Title :
PVT-tolerant 7-Transistor SRAM Optimization via Polynomial Regression
Author :
Mohanty, Saraju P. ; Kougianos, Elias
Author_Institution :
NanoSystem Design Lab., Univ. of North Texas, Denton, TX, USA
Abstract :
Low power consumption, stability, and PVT-tolerance in Static Random Access Memories (SRAM) is essential for nanoscale System-on-Chip (SoC) designs. In this paper, a novel design flow is presented for optimizing a figure of merit called Power to Static-Noise-Margin (SNM) Ratio (PSR). The minimization of PSR results in power minimization and SNM maximization of nano-CMOS SRAM circuits which are mutually conflicting objectives. A 45 nm single ended 7-Transistor SRAM is used as an example circuit for demonstrating the effectiveness of the optimal design flow presented in this paper. Worst case temperature analysis is performed on a baseline SRAM circuit for all three Figures of Merit (FoMs): power, SNM, and PSR. After accurate characterization of the FoMs for worst case temperature and process variation analysis, the baseline SRAM circuit at worst case temperature is subjected to a polynomial regression based optimization algorithm. Simulation results demonstrate that the optimal SRAM design is PVT-tolerant with optimized power consumption, SNM and PSR.
Keywords :
CMOS memory circuits; SRAM chips; circuit optimisation; circuit stability; integrated circuit design; low-power electronics; minimisation; nanoelectronics; polynomials; power aware computing; regression analysis; system-on-chip; FoM; PSR minimization; PVT-tolerant 7-transistor SRAM optimization; SNM maximization; SoC design stability; baseline SRAM circuit; design flow; figure of merit optimization; low power consumption; nanoCMOS SRAM circuits; nanoscale system-on-chip design; polynomial regression based optimization algorithm; power minimization; power-to-static-noise-margin ratio; process variation analysis; single ended 7-transistor SRAM; size 45 nm; static random access memories; worst case temperature analysis; MOS devices; Optimization; Polynomials; Power dissipation; Random access memory; Temperature measurement; Transistors; Nano-CMOS; PVT; Power; SNM; SRAM;
Conference_Titel :
Electronic System Design (ISED), 2011 International Symposium on
Conference_Location :
Kochi, Kerala
Print_ISBN :
978-1-4577-1880-9
DOI :
10.1109/ISED.2011.11
