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| Interconnect: LAN(1GB) | |
| Server: 12 core Xeon E5-2620 at 2Ghz, 16GB RAM | |
| Client running on idle node with similar h/w configuration. Used latest wrk2 release | |
| https://github.com/giltene/wrk2 | |
| Tried different configuration options, results for configuration that gave best results | |
| See also: https://gist.github.com/markpapadakis/dee39f95a404edfb8d6c | |
| # Apache2: http://10.5.5.20/index.html | |
| Requests/sec: 83704.15 | |
| > More or less expected that kind of throughput | |
| # h2o: http://10.5.5.20:8087/hello.html | |
| Requests/sec: 310725.04 | |
| > Very good results | |
| # gwan: http://10.5.5.20:8080/hello.html | |
| Requests/sec: 352548.58 | |
| > It beat all other 3d party web servers in https://gist.github.com/markpapadakis/dee39f95a404edfb8d6c | |
| > but didn’t do as well in this configuration | |
| # nginx: http://10.5.5.20:82/index.html | |
| Requests/sec: 281760.75 | |
| > Very respectable. Better than previous benchmark. | |
| > It’s not as fast as others in this list, but it’s very fast and support, community, modules, configurability | |
| > make up for it. | |
| # nxweb: http://10.5.5.20:8055/hello.html | |
| Requests/sec: 397224.45 | |
| > Very fast, the fastest 3d party web server. Look into it. | |
| # monkey: http://10.5.5.20:2001/hello.html | |
| Requests/sec: 250870.94 | |
| > Good results. Code is well structured, easy to understand its implementation design. | |
| # lwan : https://github.com/lpereira/lwan (compiled in release mode/configuration) | |
| Running 10s test @ http://10.5.5.20:8080/hello | |
| 10 threads and 1000 connections | |
| Thread Stats Avg Stdev Max +/- Stdev | |
| Latency 4.58s 2.73s 9.72s 57.66% | |
| Req/Sec -nan -nan 0.00 0.00% | |
| 3621396 requests in 9.99s, 818.51MB read | |
| Requests/sec: 362356.80 | |
| # LightHTTPD: http://10.5.5.20:83/hello.html | |
| Requests/sec: 32735.10 | |
| > This is consistently slow. Avoid | |
| # Link: http://10.5.5.20:8090/hello.html | |
| Requests/sec: 434931.64 | |
| > Our s/w load balancer, in heavy use here. A major rewrite that should | |
| > give us some 10-20% improvement in the works. | |
| # httpSrv: http://10.5.5.20:1027/hello.html | |
| Requests/sec: 511935.80 | |
| > Our purprose-built webserver; very minimal functionality (static files). | |
| > Still, faster than any other tested. |
Sure, what would you like to know?
@markpapadakis how big is this hello.html file?
Where can i find this httpSrv? I would like to give it a go.
Hello @frankmullerl
This is no longer around but for what it’s worth, my latest take on this ( on the same hardware ) managed 78k RPS on a single OS thread ( should scale linearly with number of (reactor) cores).
Hi, thanks for your summary about performance of various web server and interesting approach about httpSrv.
I've read yours article on medium and wonder do you publish or can I get the source code of httpSrv?
@eecheng87 Hello! That's not really around anymore, and furthermore, we have since adopted io_uring and a different approach for parsing HTTP request header which resulted in a substantial improvement in performance.
That code is not OSS yet, but it will likely be included in a project we mean to open source soon. Sorry about that.
Can you provide the info/web of httpSrv, Link ?