Abstract
A high-speed 256 K (32 K/spl times/8) CMOS static RAM (SRAM) is described. Precharging and equalization schemes are implemented with address-transition-detection (ATD) techniques. With a differential sensing circuitry, a 23-ns access time is achieved (at V/SUB cc/=5 V and 25/spl deg/C) for addresses and chip-select clocks. The operating current is 36 mA in the READ cycle and 28 mA in the WRITE cycle, at 10-MHz cycling frequency. A four-transistor memory cell is designed with double-polysilicon and double -metal layers to achieve high performances. Versatile redundancy schemes consisting of polysilicon laser fuses, logical circuitry, and novel enable/disable controls are designed to repair defective cells. A compensation circuit is used to optimize writing parameters for redundant columns.
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