使用可扩展活动日志对负载存储队列进行基于硬件/软件的诊断

J. Carretero, X. Vera, J. Abella, Tanausú Ramírez, M. Monchiero, Antonio González
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引用次数: 9

摘要

不断增加的器件数量和设计复杂性对后硅验证提出了重大挑战。Bug诊断是后硅验证过程中最困难的一步。有限的再现性和低测试速度是当前测试技术的常见限制。此外,低可观测性不利于全速测试方法。像片上跟踪缓冲区这样的现代解决方案缓解了这些问题,但无法存储长时间的活动跟踪。因此,si后验证的成本现在占总设计成本的很大一部分。这项工作描述了一种混合后si方法来验证现代负载存储队列。我们使用有效的错误检测机制和可扩展的日志机制,在处理器全速运行的情况下长时间观察微架构活动。通过诊断算法分析日志活动来执行验证。检查正确的内存顺序以根除错误的原因。
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Hardware/software-based diagnosis of load-store queues using expandable activity logs
The increasing device count and design complexity are posing significant challenges to post-silicon validation. Bug diagnosis is the most difficult step during post-silicon validation. Limited reproducibility and low testing speeds are common limitations in current testing techniques. Moreover, low observability defies full-speed testing approaches. Modern solutions like on-chip trace buffers alleviate these issues, but are unable to store long activity traces. As a consequence, the cost of post-Si validation now represents a large fraction of the total design cost. This work describes a hybrid post-Si approach to validate a modern load-store queue. We use an effective error detection mechanism and an expandable logging mechanism to observe the microarchitectural activity for long periods of time, at processor full-speed. Validation is performed by analyzing the log activity by means of a diagnosis algorithm. Correct memory ordering is checked to root the cause of errors.
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