ROI-HIT:兴趣区域驱动的高维微架构设计空间探索

IF 2.7 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems Pub Date : 2024-11-06 DOI:10.1109/TCAD.2024.3443006
Xuyang Zhao;Tianning Gao;Aidong Zhao;Zhaori Bi;Changhao Yan;Fan Yang;Sheng-Guo Wang;Dian Zhou;Xuan Zeng
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引用次数: 0

摘要

探索 RISC-V 处理器的设计空间面临着巨大的挑战,这是因为高维设计空间非常庞大,而且相关的仿真成本也非常昂贵。本研究提出了一种兴趣区域(ROI)驱动方法,该方法专注于有前景的 ROI,以减少对巨大设计空间的过度探索,提高优化效率。我们提出了一种基于自组织图(SOM)网络的树形结构,将设计空间划分为 ROI。为了降低设计空间的高维度,开发了一种基于灵敏度矩阵的变量选择技术,用于剪切不重要的设计参数,并在 ROIs 内高效地达到最优。此外,还采用了异步并行策略,进一步节省了模拟时间。实验结果证明了我们提出的方法的优越性,与最先进的方法相比,性能提高了 43.82%,功耗降低了 33.20%,面积减少了 11.41%。
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ROI-HIT: Region of Interest-Driven High-Dimensional Microarchitecture Design Space Exploration
Exploring the design space of RISC-V processors faces significant challenges due to the vastness of the high-dimensional design space and the associated expensive simulation costs. This work proposes a region of interest (ROI)-driven method, which focuses on the promising ROIs to reduce the over-exploration on the huge design space and improve the optimization efficiency. A tree structure based on self-organizing map (SOM) networks is proposed to partition the design space into ROIs. To reduce the high dimensionality of design space, a variable selection technique based on a sensitivity matrix is developed to prune unimportant design parameters and efficiently hit the optimum inside the ROIs. Moreover, an asynchronous parallel strategy is employed to further save the time taken by simulations. Experimental results demonstrate the superiority of our proposed method, achieving improvements of up to 43.82% in performance, 33.20% in power consumption, and 11.41% in area compared to state-of-the-art methods.
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来源期刊
CiteScore
5.60
自引率
13.80%
发文量
500
审稿时长
7 months
期刊介绍: The purpose of this Transactions is to publish papers of interest to individuals in the area of computer-aided design of integrated circuits and systems composed of analog, digital, mixed-signal, optical, or microwave components. The aids include methods, models, algorithms, and man-machine interfaces for system-level, physical and logical design including: planning, synthesis, partitioning, modeling, simulation, layout, verification, testing, hardware-software co-design and documentation of integrated circuit and system designs of all complexities. Design tools and techniques for evaluating and designing integrated circuits and systems for metrics such as performance, power, reliability, testability, and security are a focus.
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