Copy - July 11, 2021

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Neuromorphic vs. Neural Net

An artificial neural network (ANN) is so far in architecture and function from a biological brain that attempts to simulate a brain in silicon go by a different term altogether: neuromorphic

IBM's TrueNorth chip announced August 2014 claims the neuromorphic moniker. (Asynchronous neural networks are also called spiking neural networks (SNN), but TrueNorth combines the properties of both RNNs and SNNs.)

The TrueNorth chip sports one million neurons and 256 million synapses. But you can't buy one. The closest you can come today perhaps is to use an FPAA, a field-programmable analog array, the analog version of an FPGA. But FPAAs haven't scaled nearly as highly as FPGAs. The largest FPAA is the RASP 2.9. The image of its die below comes from a thesis Contributions to Neuromorphic and Reconfigurable Circuits and Systems.

It has only 78 CABs (Computational Analog Block), contrasted to the largest FPGAs which have over one million logic elements. Researchers in 2013 were able to simulate 18 neuromorphic neurons with this RASP 2.9 analog FPAA chip.

The human brain has 100 billion neurons, so it would hypothetically take 100,000 TrueNorth chips to approach equivalence, based on number of neurons alone. Of course, the other factors, in particular the variable wave shape of biological neurons, would like put any TrueNorth simulation of a brain at a great disadvantage. A lot more information can be carried in a wave shape than in a single scalar value. With an analog FPAA, perhaps neurons that support wave shapes could be simulated, even if for now one may be limited to a dozen or so neurons. But then there is the real mystery: how a biological brain learns, and by extension how to train a neuromorphic system.

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