Publication detail

Satisfiability Solving Meets Evolutionary Optimisation in Designing Approximate Circuits

ČEŠKA, M. MATYÁŠ, J. MRÁZEK, V. VOJNAR, T.

Original Title

Satisfiability Solving Meets Evolutionary Optimisation in Designing Approximate Circuits

Type

conference paper

Language

English

Original Abstract

Approximate circuits that trade the chip area or power consumption for the precision of the computation play a key role in development of energy-aware systems. Designing complex approximate circuits is, however, very difficult, especially, when a given approximation error has to be guaranteed. Evolutionary search algorithms together with SAT-based error evaluation currently represent one of the most successful approaches for automated circuit approximation. In this paper, we apply satisfiability solving not only for circuit evaluation but also for its minimisation. We consider and evaluate several approaches to this task, both inspired by existing works as well as novel ones. Our experiments show that a combined strategy, integrating evolutionary search and SMT-based sub-circuit minimisation (using quantified theory of arrays) that we propose, is able to find complex approximate circuits (e.g. 16-bit multipliers) with considerably better trade-offs between the circuit precision and size than existing~approaches.

Keywords

approximate computing, genetic programming, satisfiability solving

Authors

ČEŠKA, M.; MATYÁŠ, J.; MRÁZEK, V.; VOJNAR, T.

Released

29. 7. 2020

Publisher

Springer International Publishing

Location

Alghero

ISBN

978-3-030-51824-0

Book

Theory and Applications of Satisfiability Testing - SAT 2020

Edition

Lecture Notes in Computer Science

Pages from

481

Pages to

491

Pages count

11

BibTex

@inproceedings{BUT168143,
  author="Milan {Češka} and Jiří {Matyáš} and Vojtěch {Mrázek} and Tomáš {Vojnar}",
  title="Satisfiability Solving Meets Evolutionary Optimisation in Designing Approximate Circuits",
  booktitle="Theory and Applications of Satisfiability Testing - SAT 2020",
  year="2020",
  series="Lecture Notes in Computer Science",
  volume="12178",
  pages="481--491",
  publisher="Springer International Publishing",
  address="Alghero",
  doi="10.1007/978-3-030-51825-7\{_}33",
  isbn="978-3-030-51824-0"
}