VIP-VP:使用基于systemc的虚拟原型对soc信息流策略进行早期验证

2021 Forum on specification & Design Languages (FDL) Pub Date : 2021-09-08 DOI:10.1109/FDL53530.2021.9568377

Mehran Goli, R. Drechsler

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引用次数: 3

摘要

电子系统级(ESL)的虚拟原型(vp)的出现在实现片上系统(soc)设计流程的现代化方面发挥了重要作用，从而提高了设计效率并减少了产品上市时间的限制。利用副总裁并扩展他们的用例以进行早期安全验证是一个有希望的方向。由于修复任何安全性缺陷的成本随着开发阶段的增加而增加，基于vp的安全性验证可以显著地避免代价高昂的迭代。在本文中，我们提出了一种新的基于vp的动态信息流分析方法——VIP-VP。VIP-VP使设计人员能够针对安全威胁模型验证给定基于vp的SoC的信息流策略，例如信息泄漏(机密性)和对内存中数据的未经授权访问(完整性)。实验结果包括一个真实的基于虚拟现实的SoC，证明了所提出方法的可扩展性和适用性。

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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VIP-VP: Early Validation of SoCs Information Flow Policies using SystemC-based Virtual Prototypes

The emergence of Virtual Prototypes (VPs) at the Electronic System Level (ESL) has played a major role in modernizing the System-on-Chips (SoCs) design flow to raise design productivity and reduce time-to-market constraint. Leveraging VPs and extending their use-cases for early security validation are shown as a promising direction. As the cost of fixing any security flaws increases with the stage of development, VP-based security validation can significantly avoid costly iterations. In this paper, we propose VIP-VP, a novel VP-based dynamic information flow analysis approach at the ESL.VIP-VP enables designers to validate the information flow policies of a given VP-based SoC against security threat models, such as information leakage (confidentiality) and unauthorized access to data in a memory (integrity). Experimental results including a real-world VP-based SoC demonstrate the scalability and applicability of the proposed approach.

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2021 Forum on specification & Design Languages (FDL)

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