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Post by KnivD on May 27, 2019 16:28:38 GMT
In addition to the website, full Rittle documentation for the current version can be downloaded as a PDF file HEREHere is also a short benchmark program ported for Rittle: print "RITTLE benchmark (C) KnivD 2016, 2019",CRLF; var int t, i=0; var real x[1001]; var real f=0.0; var text s1, s2, s=""; print "Calculating... "; var int TIMER=uptime; while (uptime-TIMER)<30000000; i=i+2; f=f+2.0002; if (i \\ 2)==0; i=i*2; i=i\2; f=f*2.0002; f=f/2.0002; endif; i--; t=100; while t--; f=f-1.0001; if (f-trim(f))>=0.5; f=sin(f*log(i)); s=format "|d* 6.6>", f; endif; f=(f-tan(i))*(random/i); s2=format "|d", i; s1,s2=cut(s2,0,2); if search(s1,s,0)>0; s=s+"0"; endif; until; x[1+(i\\1000)]=f; until; s1=format "|d* 8", (i*1024)\286; print "_rPerformance: ",s1," grains",CRLF;
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Post by KnivD on May 28, 2019 13:20:54 GMT
It is not in the documentation or the website, but this is how the RITTLE Board looks like. It is a small board that can be put on a breadboard, or take patch modules on top of itself, just like the Arduino. This in the picture is the first one that I assembled by hand for the development of Rittle for PIC32.
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