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Game of Life with @graalvm Native Image using virtual threads and communicating sequential processes

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Game of Life Native

Build with GraalVM Native Image

Game of Life Native is a Java implementation by @ebarlas on GitHub, of Conway's Game of Life using communicating sequential processes (CSP).

Each grid cell is an independent process and all cell communication occurs via channels.

It's built atop virtual threads, defined in JDK Enhancement Proposal (JEP) 425.

The virtual threads feature is part of Project Loom.

Prior to Project Loom and virtual threads, CSP style programming in this manner simply wasn't available in Java.

Channels

Build

JDK19-based GraalVM Native Image 22.3 or later is required (set JAVA_HOME to its installation directory).

Build native executable with GraalVM Native Image:

mvn -Pnative package

Run:

./target/game-of-life

Command Line Arguments

Command line arguments are optional.

./target/game-of-life patterns/spaceship.txt 20 50 50 5 5 false true
  1. Pattern text file, ex. patterns/spaceship.txt
  2. Game of Life simulation period milliseconds, ex. 25
  3. Left padding columns, ex. 50
  4. Top padding rows, ex. 50
  5. Right padding columns, ex. 5
  6. Bottom padding rows, ex. 5
  7. Rotate boolean flag, ex. false
  8. Benchmark mode boolean flag, ex. true

Patterns

The patterns directory contains text-encoded patters taken from Life Lexicon located at: https://people.sc.fsu.edu/~jburkardt/m_src/exm/lexicon.txt

The lexicon is copyright (C) Stephen Silver, 1997-2005.

The full list of contributors can be found under the credits section of the website.

Processes

Every cell runs in its own process, defined in Cell.java. Cell processes communicate with each other via channels.

The simulation runs in its own process, defined in GameOfLife.java.

Finally, the viewer runs in its own process, defined in Main.java.

  • Cell processes: R * C
  • Simulation processes: 1
  • Viewer processes: 1
  • Total processes: R * C + 2

Channels

A pair of channels, one in each direction, exists for every pair of neighbor cells.

  • Vertical segments: (C - 1) * R
  • Horizontal segments: (R - 1) * C
  • Interior vertices: (R - 1) * (C - 1)
  • Total cell-to-cell channels: [2 * (C - 1) * R] + [2 * (R - 1) * C] + [4 * (R - 1) * (C - 1)]

Additionally, each cell has a channel for receiving a tick event and and a channel for emitting results after each simulation tick.

  • Tick channels: R * C
  • Result channels: R * C

Finally, a channel is used to communicate a full liveness matrix to the main application consumer.

  • Total channels: 2 * (C - 1) * R + 2 * (R - 1) * C + 4 * (R - 1) * (C - 1) + R * C * 2 + 1

Benchmark

The following command results in a grid of 50,000 cells (250 x 200):

That results in 50,002 virtual threads and 497,305 channels.

./target/game-of-life patterns/gosper_glider_gun.txt 0 2 2 212 189

It's a demonstration of the viability of virtual threads in a highly concurrent, computationally intensive application.

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