_benchmarks/

directory
v11.1.1+incompatible Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Jan 16, 2019 License: BSD-3-Clause

README

Benchmarks: Monday, 22 October 2018

Hardware

hardware screen

Software

Results

  • Throughput - how much data transferred per second.
  • Reqs/sec (Requests Per Second in Average) - the highest the better, important.
  • Latency - the smallest the better, important.
  • Time To Complete - the smallest the better, important.
Name Throughput Reqs/sec Latency Time To Complete Total Requests
Iris 24.41MB/s 131268 0.95ms 7s 1000000
.NET Core (Kestrel) 19.95MB/s 110150 1.13ms 9s 1000000
Expressjs 18.60MB/s 70352 1.80ms 14s 1000000
Iris with Sessions 25.32MB/s 82477 1.53ms 1m1s 5000000
.NET Core (Kestrel) with Sessions 28.45MB/s 61946 2.06ms 1m1s 5000000
Expressjs with Sessions 12.81MB/s 46962 2.53mss 1m42s 5000000
Iris MVC 21.27MB/s 114378 1.09ms 43s 5000000
.Net Core MVC 18.19MB/s 82608 1.51ms 1m 5000000
Expressjs MVC - - - - -
Iris MVC with Templates 306.60MB/s 42501 2.94ms 23s 1000000
.Net Core MVC with Templates 188.01MB/s 26051 4.78ms 38s 1000000
Expressjs MVC with Templates - - - - -

Go ahead and read the rest of the page to learn how you can reproduce the benchmarks. Don't be afraid! It's actually very easy, you can do things like that as well!

Old results (August of 2017)

Go vs .NET Core in terms of HTTP performance (Sa, 19 August 2017)

Iris Go vs .NET Core Kestrel in terms of HTTP performance (Mo, 21 August 2017)

Thank you all for the 100% green feedback, have fun!

.NET Core MVC vs Iris MVC

The first test will contain a simple application with a text response and the second will render templates + a layout.

Simple

We will compare two identical things here, in terms of application, the expected response and the stability of their run times, so we will not try to put more things in the game like JSON or XML encoders and decoders, just a simple text message. To achieve a fair comparison we will use the MVC architecture pattern on both sides, Go and .NET Core.

.NET Core MVC
$ cd netcore-mvc
$ dotnet run --urls=http://localhost:5000 -c Release
Hosting environment: Production
Content root path: C:\mygopath\src\github.com\kataras\iris\_benchmarks\netcore-mvc
Now listening on: http://localhost:5000
Application started. Press Ctrl+C to shut down.
$ bombardier -c 125 -n 5000000 http://localhost:5000/api/values/5
Bombarding http://localhost:5000/api/values/5 with 5000000 request(s) using 125 connection(s)
 5000000 / 5000000 [=====================================================================================] 100.00% 1m0s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     82608.44    4072.64   96896.66
  Latency        1.51ms   255.49us   235.36ms
  HTTP codes:
    1xx - 0, 2xx - 5000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    18.19MB/s
Iris MVC
$ cd iris-mvc
$ go run main.go
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 5000000 http://localhost:5000/api/values/5
Bombarding http://localhost:5000/api/values/5 with 5000000 request(s) using 125 connection(s)
 5000000 / 5000000 [======================================================================================] 100.00% 43s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec    114378.40    5080.77  135410.87
  Latency        1.09ms    26.25us    19.92ms
  HTTP codes:
    1xx - 0, 2xx - 5000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    21.27MB/s

Click here to navigate to the screenshots.

Summary
  • Time to complete the 5000000 requests - smaller is better.
  • Reqs/sec - bigger is better.
  • Latency - smaller is better
  • Throughput - bigger is better.
  • Memory usage - smaller is better.
  • LOC (Lines Of Code) - smaller is better.

.NET Core MVC Application, written using 86 lines of code, ran for 1 minute serving 82608.44 requests per second within 1.51ms latency in average and 235.36ms max, the memory usage of all these was ~123MB (without the dotnet host).

Iris MVC Application, written using 27 lines of code, ran for 43 seconds serving 114378.40 requests per second within 1.09ms latency in average and 19.92ms max, the memory usage of all these was ~12MB.

Update: 20 August 2017 and benchmarks re-ran at 22 October 2018

As Josh Clark and Scott Hanselman‏‏ pointed out on this status, on .NET Core MVC Startup.cs file the line with services.AddMvc(); can be replaced with services.AddMvcCore();. I followed their helpful instructions and re-run the benchmarks. The article now contains the latest benchmark output for the .NET Core application with the change both Josh and Scott noted.

The twitter conversation: https://twitter.com/MakisMaropoulos/status/899113215895982080

MVC + Templates

Let’s run one more benchmark, spawn 1000000 requests but this time we expect HTML generated by templates via the view engine.

.NET Core MVC with Templates
$ cd netcore-mvc-templates
$ dotnet run --urls=http://localhost:5000 -c Release
Hosting environment: Production
Content root path: C:\mygopath\src\github.com\kataras\iris\_benchmarks\netcore-mvc-templates
Now listening on: http://localhost:5000
Application started. Press Ctrl+C to shut down.
$ bombardier -c 125 -n 1000000 http://localhost:5000
Bombarding http://localhost:5000 with 1000000 request(s) using 125 connection(s)
 1000000 / 1000000 [======================================================================================] 100.00% 38s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     26051.53    3256.67   42363.32
  Latency        4.78ms     0.93ms   417.39ms
  HTTP codes:
    1xx - 0, 2xx - 1000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:   188.01MB/s
Iris MVC with Templates
$ cd iris-mvc-templates
$ go run main.go
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 1000000 http://localhost:5000
Bombarding http://localhost:5000 with 1000000 request(s) using 125 connection(s)
 1000000 / 1000000 [======================================================================================] 100.00% 23s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     42501.30    1604.82   46023.80
  Latency        2.94ms    81.93us    24.93ms
  HTTP codes:
    1xx - 0, 2xx - 1000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:   306.60MB/s
Summary

.NET Core MVC with Templates Application ran for 38 seconds serving 26051.53 requests per second with 188.01MB/s within 4.78ms latency in average and 417.39ms max, the memory usage of all these was ~193MB (without the dotnet host).

Iris MVC with Templates Application ran for 23 seconds serving 42501.30 requests per second with 306.60MB/s within 2.94ms latency in average and 24.93ms max, the memory usage of all these was ~17MB.

.NET Core (Kestrel) vs Iris

This time we will compare the speed of the “low-level” .NET Core’s server implementation named Kestrel and Iris’ “low-level” handlers, we will test two simple applications, the first will be the same as our previous application but written using handlers and the second test will contain a single route which sets and gets a session value(string) based on a key(string).

Simple

Spawn 1000000 requests with 125 different "threads", targeting to a dynamic registered route path, responds with a simple "value" text.

.NET Core (Kestrel)
$ cd netcore
$ dotnet run --urls=http://localhost:5000 -c Release
Hosting environment: Production
Content root path: C:\mygopath\src\github.com\kataras\iris\_benchmarks\netcore
Now listening on: http://localhost:5000
Application started. Press Ctrl+C to shut down.
$ bombardier -c 125 -n 1000000 http://localhost:5000/api/values/5
Bombarding http://localhost:5000/api/values/5 with 1000000 request(s) using 125 connection(s)
 1000000 / 1000000 [=======================================================================================] 100.00% 9s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec    110150.12    8195.73  122486.03
  Latency        1.13ms   178.98us    81.78ms
  HTTP codes:
    1xx - 0, 2xx - 1000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    19.95MB/s
Iris
$ cd iris
$ go run main.go
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 1000000 http://localhost:5000/api/values/5
Bombarding http://localhost:5000/api/values/5 with 1000000 request(s) using 125 connection(s)
 1000000 / 1000000 [=======================================================================================] 100.00% 7s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec    131268.51    5757.43  141530.72
  Latency        0.95ms    62.10us    19.92ms
  HTTP codes:
    1xx - 0, 2xx - 1000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    24.41MB/s
Node.js (Express)
$ cd expressjs-throng
$ npm install
$ node app.js
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 1000000 http://localhost:5000/api/values/5
Bombarding http://localhost:5000/api/values/5 with 1000000 request(s) using 125 connection(s)
 1000000 / 1000000 [======================================================================================] 100.00% 14s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     70352.00   10947.26  115334.47
  Latency        1.80ms     1.39ms   206.45ms
  HTTP codes:
    1xx - 0, 2xx - 1000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    18.60MB/s
Summary

.NET Core (Kestrel) Application written using 63 code of lines ran for 9 seconds serving 110150.12 requests per second with 19.95MB/s within 1.13ms latency in average and 81.78ms max.

Iris Application written using 14 code of lines ran for 7 seconds serving 131268.51 requests per second with 24.41MB/s within 0.95ms latency in average and 19.92ms max.

Node.js (Express) Application written using 12 code of lines ran for 14 seconds serving 70352 requests per second with 18.60MB/s within 1.80ms latency in average and 206.45ms max.

Sessions

Spawn 5000000 requests with 125 different "threads" targeting a static request path, sets and gets a session based on the name "key" and string value "value" and write that session value to the response stream.

.NET Core (Kestrel) with Sessions
$ cd netcore-sessions
$ dotnet run --urls=http://localhost:5000 -c Release
Hosting environment: Production
Content root path: C:\mygopath\src\github.com\kataras\iris\_benchmarks\netcore-sessions
Now listening on: http://localhost:5000
Application started. Press Ctrl+C to shut down.
$ bombardier -c 125 -n 5000000 http://localhost:5000/setget
Bombarding http://localhost:5000/setget with 5000000 request(s) using 125 connection(s)
 5000000 / 5000000 [=====================================================================================] 100.00% 1m1s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     61946.59   13164.30  100166.94
  Latency        2.06ms     2.42ms   781.91ms
  HTTP codes:
    1xx - 0, 2xx - 5000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    28.45MB/s
Iris with Sessions
$ cd iris-sessions
$ go run main.go
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 5000000 http://localhost:5000/setget
Bombarding http://localhost:5000/setget with 5000000 request(s) using 125 connection(s)
 5000000 / 5000000 [=====================================================================================] 100.00% 1m1s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     82477.76   29886.37  166399.36
  Latency        1.53ms   462.79us   286.23ms
  HTTP codes:
    1xx - 0, 2xx - 5000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    25.32MB/s
Node.js (Express) with Sessions
$ cd expressjs-throng-sessions
$ npm install
$ node app.js
Now listening on: http://localhost:5000
Application started. Press CTRL+C to shut down.
$ bombardier -c 125 -n 5000000 http://localhost:5000/setget
Bombarding http://localhost:5000/setget with 5000000 request(s) using 125 connection(s)
 5000000 / 5000000 [====================================================================================] 100.00% 1m42s
Done!
Statistics        Avg      Stdev        Max
  Reqs/sec     46962.17   10028.21  104302.48
  Latency        2.53ms     1.45ms   368.01ms
  HTTP codes:
    1xx - 0, 2xx - 5000000, 3xx - 0, 4xx - 0, 5xx - 0
    others - 0
  Throughput:    12.81MB/s
Summary

.NET Core with Sessions Application ran for 1 minute and 1 second serving 61946.59 requests per second with 28.45MB/s within 2.06ms latency in average and 781.91ms max.

Iris with Sessions Application ran for 1 minute and 1 second serving 82477.76 requests per second with 25.32MB/s within 1.53ms latency in average and 286.23ms max.

Node.js (Express) with Sessions Application ran for 1 minute and 42 seconds serving 46962.17 requests per second with 12.81MB/s within 2.53ms latency in average and 368.01ms max.

Click here to navigate to the screenshots.

Directories

Path Synopsis

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL