Adaptive Verifiability-Driven Strategy for Evolutionary Approximation of Arithmetic Circuits

March 05, 2020 ยท Declared Dead ยท ๐Ÿ› Applied Soft Computing

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Authors Milan Ceska, Jiri Matyas, Vojtech Mrazek, Lukas Sekanina, Zdenek Vasicek, Tomas Vojnar arXiv ID 2003.02491 Category cs.NE: Neural & Evolutionary Citations 4 Venue Applied Soft Computing Last Checked 4 months ago
Abstract
We present a novel approach for designing complex approximate arithmetic circuits that trade correctness for power consumption and play important role in many energy-aware applications. Our approach integrates in a unique way formal methods providing formal guarantees on the approximation error into an evolutionary circuit optimisation algorithm. The key idea is to employ a novel adaptive search strategy that drives the evolution towards promptly verifiable approximate circuits. As demonstrated in an extensive experimental evaluation including several structurally different arithmetic circuits and target precisions, the search strategy provides superior scalability and versatility with respect to various approximation scenarios. Our approach significantly improves capabilities of the existing methods and paves a way towards an automated design process of provably-correct circuit approximations.
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