连续散列,实现高效的细粒度状态不一致检测

Jae W. Lee, Myron King, K. Asanović
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引用次数: 1

摘要

事务级建模(TLM)通过重用模块的先前实现作为状态不一致检测的黄金模型,允许设计人员在SoC的模块化改进期间节省功能验证工作。基于仿真的验证中存在的一个问题是状态转储的性能和带宽开销以及两种模型之间的比较。在本文中,我们提出了一种有效的细粒度状态不一致检测技术,该技术使用增量哈希在子事务(tick)粒度上检查任意大小的两个状态的一致性。在每个滴答声中,散列生成整个状态的签名,可以有效地更新和比较。我们用FIR滤波器和Vorbis解码器对所提出的签名方案进行了评估,并证明了非常细粒度的状态一致性检查是可行的。哈希签名检查在正确检测任何注入状态不一致的同时,将FIR滤波器的Bluespec RTL模拟的执行时间增加了1.2%,Verbis解码器的执行时间增加了2.2%。
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Continual hashing for efficient fine-grain state inconsistency detection
Transaction-level modeling (TLM) allows a designer to save functional verification effort during the modular refinement of an SoC by reusing the prior implementation of a module as a golden model for state inconsistency detection. One problem in simulation-based verification is the performance and bandwidth overhead of state dump and comparison between two models. In this paper, we propose an efficient fine-grain state inconsistency detection technique that checks the consistency of two states of arbitrary size at sub- transaction (tick) granularity using incremental hashes. At each tick, the hash generates a signature of the entire state, which can be efficiently updated and compared. We evaluate the proposed signature scheme with a FIR filter and a Vorbis decoder and show that very fine-grain state consistency checking is feasible. The hash signature checking increases execution time of Bluespec RTL simulation by 1.2% for the FIR filter and by 2.2% for the Verbis decoder while correctly detecting any injected state inconsistency.
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