1️⃣🐝🏎️ The One Billion Row Challenge

Status Jan 1: This challenge is open for submissions!

The One Billion Row Challenge (1BRC) is a fun exploration of how far modern Java can be pushed for aggregating one billion rows from a text file. Grab all your (virtual) threads, reach out to SIMD, optimize your GC, or pull any other trick, and create the fastest implementation for solving this task!

The text file contains temperature values for a range of weather stations. Each row is one measurement in the format <string: station name>;<double: measurement>, with the measurement value having exactly one fractional digit. The following shows ten rows as an example:

Hamburg;12.0
Bulawayo;8.9
Palembang;38.8
St. John's;15.2
Cracow;12.6
Bridgetown;26.9
Istanbul;6.2
Roseau;34.4
Conakry;31.2
Istanbul;23.0

The task is to write a Java program which reads the file, calculates the min, mean, and max temperature value per weather station, and emits the results on stdout like this (i.e. sorted alphabetically by station name, and the result values per station in the format <min>/<mean>/<max>, rounded to one fractional digit):

{Abha=-23.0/18.0/59.2, Abidjan=-16.2/26.0/67.3, Abéché=-10.0/29.4/69.0, Accra=-10.1/26.4/66.4, Addis Ababa=-23.7/16.0/67.0, Adelaide=-27.8/17.3/58.5, ...}

Submit your implementation by Jan 31 2024 and become part of the leaderboard!

Results

#	Result (m:s.ms)	Implementation	JDK	Submitter	Notes
1.	00:06.159	link	21.0.1-graal	royvanrijn
2.	00:06.532	link	21.0.1-graal	Thomas Wuerthinger	GraalVM native binary
3.	00:07.620	link	21.0.1-open	Quan Anh Mai
	00:09.062	link	21.0.1-open	obourgain
	00:09.338	link	21.0.1-graal	Elliot Barlas
	00:10.589	link	21.0.1-graal	Artsiom Korzun
	00:10.613	link	21.0.1-graal	Sam Pullara
	00:11.038	link	21.0.1-open	Andrew Sun
	00:11.222	link	21.0.1-open	Jamie Stansfield
	00:13.277	link	21.0.1-graal	Yavuz Tas
	00:13.430	link	21.0.1-open	Johannes Schüth
	00:13.463	link	21.0.1-open	yemreinci
	00:13.615	link	21.0.1-graal	ags313
	00:13.709	link	21.0.1-open	John Ziamos
	00:13.857	link	21.0.1-graal	Filip Hrisafov
	00:14.411	link	21.0.1-open	deemkeen
	00:15.956	link	21.0.1-open	Dimitar Dimitrov
	00:16.196	link	21.0.1-open	Parth Mudgal
	00:16.823	link	21.0.1-open	arjenvaneerde
	00:17.905	link	21.0.1-open	Peter Lawrey
	00:17.963	link	21.0.1-graal	Cool_Mineman
	00:18.380	link	21.0.1-open	Carlo
	00:18.866	link	21.0.1-graal	Rafael Merino García
	00:18.789	link	21.0.1-open	Nick Palmer
	00:19.561	link	21.0.1-open	Gabriel Reid
	00:22.210	link	21.0.1-open	Serghei Motpan
	00:22.634	link	21.0.1-open	Kevin McMurtrie
	00:22.709	link	21.0.1-graal	Markus Ebner
	00:23.078	link	21.0.1-open	Richard Startin
	00:24.879	link	21.0.1-open	David Kopec
	00:26.253	link	21.0.1-graal	Stefan Sprenger
	00:26.576	link	21.0.1-open	Roman Romanchuk
	00:27.787	link	21.0.1-open	Nils Semmelrock
	00:28.167	link	21.0.1-open	Roman Schweitzer
	00:28.386	link	21.0.1-open	Gergely Kiss
	00:32.764	link	21.0.1-open	Moysés Borges Furtado
	00:34.848	link	21.0.1-open	Arman Sharif
	00:36.518	link	21.0.1-open	Ramzi Ben Yahya
	00:38.510	link	21.0.1-open	Hampus Ram
	00:47.717	link	21.0.1-open	Kuduwa Keshavram
	00:50.547	link	21.0.1-open	Aurelian Tutuianu
	00:51.678	link	21.0.1-tem	Tobi
	00:53.679	link	21.0.1-open	Chris Riccomini
	00:59.377	link	21.0.1-open	Horia Chiorean
	01:24.721	link	21.0.1-open	Ujjwal Bharti
	01:27.912	link	21.0.1-open	Jairo Graterón
	01:39.360	link	21.0.1-open	Mudit Saxena
	02:00.087	link	21.0.1-open	Santanu Barua
	02:00.101	link	21.0.1-open	khmarbaise
	02:08.315	link	21.0.1-open	itaske
	02:16.635	link	21.0.1-open	twohardthings
	02:23.316	link	21.0.1-open	Abhilash
	03:16.334	link	21.0.1-open	김예환 Ye-Hwan Kim (Sam)
	03:42.297	link	21.0.1-open	Samson
	04:13.449	link (baseline)	21.0.1-open	Gunnar Morling

See below for instructions how to enter the challenge with your own implementation.

Prerequisites

Java 21 must be installed on your system.

Running the Challenge

This repository contains two programs:

dev.morling.onebrc.CreateMeasurements (invoked via create_measurements.sh): Creates the file measurements.txt in the root directory of this project with a configurable number of random measurement values
dev.morling.onebrc.CalculateAverage (invoked via calculate_average_baseline.sh): Calculates the average values for the file measurements.txt

Execute the following steps to run the challenge:

Build the project using Apache Maven:
```
./mvnw clean verify
```
Create the measurements file with 1B rows (just once):
```
./create_measurements.sh 1000000000
```
This will take a few minutes. Attention: the generated file has a size of approx. 12 GB, so make sure to have enough diskspace.
Calculate the average measurement values:
```
./calculate_average_baseline.sh
```
The provided naive example implementation uses the Java streams API for processing the file and completes the task in ~2 min on environment used for result evaluation. It serves as the base line for comparing your own implementation.
Optimize the heck out of it:

Adjust the CalculateAverage program to speed it up, in any way you see fit (just sticking to a few rules described below). Options include parallelizing the computation, using the (incubating) Vector API, memory-mapping different sections of the file concurrently, using AppCDS, GraalVM, CRaC, etc. for speeding up the application start-up, choosing and tuning the garbage collector, and much more.

Flamegraph/Profiling

A tip is that if you have jbang installed, you can get a flamegraph of your program by running async-profiler via ap-loader:

jbang --javaagent=ap-loader@jvm-profiling-tools/ap-loader=start,event=cpu,file=profile.html -m dev.morling.onebrc.CalculateAverage_yourname target/average-1.0.0-SNAPSHOT.jar

or directly on the .java file:

jbang --javaagent=ap-loader@jvm-profiling-tools/ap-loader=start,event=cpu,file=profile.html src/main/java/dev/morling/onebrc/CalculateAverage_yourname

When you run this, it will generate a flamegraph in profile.html. You can then open this in a browser and see where your program is spending its time.

Rules and limits

Any of these Java distributions may be used:
- Any builds provided by SDKMan
- Early access builds available on openjdk.net may be used (including EA builds for OpenJDK projects like Valhalla)
- Builds on builds.shipilev.net If you want to use a build not available via these channels, reach out to discuss whether it can be considered.
No external library dependencies may be used
Implementations must be provided as a single source file
The computation must happen at application runtime, i.e. you cannot process the measurements file at build time (for instance, when using GraalVM) and just bake the result into the binary
Input value ranges are as follows:
- Station name: non null UTF-8 string of min length 1 character and max length 100 bytes (i.e. this could be 100 one-byte characters, or 50 two-byte characters, etc.)
- Temperature value: non null double between -99.9 (inclusive) and 99.9 (inclusive), always with one fractional digit
There is a maximum of 10,000 unique station names
Implementations must not rely on specifics of a given data set, e.g. any valid station name as per the constraints above and any data distribution (number of measurements per station) must be supported

Entering the Challenge

To submit your own implementation to 1BRC, follow these steps:

Create a fork of the onebrc GitHub repository.
Create a copy of CalculateAverage.java, named CalculateAverage_<your_GH_user>.java, e.g. CalculateAverage_doloreswilson.java.
Make that implementation fast. Really fast.
Create a copy of calculate_average_baseline.sh, named calculate_average_<your_GH_user>.sh, e.g. calculate_average_doloreswilson.sh.
Adjust that script so that it references your implementation class name. If needed, provide any JVM arguments via the JAVA_OPTS variable in that script. Make sure that script does not write anything to standard output other than calculation results.
OpenJDK 21 is the default. If a custom JDK build is required, include the SDKMAN command sdk use java [version] in the launch shell script prior to application start.
(Optional) If you'd like to use native binaries (GraalVM), adjust the pom.xml file so that it builds that binary.
Run the test suite by executing /test.sh <your_GH_user>; if any differences are reported, fix them before submitting your implementation.
Create a pull request against the upstream repository, clearly stating
- The name of your implementation class.
- The execution time of the program on your system and specs of the same (CPU, number of cores, RAM). This is for informative purposes only, the official runtime will be determined as described below.
I will run the program and determine its performance as described in the next section, and enter the result to the scoreboard.

Note: I reserve the right to not evaluate specific submissions if I feel doubtful about the implementation (I.e. I won't run your Bitcoin miner ;).

If you'd like to discuss any potential ideas for implementing 1BRC with the community, you can use the GitHub Discussions of this repository. Please keep it friendly and civil.

The challenge runs until Jan 31 2024. Any submissions (i.e. pull requests) created after Jan 31 2024 23:59 UTC will not be considered.

Evaluating Results

Results are determined by running the program on a Hetzner Cloud CCX33 instance (8 dedicated vCPU, 32 GB RAM). The time program is used for measuring execution times, i.e. end-to-end times are measured. Each contender will be run five times in a row. The slowest and the fastest runs are discarded. The mean value of the remaining three runs is the result for that contender and will be added to the results table above. The exact same measurements.txt file is used for evaluating all contenders.

If you'd like to spin up your own box for testing on Hetzner Cloud, you may find these set-up scripts (based on Terraform and Ansible) useful. It has been reported that instances of the CCX33 machine class can significantly vary in terms of performance, so results are only comparable when obtained from one and the same instance. Note this will incur cost you are responsible for, I am not going to pay your cloud bill :)

Prize

If you enter this challenge, you may learn something new, get to inspire others, and take pride in seeing your name listed in the scoreboard above. Rumor has it that the winner may receive a unique 1️⃣🐝🏎️ t-shirt, too!

FAQ

Q: Can I use Kotlin or other JVM languages other than Java?
A: No, this challenge is focussed on Java only. Feel free to inofficially share implementations significantly outperforming any listed results, though.

Q: Can I use non-JVM languages and/or tools?
A: No, this challenge is focussed on Java only. Feel free to inofficially share interesting implementations and results though. For instance it would be interesting to see how DuckDB fares with this task.

Q: I've got an implementation—but it's not in Java. Can I share it somewhere?
A: Whilst non-Java solutions cannot be formally submitted to the challenge, you are welcome to share them over in the Show and tell GitHub discussion area.

Q: Can I use JNI?
A: Submissions must be completely implemented in Java, i.e. you cannot write JNI glue code in C/C++. You could use AOT compilation of Java code via GraalVM though, either by AOT-compiling the entire application, or by creating a native library (see here.

Q: What is the encoding of the measurements.txt file?
A: The file is encoded with UTF-8.

Q: Can I make assumptions on the names of the weather stations showing up in the data set?
A: No, while only a fixed set of station names is used by the data set generator, any solution should work with arbitrary UTF-8 station names (for the sake of simplicity, names are guaranteed to contain no ; character).

Q: Can I copy code from other submissions?
A: Yes, you can. The primary focus of the challenge is about learning something new, rather than "winning". When you do so, please give credit to the relevant source submissions. Please don't re-submit other entries with no or only trivial improvements.

Q: Which operating system is used for evaluation?
A: Fedora 39.

Q: My solution runs in 2 sec on my machine. Am I the fastest 1BRC-er in the world?
A: Probably not :) 1BRC results are reported in wallclock time, thus results of different implementations are only comparable when obtained on the same machine. If for instance an implementation is faster on a 32 core workstation than on the 8 core evaluation instance, this doesn't allow for any conclusions. When sharing 1BRC results, you should also always share the result of running the baseline implementation on the same hardware.

Q: Why 1️⃣🐝🏎️ ?
A: It's the abbreviation of the project name: One Billion Row Challenge.

License

This code base is available under the Apache License, version 2.

Code of Conduct

Be excellent to each other! More than winning, the purpose of this challenge is to have fun and learn something new.

rcardenes/1brc