The essence of Bluespec: a core language for rule-based hardware design

Proceedings of the 41st ACM SIGPLAN Conference on Programming Language Design and Implementation Pub Date : 2020-06-06 DOI:10.1145/3385412.3385965

Thomas Bourgeat, Clément Pit-Claudel, A. Chlipala, Arvind

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引用次数: 33

Abstract

The Bluespec hardware-description language presents a significantly higher-level view than hardware engineers are used to, exposing a simpler concurrency model that promotes formal proof, without compromising on performance of compiled circuits. Unfortunately, the cost model of Bluespec has been unclear, with performance details depending on a mix of user hints and opaque static analysis of potential concurrency conflicts within a design. In this paper we present Koika, a derivative of Bluespec that preserves its desirable properties and yet gives direct control over the scheduling decisions that determine performance. Koika has a novel and deterministic operational semantics that uses dynamic analysis to avoid concurrency anomalies. Our implementation includes Coq definitions of syntax, semantics, key metatheorems, and a verified compiler to circuits. We argue that most of the extra circuitry required for dynamic analysis can be eliminated by compile-time BSV-style static analysis.

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Bluespec的本质是:基于规则的硬件设计的核心语言

Bluespec硬件描述语言提供了比硬件工程师习惯的更高层次的视图，提供了一个更简单的并发模型，促进形式化证明，而不影响编译电路的性能。不幸的是，Bluespec的成本模型一直不清楚，性能细节取决于用户提示和设计中潜在并发性冲突的不透明静态分析。在本文中，我们介绍了Koika，它是Bluespec的衍生物，保留了其理想的属性，并提供了对决定性能的调度决策的直接控制。Koika有一种新颖的、确定的操作语义，它使用动态分析来避免并发异常。我们的实现包括语法、语义、关键元定理的Coq定义，以及经过验证的电路编译器。我们认为动态分析所需的大部分额外电路可以通过编译时bsv风格的静态分析来消除。

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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Proceedings of the 41st ACM SIGPLAN Conference on Programming Language Design and Implementation

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