PMScan:一种电源管理扫描,在扫描测试期间同时降低动态和泄漏功率

V. Devanathan, C. Ravikumar, R. Mehrotra, V. Kamakoti
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引用次数: 26

摘要

在70纳米以下的技术中,泄漏功率成为总功率的重要组成部分。设计人员通过广泛使用自适应电压缩放技术来降低动态和泄漏功率,从而解决了这一问题。过去发展的低功耗扫描测试方案主要解决动态功耗降低问题,并且在降低总功耗方面效果较差。我们提出一种功率管理扫描(PMScan)方案,该方案利用自适应电压缩放逻辑的存在来降低测试功率。我们还讨论了当所提出的方案用于工业设计时出现的一些实际实施挑战。基准电路和工业设计的实验结果表明,动态和泄漏功率显著降低。所提出的方法还可以通过适当调整扫描移位频率和扫描模式电源,作为权衡测试应用时间和测试功率的工具。
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PMScan : A power-managed scan for simultaneous reduction of dynamic and leakage power during scan test
In sub-70 nm technologies, leakage power becomes a significant component of the total power. Designers address this concern by extensive use of adaptive voltage scaling techniques to reduce dynamic as well as leakage power. Low-power scan test schemes that have evolved in the past primarily address dynamic power reduction, and are less effective in reducing the total power. We propose a power-managed scan (PMScan) scheme which exploits the presence of adaptive voltage scaling logic to reduce test power. We also discuss some practical implementation challenges that arise when the proposed scheme is employed on industrial designs. Experimental results on benchmark circuits and industrial designs show a significant reduction in dynamic and leakage power. The proposed method can also be used as a vehicle to trade-off test application time with test power by suitably adjusting the scan shift frequency and scan-mode power supplies.
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