A discussion on SRAM circuit design trend in deeper nano-meter era

This paper describes the comparisons of area scaling trend of various SRAM margin-assist solutions for VT variability issues, which are based on efforts by not only the cell topology changes from 6 T to 8 T and 10 T but also incorporating multiple voltages supply for cell terminal biasing and timing sequence controls of read and write. The various solutions are analyzed in light of an impact of ever increasing VT variation (sigmaVT) on the required area overhead for each design solution, resulting in slowdown in the scaling pace. It has been found that 6 T will be allowed long reign even in 15 nm, if sigmaVT increasing pace is optimistically assumed, which sigmaVT can be suppressed to <70 mV even at 15 nm, thanks to EOT scaling for LSTP process, otherwise 10 T and 8 T with read modify write will be needed.

[1]  M.J.M. Pelgrom,et al.  Matching properties of MOS transistors , 1989 .

[2]  S. Burns,et al.  An SRAM Design in 65nm and 45nm Technology Nodes Featuring Read and Write-Assist Circuits to Expand Operating Voltage , 2006, 2006 Symposium on VLSI Circuits, 2006. Digest of Technical Papers..

[3]  M. Ikeda,et al.  Digital integrated circuit design for system-on-glass , 2008, 2008 International SoC Design Conference.

[4]  M. Yamaoka,et al.  Low-voltage limitations of memory-rich nano-scale CMOS LSIs , 2007, ESSDERC 2007 - 37th European Solid State Device Research Conference.

[5]  Atsushi Kawasumi,et al.  A Single-Power-Supply 0.7V 1GHz 45nm SRAM with An Asymmetrical Unit-ß-ratio Memory Cell , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[6]  Young Bok Kim,et al.  A low power 8T SRAM cell design technique for CNFET , 2008, 2008 International SoC Design Conference.