Supporting RTL flow compatibility in a microarchitecture-level design framework

Daniel Schwartz-Narbonne, C. Chan, Yogesh S. Mahajan, S. Malik
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引用次数: 3

Abstract

Current RTL-based design methodologies face significant scaling challenges related to the difficulty of designing, modifying, and verifying RTL. RTL contains primarily low level structural information about the design. In contrast, the microarchitecture-level is much closer to the specification level, making it an effective entry point for hardware design. The explicit description of the high-level units of work is also beneficial for verification. Currently used models for high level design have very complex semantics. In this paper, we present a microarchitectural modeling language with simpler semantics. We demonstrate that it results in a significantly simpler synthesis to Verilog, providing for integration with existing RTL flows. Moreover, the simple semantics of the model enable the generation of PSL assertions for functionally verifying correctness of the synthesis. We demonstrate the efficacy of this approach through two case-studies---a router switch and a processor design. We synthesized both designs, and formally verified the synthesis using the generated assertions.
在微架构级设计框架中支持RTL流兼容性
当前基于RTL的设计方法面临着与设计、修改和验证RTL困难相关的重大扩展挑战。RTL主要包含有关设计的低级结构信息。相比之下,微体系结构级别更接近规范级别,使其成为硬件设计的有效切入点。对高级工作单元的明确描述也有利于验证。目前用于高层设计的模型具有非常复杂的语义。在本文中,我们提出了一种语义更简单的微架构建模语言。我们证明,它可以大大简化对Verilog的合成,并提供与现有RTL流的集成。此外,该模型的简单语义支持生成PSL断言,以便在功能上验证合成的正确性。我们通过两个案例研究证明了这种方法的有效性——路由器开关和处理器设计。我们综合了这两种设计,并使用生成的断言正式验证了综合。
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