+++ /dev/null
-life-001
-========
-
-
-Approach
---------
-The grid is represented as flat list of sequential ID's, where neighbors are
-calculated using the offset relative to the desired length of the printed
-X-axis. See my prototyping doodles at the bottom.
-
-Each cell is represented as a gen_server process named after its corresponding
-ID on the grid and holding the names of its neighbors in its state record.
-
-Likewise, time is represented as a gen_server process which sends ticks to all
-cells and collects state responses, then proceeds to sort and print the
-resulting board - this constitutes one generation.
-
-Upon receipt of a tick, a cell broadcasts its state to its neighbors, then
-proceeds to collect counterpart broadcasts from its neighbors. Upon collection
-of all broadcasts - it calculates its new state and sends it to the time
-process.
-
-Additionally, there's, a non-essential, observer process, whose job is to
-simply log the statistics for each run of the simulation.
-
-
-Usage
------
-* Get: `git clone git://github.com/ibnfirnas/life.git`
-* Enter: `cd life/001`
-* Build: `make`
-* Run: `./bin/life`
-
-
-Doodles
--------
-![Doodles](https://github.com/ibnfirnas/life/raw/master/001/doodles.jpg)
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