ADAC: Automated Design of Approximate Circuits

conference paper

English

Approximate circuits with relaxed requirements on functional correctness play an important role in the development of resource-efficient computer systems. Designing approximate circuits is a very complex and time-demanding process trying to find optimal trade-offs between the approximation error and resource savings. In this paper, we present ADAC - a novel framework for automated design of approximate arithmetic circuits. ADAC integrates in a unique way efficient simulation and formal methods for approximate equivalence checking into a search-based circuit optimisation. To make ADAC easily accessible, it is implemented as a module of the ABC tool: a~state-of-the-art system for circuit synthesis and verification. Within several hours, ADAC is able to construct high-quality Pareto sets of complex circuits (including even 32-bit multipliers), providing useful trade-offs between the resource consumption and the error that is formally guaranteed. This demonstrates outstanding performance and scalability compared with other existing approaches.

approximate circuits, energy-efficient computing, design automation, approximate equivalence checking, Cartesian Genetic Programming, SAT and BDD-based decision procedures

ČEŠKA, M.; MATYÁŠ, J.; MRÁZEK, V.; VAŠÍČEK, Z.; SEKANINA, L.; VOJNAR, T.

14. 7. 2018

Springer International Publishing

Oxford, UK

978-3-319-96145-3

Proceedings of 30th International Conference on Computer Aided Verification (CAV'18)

612

620

8

https://www.fit.vut.cz/research/publication/11731/