Sciweavers

DATE
2008
IEEE

Layout Level Timing Optimization by Leveraging Active Area Dependent Mobility of Strained-Silicon Devices

14 years 2 months ago
Layout Level Timing Optimization by Leveraging Active Area Dependent Mobility of Strained-Silicon Devices
Advanced MOSFETs such as Strained Silicon (SS) devices have emerged as critical enablers to keep Moore's law on track for sub100nm technologies. Use of Strained Silicon devices provides performance improvement equivalent to use of next generation devices, without actually requiring scaling. Traditionally, the research in the field of SS has been focussed on device modeling and process characterization. Recently (in [1] [2]), the dependence of mobility of a SS MOSFET device on its poly-to-poly distance has been reported. In this work, we propose a new methodology to exploit this dependence to achieve cycle time reduction of a design at the layout level. To the best of our knowledge, this is the first research work to tackle timing closure by layout modifications using active area dependent mobility of SS devices. Our methodology shows consistent improvement for benchmark designs mapped onto various 90nm commercial standard cell libraries. This work enables reduction of cycle time ...
Ashutosh Chakraborty, Sean X. Shi, David Z. Pan
Added 19 Oct 2010
Updated 19 Oct 2010
Type Conference
Year 2008
Where DATE
Authors Ashutosh Chakraborty, Sean X. Shi, David Z. Pan
Comments (0)