Journal of Electrical and Computer Engineering Innovations (Jul 2022)

Energy-Efficient Variation-Resilient High-Throughput Processor Design

  • A. Teymouri,
  • H. Dorosti,
  • M. Ersali Salehi Nasab,
  • S.M. Fakhraie

DOI
https://doi.org/10.22061/jecei.2021.8253.499
Journal volume & issue
Vol. 10, no. 2
pp. 299 – 310

Abstract

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Background and Objectives: The future demands of multimedia and signal processing applications forced the IC designers to utilize efficient high performance techniques in more complex SoCs to achieve higher computing throughput besides energy/power efficiency improvement. In recent technologies, variation effects and leakage power highly affect the design specifications and designers need to consider these parameters in design time. Considering both challenges as well as boosting the computation throughput makes the design more difficult.Methods: In this article, we propose a simple serial core for higher energy/power efficiency and also utilize data level parallel structures to achieve required computation throughput.Results: Using the proposed core we have 35% (75%) energy (power) improvement and also using parallel structure results in 8x higher throughput. The proposed architecture is able to provide 76 MIPS computation throughput by consuming only 2.7 pj per instruction. The outstanding feature of this processor is its resiliency against the variation effects.Conclusion: Simple serial architecture reduces the effect of variations on design paths, furthermore, the effect of process variation on throughput loss and energy dissipation is negligible and almost zero. Proposed processor architecture is proper for energy/power constrained applications such as internet of things (IoT) and mobile devices to enable easy energy harvesting for longer lifetime.

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