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Post by tsh73 on Jul 30, 2021 12:11:47 GMT -5
Took hex Pi from pi2e.ch/blog/2017/03/10/pi-digits-download/Going to split hex to bits and try black/white and 2 bit as 4 directions (and/or one bit X other bit Y ?) Now, if I have 1M text file, could I zip it? Sure, but it got to be about (above) 0.5M Naturally, since Pi has random characteristics, it does not compress at all (and 2x is 2 hex digits to single byte)
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Post by tenochtitlanuk on Aug 1, 2021 11:20:29 GMT -5
Some further play using different sources of random decimal digits-- on my site
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Post by Rod on Aug 1, 2021 15:39:42 GMT -5
Really cool looking. But I would question why we get a ball shape, I would have thought that a true random sequence would look like your first plot. Ball shape implies definition and repetitive outcome?
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Post by tsh73 on Aug 5, 2021 15:21:25 GMT -5
My guess is that this is several random plots Each one is random, but they start from same point so finally cover roundish figure. I just got to play with binary Pi Took this file "pi_hex_1k.txt" from from pi2e.ch/blog/2017/03/10/pi-digits-download/ 1000 hex digits. Each digit is 4 bits. We divide them in two pairs. Now, if we map these 2 bits as direction '00':0,'01':90,'10':180,'11':270 we get And if we map each bit separately '00':0,'01':180,'10':90,'11':270 we get Pretty random - but pretty different.
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Post by tenochtitlanuk on Aug 6, 2021 4:41:07 GMT -5
Yup- as the screengrab shows it is the superposition of 500 trails starting at centre but with different random trails. ( Using the LB rnd() it does show the bias...
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Post by Rod on Aug 6, 2021 5:53:41 GMT -5
Bias? I have been staring at these images for hours looking for stereoscopic images of a pie!
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