http://www.cs.nyu.edu/courses/fall08/G22.2965-001/geneticalgex
http://www.cs.nyu.edu/courses/fall08/G22.2965-001/geneticalgex

Although the configuration program specified tasks for all 100 cells, it transpired that only 32 were essential to the circuit's operation. Thompson could bypass the other cells without affecting it. A further five cells appeared to serve no logical purpose at all--there was no route of connections by which they could influence the output. And yet if he disconnected them, the circuit stopped working.

genetic fpga evolution/programming

CREATURES FROM PRIMORDIAL SILICON

apply evolution to digital FPGA

Using FPGAs to evolve solutions to problems.

I’ve always wanted my own supercomputer. Let’s be honest, what self-respecting geek doesn’t? Unfortunately, I’m usually poor, and I live in a space that’s ~300 ft^2 (that I share with someone else), so actually owning anything considered a supercomputer is out of the question. Fortunately, “Supercomputers” from the 1980’s weren’t actually all that complicated, and cheap FPGA boards have gotten pretty good. And thus, I give you the Non-Von1. What is the Non-Von 1? For those out there that love both retro computing and weird computer architectures, this one is for you. The “Non-Von” was a “Non-Von Neumann” computer that came out of Columbia University in the early 1980’s.

A supercomputer that does NOT use the Von Neumann architecture...lemme at it!

I’ve always wanted my own supercomputer. Let’s be honest, what self-respecting geek doesn’t? Unfortunately, I’m usually poor, and I live in a space that’s ~300 ft^2 (that I share with someone else), so actually owning anything considered a supercomputer is out of the question. Fortunately, “Supercomputers” from the 1980’s weren’t actually all that complicated, and cheap FPGA boards have gotten pretty good. And thus, I give you the Non-Von1.