Title :
Yield-driven, false-path-aware clock skew scheduling
Author :
Tsai, Jeng-Liang ; Baik, Dong Hyun ; Chen, Charlie Chung-Ping ; Saluja, Kewal K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA
Abstract :
Semiconductor technology advances have enabled designers to integrate more functionality in a single chip. As design complexity increases, many new design techniques are developed to optimize chip area and power consumption, as well as performance. Traditionally, yield improvement has been achieved through process improvement. However, in deep-submicron technologies, process variations are difficult to control. As a result, many design decisions significantly affect yield. Therefore, designers should consider yield-related issues during the design phase. This article proposes clock skew scheduling as a tool to address causes of performance-related circuit yield loss. It is an interesting example of how managing circuit-level parameters can have a direct impact on yield metrics and therefore a clear example of the direction of DFM research.
Keywords :
clocks; design for manufacture; integrated circuit design; integrated circuit yield; scheduling; semiconductor technology; circuit yield; clock skew scheduling; deep-submicron technologies; design complexity; semiconductor technology; Circuits; Clocks; Cost function; Design for manufacture; Flip-flops; Scheduling; Time factors; Timing; Uncertainty; Venture capital; DFM; circuit-level parameters; clock skew scheduling; performance-related circuit yield loss;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2005.75
