Power efficient standard cell library design Conference

Afonso, R, Rahman, M, Tennakoon, H et al. (2009). Power efficient standard cell library design . 35-38. 10.1109/DCAS.2009.5505245

cited authors

  • Afonso, R; Rahman, M; Tennakoon, H; Sechen, C

authors

abstract

  • We propose a methodology to determine the contents of a power efficient library: a set of sizes (drives) and beta ratios (pMOS widths divided by nMOS widths) that will enable a designer to achieve the best power versus delay tradeoff. The methodology utilizes an optimum continuous gate sizing tool. The software is not only able to produce the optimum continuous power-delay trade-off curve but also perform near optimum discrete gate selection from a given point on the continuous curve. Our results suggest that size options 0.5X, 1X, 2X, 3X, 4X and 3-4 beta ratios centered on the optimum delay beta is the least complex library than can generate power efficient designs. The reduced library yields a performance loss less than 1.5% compared to a much larger library with finer granularity in sizes and betas. © 2009 IEEE.

publication date

  • December 1, 2009

Digital Object Identifier (DOI)

start page

  • 35

end page

  • 38