Energy, Latency, and Reliability Tradeoffs in Coding Circuits

Abstract

It is shown that fully-parallel encoding and decoding schemes with asymptotic block error probability that scales as O(f(n)) have Thompson energy that scales as ( f(n)n). As well, it is shown that the number of clock cycles (denoted T(n)) required for any encoding or decoding scheme that reaches this bound must scale as T(n) f(n). Similar scaling results are extended to serialized computation. The Grover information-friction energy model is generalized to three dimensions and the optimal energy of encoding or decoding schemes with probability of block error Pe is shown to be at least (n( Pe(n))13).