Title :
Efficient and accurate gate sizing with piecewise convex delay models
Author :
Tennakoon, Hiran ; Sechen, Carl
Author_Institution :
Dept. of Electr. Eng., Washington Univ., Seattle, WA, USA
Abstract :
We present an efficient and accurate gate sizing tool that employs a novel piecewise convex delay model, handling both rise and fall delays, for static CMOS gates. The delay model is used in a new version of a gate-sizing tool called Forge, which not only exhibits optimality, but also efficiently produces the area versus delay tradeoff curve for a block in one step. Forge includes a realistic delay propagation scheme that combines arrival times and slew-rates. Forge is 6.4X faster than a commercial transistor sizing tool, while achieving better delay targets and uses 28% less transistor area for specific delay targets, on average.
Keywords :
CMOS logic circuits; delays; integrated circuit design; logic CAD; CMOS logic circuits; Forge; circuit CAD; delay modeling; gate sizing tool; integrated circuit design; logic CAD; logic gates; piecewise convex delay models; realistic delay propagation scheme; static CMOS gates; Algorithm design and analysis; Design automation; Design optimization; Lagrangian functions; Permission; Propagation delay; Runtime; Semiconductor device modeling; Software libraries; Timing;
Conference_Titel :
Design Automation Conference, 2005. Proceedings. 42nd
Print_ISBN :
1-59593-058-2
DOI :
10.1109/DAC.2005.193926
