Rather, it contains a pattern of life that can be interpreted as a computer (actually, unbounded numbers of such patterns, most of which are short lived due to flaws), which simulates a non-determinstic computer, which proceeds to exhastively simulate entire families of universes. I used QSynth as a MIDI synthesiser, JACK and audacity to record the audio. The Conway's game of life doesn't directly contain it. Included in the code are some recordings of various examples, in. This allows the listener to hear the evolution of the game without having to sit through half an hour of notes! I experimented with different speeds of note and different musical scales and the following video is of “Gosper’s Glider Gun”, with each note being played in a fraction of a second. After each iteration, I processed it as if it were holes punched into a tape, being played by a music box. I coded a bounded square of cells (32×32), and ran the automaton rules over the set. ![]() So, using a little bit of code, some MIDI sounds and a lunch break, I explored just that. What if it behaved like a cellular automaton, like Conway’s Game of Life? What if, the notes changed and moved around on their own? Each is a fraction of the size of the tapes length but, made up of. Dubbed Gemini, Andrew Wades creature is made of two sets of identical structures, which sit at either end of the instruction tape. What if the punched notes could change every time the paper looped through? Calopteryx writes 'New Scientist has a story on a self-replicating entity which inhabits the mathematical universe known as the Game of Life. Towards the end of the video, she puts a continuous loop of paper through the music box, that will endlessly play the notes punched into the paper. Her fascinating video mathematically plays with the idea of space and time notation using only a music box, some paper and a hole punch. The following video by ViHart is one of these. Questions that lead you through lots of different ideas and possibilities and inspire you to tinker, hack and code. Sometimes though, you find videos that fill you with the right kind of questions. ![]() Questions like ‘why did I just spend 2 minutes of my life watching that?’ or ‘what is this?’ The first bit represents a living or dead status. Our version of life was created to be as memory efficient as possible. It randomly populates the board with living cells and allows you to watch the development of the board in real time. Sent by John Horton Conway, then a mathematician at the University of. Some videos you find on Youtube fill you with questions. The version of Life we will be creating is coded in C++. In March of 1970, Martin Gardner opened a letter jammed with ideas for his Mathematical Games column in Scientific American.
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