Towards SAT-Based SBST Generation for RISC-V Cores

2021 IEEE 22nd Latin American Test Symposium (LATS) Pub Date : 2021-10-27 DOI:10.1109/LATS53581.2021.9651819

Tobias Faller, P. Scholl, Tobias Paxian, B. Becker

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引用次数: 4

Abstract

The increasing amount and diversity of System-On-a-Chip (SoC) devices with short development times pose numerous challenges. The RISC-V initiative targets this market with a free and open ISA that supports custom instruction set extensions and accelerators to adapt to application specific scenarios and meet varying constraints w.r.t. efficiency, security, safety and computational power. In this context we target an appropriate test strategy to find manufacturing defects during production, and moreover, to detect degradation in the field. An essential part of this strategy will be so-called Software-Based Self-Tests (SBST). Manually developing SBST programs is a tedious and time-consuming task that requires the expertise of a skilled engineer with detailed knowledge about the specific architecture of the processor at hand. In contrast we present a staggered SBST approach for the automatic creation of SBST programs for RISC-V architectures with the help of SAT-based test pattern generation. First experimental results to demonstrate the feasibility of our approach are provided by test generation results for two exemplary RISC-V processor, each in two variants.

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面向RISC-V核的基于sat的SBST生成

随着系统单片(SoC)器件数量和种类的不断增加，开发时间也越来越短，这带来了许多挑战。RISC-V计划以免费开放的ISA为目标市场，该ISA支持自定义指令集扩展和加速器，以适应特定的应用场景，并满足不同的效率、安全性、安全性和计算能力限制。在这种情况下，我们的目标是一个适当的测试策略，以发现生产过程中的制造缺陷，而且，在现场检测退化。该策略的一个重要部分将是所谓的基于软件的自测(SBST)。手动开发SBST程序是一项冗长而耗时的任务，需要熟练的工程师的专业知识，并对手头的处理器的特定体系结构有详细的了解。相比之下，我们提出了一种交错的SBST方法，用于在基于sat的测试模式生成的帮助下为RISC-V架构自动创建SBST程序。首先，通过对两个示例性RISC-V处理器的测试生成结果提供了证明我们方法可行性的实验结果，每个处理器都有两个变体。

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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2021 IEEE 22nd Latin American Test Symposium (LATS)

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