Input-specific Dynamic Power Optimization for VLSI Circuits

Fei Hu, V. Agrawal
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引用次数: 11

Abstract

Literature proposes linear programming (LP) methods for glitch-less design of digital circuits. Considering the worst-case these methods ensure absence of glitches for any arbitrary state of primary input as well as internal signals. In this paper, we examine an unexplored aspect, i.e., glitch-free design with respect to a specific set of vectors (patterns). Introducing the logic-level concepts of glitch-generation patterns and glitch-generation probability, which are analyzable through logic simulation, we remove glitch filtering requirements from gates on which the given set of input vectors cannot produce glitches. We relax constraints of any existing LP either selectively or probabilistically. Such input-specific design from an LP model without process variation and another with process variation reduced the number of delay buffer overhead by up to 80% and 63%, respectively, while maintaining the power reduction and overall delay
VLSI电路输入特定动态功率优化
文献提出线性规划(LP)方法用于数字电路的无故障设计。考虑到最坏情况,这些方法保证了在任意的主输入和内部信号状态下都不会出现故障。在本文中,我们研究了一个未探索的方面,即关于一组特定向量(模式)的无故障设计。引入故障产生模式和故障产生概率的逻辑级概念,通过逻辑仿真分析,消除了给定输入向量集合上不能产生故障的门的故障滤波要求。我们有选择地或概率地放宽任何现有LP的约束。这种来自无进程变化的LP模型和有进程变化的LP模型的特定输入设计分别将延迟缓冲开销的数量减少了80%和63%,同时保持了功耗降低和总体延迟
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