A robust architecture for post-silicon skew tuning

Mac Y. C. Kao, Kun-Ting Tsai, Shih-Chieh Chang
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引用次数: 6

Abstract

Clock skew minimization is important in VLSI design field. Due to the presence of Process, Voltage, and Temperature (PVT) variations, the Post-Silicon Skew Tuning (PST) technique with the ability of tolerating PVT variations has brought a broad discussion. A PST architecture can dynamically minimize the clock skew even after a chip is manufactured. However, testing the variation tolerance ability of a PST architecture is very difficult because the clock skew does not directly affect the functionality of a design. In addition, creating PVT variation in the traditional testing environment is not easy. Unlike most previous works which focus on the implementation and the performance issues of a PST architecture, the objective of this paper is to propose efficient test mechanisms and verify the variation tolerance ability. In addition, we also propose a novel structure to increase the robustness of a PST architecture in case of a manufacturing fault. Our experiment shows that with little overhead, we can achieve robustness.
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一个强大的架构后硅倾斜调谐
时钟偏差最小化是VLSI设计领域的重要内容。由于工艺、电压和温度(PVT)变化的存在,具有容忍PVT变化能力的后硅倾斜调谐(PST)技术引起了广泛的讨论。PST架构可以动态地最小化时钟偏差,甚至在芯片制造之后。然而,测试PST架构的容差能力是非常困难的,因为时钟偏差并不直接影响设计的功能。此外,在传统的测试环境中创建PVT变化并不容易。与以往大多数关注PST体系结构的实现和性能问题的工作不同,本文的目标是提出有效的测试机制并验证变异容忍能力。此外,我们还提出了一种新的结构,以增加PST体系结构在制造故障情况下的鲁棒性。我们的实验表明,在很少的开销下,我们可以实现鲁棒性。
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