Title :
Minimum Supply Voltage and Yield Estimation for Large SRAMs Under Parametric Variations
Author :
Wang, Jiajing ; Calhoun, Benton H.
Author_Institution :
Intel Corp., Hillsboro, OR, USA
Abstract :
SRAM cell minimum operation voltage (Vmin) exhibits a skewed distribution in the presence of random parametric variations. Standard Monte Carlo (MC) simulation is prohibitively expensive to estimate the tail of the Vmin distribution for large SRAMs. We propose a fast and accurate method to estimate Vmin based on the statistical trend of static noise margin with VDD scaling. Our preliminary work has shown its efficiency for standby Vmin estimation. In this work, we extend the method to estimate read and write Vmin and yield. We also generalize it for both symmetric and asymmetric types of cells. With comparable accuracy, the proposed model offers a huge speedup over standard MC. Compared with an alternative fast MC method, importance sampling, it shows a good agreement with less complexity.
Keywords :
CMOS memory circuits; Monte Carlo methods; SRAM chips; circuit simulation; integrated circuit noise; integrated circuit yield; SRAM cell minimum operation voltage; Vmin distribution; minimum supply voltage; random parametric variation; standard Monte Carlo simulation; static noise margin; yield estimation; Accuracy; Computational modeling; Estimation; Monte Carlo methods; Random access memory; Stability analysis; Wireless sensor networks; Minimum operation voltage (Vmin); Monte Carlo (MC); SRAM; static noise margin (SNM); variation; yield;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2010.2071890
