1.77ns ± 3%
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Counter-64 0.96ns ±10%
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AtomicInt64 7.60ns ± 0%
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AtomicInt64-2 12.6ns ±13%
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AtomicInt64-4 13.5ns ±14%
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AtomicInt64-8 12.7ns ± 9%
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AtomicInt64-16 12.8ns ± 8%
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AtomicInt64-32 13.0ns ± 6%
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AtomicInt64-64 12.9ns ± 7%
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```
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Here `time/op` stands for average time spent on operation. If you divide `10^9` by the result in nanoseconds per operation, you'd get the throughput in operations per second. Thus, the ideal theoretical scalability of a concurrent data structure implies that the reported `time/op` decreases proportionally with the increased number of CPU cores. On the contrary, if the measured time per operation increases when run on more cores, it means performance degradation.
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### MapOf vs. sync.Map
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1,000 `[int, int]` entries with a warm-up, 100% Loads:
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```
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IntegerMapOf_WarmUp/reads=100% 24.0ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-2 12.0ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-4 6.02ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-8 3.01ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-16 1.50ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-32 0.75ns ± 0%
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IntegerMapOf_WarmUp/reads=100%-64 0.38ns ± 0%
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IntegerMapStandard_WarmUp/reads=100% 55.3ns ± 0%
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IntegerMapStandard_WarmUp/reads=100%-2 27.6ns ± 0%
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IntegerMapStandard_WarmUp/reads=100%-4 16.1ns ± 3%
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IntegerMapStandard_WarmUp/reads=100%-8 8.35ns ± 7%
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IntegerMapStandard_WarmUp/reads=100%-16 4.24ns ± 7%
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IntegerMapStandard_WarmUp/reads=100%-32 2.18ns ± 6%
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IntegerMapStandard_WarmUp/reads=100%-64 1.11ns ± 3%
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```
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1,000 `[int, int]` entries with a warm-up, 99% Loads, 0.5% Stores, 0.5% Deletes:
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```
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IntegerMapOf_WarmUp/reads=99% 31.0ns ± 0%
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IntegerMapOf_WarmUp/reads=99%-2 16.4ns ± 1%
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IntegerMapOf_WarmUp/reads=99%-4 8.42ns ± 0%
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IntegerMapOf_WarmUp/reads=99%-8 4.41ns ± 0%
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IntegerMapOf_WarmUp/reads=99%-16 2.38ns ± 2%
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IntegerMapOf_WarmUp/reads=99%-32 1.37ns ± 4%
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IntegerMapOf_WarmUp/reads=99%-64 0.85ns ± 2%
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IntegerMapStandard_WarmUp/reads=99% 121ns ± 1%
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IntegerMapStandard_WarmUp/reads=99%-2 109ns ± 3%
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IntegerMapStandard_WarmUp/reads=99%-4 115ns ± 4%
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IntegerMapStandard_WarmUp/reads=99%-8 114ns ± 2%
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IntegerMapStandard_WarmUp/reads=99%-16 105ns ± 2%
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IntegerMapStandard_WarmUp/reads=99%-32 97.0ns ± 3%
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IntegerMapStandard_WarmUp/reads=99%-64 98.0ns ± 2%
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```
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1,000 `[int, int]` entries with a warm-up, 75% Loads, 12.5% Stores, 12.5% Deletes:
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```
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IntegerMapOf_WarmUp/reads=75%-reads 46.2ns ± 1%
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IntegerMapOf_WarmUp/reads=75%-reads-2 36.7ns ± 2%
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IntegerMapOf_WarmUp/reads=75%-reads-4 22.0ns ± 1%
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IntegerMapOf_WarmUp/reads=75%-reads-8 12.8ns ± 2%
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IntegerMapOf_WarmUp/reads=75%-reads-16 7.69ns ± 1%
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IntegerMapOf_WarmUp/reads=75%-reads-32 5.16ns ± 1%
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IntegerMapOf_WarmUp/reads=75%-reads-64 4.91ns ± 1%
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IntegerMapStandard_WarmUp/reads=75%-reads 156ns ± 0%
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IntegerMapStandard_WarmUp/reads=75%-reads-2 177ns ± 1%
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IntegerMapStandard_WarmUp/reads=75%-reads-4 197ns ± 1%
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IntegerMapStandard_WarmUp/reads=75%-reads-8 221ns ± 2%
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IntegerMapStandard_WarmUp/reads=75%-reads-16 242ns ± 1%
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IntegerMapStandard_WarmUp/reads=75%-reads-32 258ns ± 1%
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IntegerMapStandard_WarmUp/reads=75%-reads-64 264ns ± 1%
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```
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### MPMCQueue vs. Go channels
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Concurrent producers and consumers (1:1), queue/channel size 1,000, some work done by both producers and consumers:
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```
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QueueProdConsWork100 252ns ± 0%
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QueueProdConsWork100-2 206ns ± 5%
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QueueProdConsWork100-4 136ns ±12%
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QueueProdConsWork100-8 110ns ± 6%
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QueueProdConsWork100-16 108ns ± 2%
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QueueProdConsWork100-32 102ns ± 2%
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QueueProdConsWork100-64 101ns ± 0%
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ChanProdConsWork100 283ns ± 0%
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ChanProdConsWork100-2 406ns ±21%
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ChanProdConsWork100-4 549ns ± 7%
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ChanProdConsWork100-8 754ns ± 7%
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ChanProdConsWork100-16 828ns ± 7%
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ChanProdConsWork100-32 810ns ± 8%
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ChanProdConsWork100-64 832ns ± 4%
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```
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### RBMutex vs. sync.RWMutex
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The writer locks on each 100,000 iteration with some work in the critical section for both readers and the writer:
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```
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RBMutexWorkWrite100000 146ns ± 0%
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RBMutexWorkWrite100000-2 73.3ns ± 0%
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RBMutexWorkWrite100000-4 36.7ns ± 0%
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RBMutexWorkWrite100000-8 18.6ns ± 0%
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RBMutexWorkWrite100000-16 9.83ns ± 3%
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RBMutexWorkWrite100000-32 5.53ns ± 0%
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RBMutexWorkWrite100000-64 4.04ns ± 3%
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RWMutexWorkWrite100000 121ns ± 0%
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RWMutexWorkWrite100000-2 128ns ± 1%
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RWMutexWorkWrite100000-4 124ns ± 2%
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RWMutexWorkWrite100000-8 101ns ± 1%
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RWMutexWorkWrite100000-16 92.9ns ± 1%
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RWMutexWorkWrite100000-32 89.9ns ± 1%
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RWMutexWorkWrite100000-64 88.4ns ± 1%
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```
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