ZenQ
avo
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| ZenQ | avo | |
|---|---|---|
| 13 | 10 | |
| 633 | 2,590 | |
| - | - | |
| 3.6 | 7.1 | |
| about 2 months ago | 28 days ago | |
| Go | Go | |
| MIT License | BSD 3-clause "New" or "Revised" License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
ZenQ
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HaxMap v0.2.0 released, huge performance improvements and added support for 32-bit systems
Use of golang runtime internals like itogami and ZenQ to squeeze out a little extra performance
- ZenQ vs Channels benchmarks for low-end raspberry pi
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GoQueue, A Flexible Queue System for Go
regarding thread safety you can make the queue lock free, see this https://github.com/alphadose/ZenQ
- ZenQ version 2.6.1 released, with new features, performance improvements and added support for more CPU architectures
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Itogami, the best golang thread-pool till date
I have also made a similar project https://github.com/alphadose/ZenQ
- ZenQ now has select{} capability
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ZenQ now finally a better alternative to native channels with v1.2.0
Hello fellow gophers, A few days ago I published ZenQ, which is a fast thread-safe queue
- A thread-safe queue faster than native Golang channels
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A thread-safe queue faster than native golang channels
Code for the above benchmark https://github.com/alphadose/ZenQ/blob/main/benchmarks/main_test.go
avo
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From slow to SIMD: A Go optimization story
I wonder whether avo could have been useful here?[1] I mention it because it came up the last time we were talking about AVX operations in go.[2]
1 = https://github.com/mmcloughlin/avo
2 = https://news.ycombinator.com/item?id=34465297
- Portable Efficient Assembly Code-Generator in Higher-Level Python (PeachPy)
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How to Use AVX512 in Golang
I thought the /r/golang comments on this post were pretty useful[1]. They also introduced me to avo[2], a tool for generating x86 assembly from go that I hadn't seen before. There are some examples listed on the avo github page for generating AVX512 instructions with avo.
1 = https://www.reddit.com/r/golang/comments/10hmh07/how_to_use_...
2 = https://github.com/mmcloughlin/avo
For writing AVX512 from scratch avo is a much better alternative.
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SIMD Accelerated vector math
Avo is a library that simplifies writing complex go assembly, I found it very useful to figure out how instructions map onto Go's asm syntax. But you could definitely do the translation directly, it's what c2goasm did (couldn't get it to work reliably unfortunately).
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HaxMap v0.2.0 released, huge performance improvements and added support for 32-bit systems
Curious if you're looking at using avo to write the assembly
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HaxMap, a concurrent hashmap faster and more memory-efficient than golang's sync.Map
You can use github.com/mmcloughlin/avo for generating the assembly use Go.
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S2: Fully Snappy compatible compression, faster and better
For normal and "better" mode I am using avo to generate different encoders for different input sizes, with and without Snappy compatibility. That currently outputs about 17k lines of assembly.
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Branchless Coding in Go (Golang)
You could perhaps just have the Go compiler generate the assembler for your code:
go tool compile -S file.go > file_amd64.s
Then you could verify it doesn't change over time, and choose to begin maintaining by hand if it makes sense.
If you do want to go the route of rolling it yourself, I'd suggest looking into something like Avo: https://github.com/mmcloughlin/avo
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High precision timer loop.
If you have to go with Assembly, try Avo https://github.com/mmcloughlin/avo
What are some alternatives?
goqueue - Flexible Queue System for Go
sonic - A blazingly fast JSON serializing & deserializing library
haxmap - Fastest and most memory efficient golang concurrent hashmap
sha256-simd - Accelerate SHA256 computations in pure Go using AVX512, SHA Extensions for x86 and ARM64 for ARM. On AVX512 it provides an up to 8x improvement (over 3 GB/s per core). SHA Extensions give a performance boost of close to 4x over native.
ants - πππ ants is a high-performance and low-cost goroutine pool in Go./ ants ζ―δΈδΈͺι«ζ§θ½δΈδ½ζθη goroutine ζ± γ
dingo - Generated dependency injection containers in go (golang)
parallel - xargs for concurrent, distributed execution of shell commands
rjson - A fast json parser for go
itogami - Fastest and most efficient goroutine pool (experimental)
gorse - Gorse open source recommender system engine
Disruptor - High Performance Inter-Thread Messaging Library
zig - General-purpose programming language and toolchain for maintaining robust, optimal, and reusable software.