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Which is the fastest GraphQL?

It's all about GraphQL server benchmarking across many languages.

Benchmarks cover maximum throughput and normal use latency. For a more detailed description of the methodology used, the how, and the why see the bottom of this page.

Results

Top 5 Ranking

Rate Latency Verbosity
1️⃣ agoo-c (c) agoo (ruby) fastify-mercurius (javascript)
2️⃣ ggql-i (go) agoo-c (c) express-graphql (javascript)
3️⃣ ggql (go) ggql-i (go) koa-koa-graphql (javascript)
4️⃣ agoo (ruby) ggql (go) apollo-server-fastify (javascript)
5️⃣ fastify-mercurius (javascript) koa-koa-graphql (javascript) apollo-server-express (javascript)

Parameters

  • Last updated: 2021-08-19
  • OS: Linux (version: 5.7.1-050701-generic, arch: x86_64)
  • CPU Cores: 12
  • Connections: 1000
  • Duration: 20 seconds
Rate Latency Verbosity README

Requirements

  • Ruby for tooling
  • Docker as frameworks are isolated into containers
  • perfer the benchmarking tool, >= 1.5.3
  • Oj is needed by the benchmarking Ruby script, >= 3.7
  • RSpec is needed for testing

Usage

  • Install all dependencies, Ruby, Docker, Perfer, Oj, and RSpec.

  • Build containers

build all

build.rb

build just named targets

build.rb [target] [target] ...
  • Runs the tests (optional)
rspec spec.rb
  • Run the benchmarks

frameworks is an options list of frameworks or languages run (example: ruby agoo-c)

benchmarker.rb [frameworks...]

Methodology

Performance of a framework includes latency and maximum number of requests that can be handled in a span of time. The assumption is that users of a framework will choose to run at somewhat less that fully loaded. Running fully loaded would leave no room for a spike in usage. With that in mind, the maximum number of requests per second will serve as the upper limit for a framework.

Latency tends to vary significantly not only radomly but according to the load. A typical latency versus throughput curve starts at some low-load value and stays fairly flat in the normal load region until some inflection point. At the inflection point until the maximum throughput the latency increases.

 |                                                                  *
 |                                                              ****
 |                                                          ****
 |                                                      ****
 |******************************************************
 +---------------------------------------------------------------------
  ^               \             /                       ^           ^
  low-load          normal-load                         inflection  max

These benchmarks show the normal-load latency as that is what most users will see when using a service. Most deployments do not run at near maximum throughput but try to stay in the normal-load are but are prepared for spike in usage. To accomdate slower frameworks a value of 1000 request per second is used for determing the median latency. The assumption is that a rate of 1000 request per second falls in the normal range for most if not all frameworks tested.

The perfer benchmarking tool is used for these reasons:

  • A rate can be specified for latency determination.
  • JSON output makes parsing output easier.
  • Fewer threads are needed by perfer leaving more for the application being benchmarked.
  • perfer is faster than wrk albeit only slightly

How to Contribute

In any way you want ...

  • Provide a Pull Request for a framework addition
  • Report a bug (on any implementation)
  • Suggest an idea
  • More details

All ideas are welcome.

Contributors