An Investigation into the Impact of Using Automated Synthesisable Internal Power-Gating on Improved Power Efficiency for ASICs

2024 International Conference on Optimization Computing and Wireless Communication (ICOCWC) Pub Date : 2024-01-29 DOI:10.1109/ICOCWC60930.2024.10470629

Davendra Kumar Doda, M.S. Nidhya, Kalyan Acharjya

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Abstract

Automated synthesizable internal power-gating (ASIPG) offers a promising technology for enhancing the power efficiency of application precise included Circuits (ASICs). This research evaluates the possible impact of using ASIPG for the electricity efficiency of an ASIC. Multiple methods of ASIC strength consumption are tested, which include fixed voltage and frequency, dynamic frequency scaling, and strength-gating. Chip-degree information from two ASICs processing the CNN and GEMM kernels are provided to demonstrate the efficiency of ASIPG compared to traditional power-gating. The evaluation process compares the strength performance and price performance of designs that rent and do not hire ASIPG. Results suggest that designs based on ASIPG display stepped forward power performance by means of over 26% for the CNN kernel as compared to a traditional electricity-gating design and 19% for the GEMM kernel. These outcomes guide the potential of ASIPG to enhance power efficiency for ASIC designs.

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使用可自动合成的内部电源门对提高 ASIC 电源效率影响的研究

自动可合成内部功率门（ASIPG）为提高应用精密集成电路（ASIC）的功率效率提供了一种前景广阔的技术。这项研究评估了使用 ASIPG 对 ASIC 电量效率可能产生的影响。测试了多种 ASIC 强度消耗方法，包括固定电压和频率、动态频率缩放和强度门。提供了处理 CNN 和 GEMM 内核的两个 ASIC 的芯片度数信息，以证明 ASIPG 与传统功率门控相比的效率。评估过程比较了租用和未租用 ASIPG 的设计的强度性能和价格性能。结果表明，基于 ASIPG 的设计与传统的电门设计相比，CNN 内核的功率性能提高了 26%，GEMM 内核的功率性能提高了 19%。这些结果为 ASIPG 提高 ASIC 设计能效的潜力提供了指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2024 International Conference on Optimization Computing and Wireless Communication (ICOCWC)

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