Abstract
A 7-ns 140-mW 1-Mb CMOS SRAM was developed to provide fast access and low power dissipation by using high-speed circuits for a 3-V power supply: a current-sense amplifier and pre-output buffer. The current-sense amplifier shows three times the gain of a conventional voltage-sense amplifier and saves 60% of power dissipation while maintaining a very short sensing delay. The pre-output buffer reduces output delays by 0.5 ns to 0.75 ns. The 6.6- mu m/sup 2/ high-density memory cell uses a parallel transistor layout and phase-shifting photolithography. The critical charge that brings about soft error in a memory cell can be drastically increased by adjusting the resistances of poly-PMOS gate electrodes. This can be done without increasing process complexity or memory cell area. The 1-Mb SRAM was fabricated using 0.3- mu m CMOS quadrupole-poly and double-metal technology. The chip measures 3.96 mm*7.4 mm (29 mm/sup 2/).< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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