HierCGRA: A Novel Framework for Large-Scale CGRA with Hierarchical Modeling and Automated Design Space Exploration

IF 3.1 4区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Sichao Chen, Chang Cai, Su Zheng, Jiangnan Li, Guowei Zhu, Jingyuan Li, Yazhou Yan, Yuan Dai, Wenbo Yin, Lingli Wang
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引用次数: 0

Abstract

Coarse-grained reconfigurable arrays (CGRAs) are promising design choices in computation-intensive domains since they can strike a balance between energy efficiency and flexibility. A typical CGRA comprises processing elements (PEs) that can execute operations in applications and interconnections between them. Nevertheless, most CGRAs suffer from the ineffectiveness of supporting flexible architecture design and solving large-scale mapping problems. To address these challenges, we introduce HierCGRA, a novel framework that integrates hierarchical CGRA modeling, Chisel-based Verilog generation, LLVM-based data flow graph (DFG) generation, DFG mapping, and design space exploration (DSE). With the graph homomorphism (GH) mapping algorithm, HierCGRA achieves a faster mapping speed and higher PE utilization rate compared with the existing state-of-the-art CGRA frameworks. The proposed hierarchical mapping strategy achieves 41× speedup on average compared with the ILP mapping algorithm in CGRA-ME. Furthermore, the automated DSE based on Bayesian optimization achieves a significant performance improvement by the heterogeneity of PEs and interconnections. With these features, HierCGRA enables the agile development for large-scale CGRA and accelerates the process of finding a better CGRA architecture.

HierCGRA:利用分层建模和自动设计空间探索实现大规模 CGRA 的新型框架
粗粒度可重构阵列(CGRA)在计算密集型领域是一种很有前途的设计选择,因为它们可以在能效和灵活性之间取得平衡。典型的 CGRA 由可在应用中执行操作的处理元件(PE)和它们之间的互连组成。然而,大多数 CGRA 在支持灵活的架构设计和解决大规模映射问题方面效果不佳。为了应对这些挑战,我们引入了 HierCGRA,这是一种集成了分层 CGRA 建模、基于 Chisel 的 Verilog 生成、基于 LLVM 的数据流图(DFG)生成、DFG 映射和设计空间探索(DSE)的新型框架。通过图同态(GH)映射算法,HierCGRA 与现有最先进的 CGRA 框架相比,实现了更快的映射速度和更高的 PE 利用率。与 CGRA-ME 中的 ILP 映射算法相比,所提出的分层映射策略平均加快了 41 倍。此外,基于贝叶斯优化的自动 DSE 通过 PE 和互连的异构性实现了显著的性能提升。凭借这些特性,HierCGRA 实现了大规模 CGRA 的敏捷开发,并加快了寻找更好 CGRA 架构的进程。
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来源期刊
ACM Transactions on Reconfigurable Technology and Systems
ACM Transactions on Reconfigurable Technology and Systems COMPUTER SCIENCE, HARDWARE & ARCHITECTURE-
CiteScore
4.90
自引率
8.70%
发文量
79
审稿时长
>12 weeks
期刊介绍: TRETS is the top journal focusing on research in, on, and with reconfigurable systems and on their underlying technology. The scope, rationale, and coverage by other journals are often limited to particular aspects of reconfigurable technology or reconfigurable systems. TRETS is a journal that covers reconfigurability in its own right. Topics that would be appropriate for TRETS would include all levels of reconfigurable system abstractions and all aspects of reconfigurable technology including platforms, programming environments and application successes that support these systems for computing or other applications. -The board and systems architectures of a reconfigurable platform. -Programming environments of reconfigurable systems, especially those designed for use with reconfigurable systems that will lead to increased programmer productivity. -Languages and compilers for reconfigurable systems. -Logic synthesis and related tools, as they relate to reconfigurable systems. -Applications on which success can be demonstrated. The underlying technology from which reconfigurable systems are developed. (Currently this technology is that of FPGAs, but research on the nature and use of follow-on technologies is appropriate for TRETS.) In considering whether a paper is suitable for TRETS, the foremost question should be whether reconfigurability has been essential to success. Topics such as architecture, programming languages, compilers, and environments, logic synthesis, and high performance applications are all suitable if the context is appropriate. For example, an architecture for an embedded application that happens to use FPGAs is not necessarily suitable for TRETS, but an architecture using FPGAs for which the reconfigurability of the FPGAs is an inherent part of the specifications (perhaps due to a need for re-use on multiple applications) would be appropriate for TRETS.
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