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README.md
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## Sample results
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To best demonstrate our use of a toroidal grid topology (which is functionally the same as periodic boundary conditions), we include a GIF animation of the famous 'glider gun' pattern, from Life, played out on the surface of a 3D torus (see [toroidal_grid_glider_gun.gif](https://github.com/lamm-mit/LifeGPT/raw/main/toroidal_grid_glider_gun.gif)). In this animations, live cells are represented with blue dots, and dead cells are represented as the absence of a dot. The torus is made to be translucent to better illustrate its unique geometry. We hope that this facilitates a more intuitive understanding of the manner in which periodic boundary conditions function with respect to Life.
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## Sample results
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### 'Glider gun' pattern, from Life, played out on the surface of a 3D torus
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To best demonstrate our use of a toroidal grid topology (which is functionally the same as periodic boundary conditions), we include a GIF animation of the famous 'glider gun' pattern, from Life, played out on the surface of a 3D torus (see [toroidal_grid_glider_gun.gif](https://github.com/lamm-mit/LifeGPT/raw/main/toroidal_grid_glider_gun.gif)). In this animations, live cells are represented with blue dots, and dead cells are represented as the absence of a dot. The torus is made to be translucent to better illustrate its unique geometry. We hope that this facilitates a more intuitive understanding of the manner in which periodic boundary conditions function with respect to Life.
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