A 64-bit 100-MHz multimedia DSP core has been designed using 0.15-µ m CMOS technology. An improved Auto-Backgate-Controlled MT-CMOS (ABC-MT-CMOS) circuit with a charge pump is adopted to suppress the standby leakage current. The dynamic active current of whole chip was simulated to optimize the size of a switch for a power supply control. The DSP core chip, which integrates 300-kgate Logic, 64-kbyte SRAM and charge pump circuit, has 8-µ A standby leakage current. The reduction rate is 1/250.

We apply a selective-sets resizable cache and a complete hierarchy SRAM for the high-performance and low-power RISC CPU core. The selective-sets resizable cache can change the cache memory size by varying the number of cache sets. It reduces the leakage current by 23% with slight degradation of the worst case operating speed from 213 MHz to 210 MHz. The complete hierarchy SRAM enables the partial swing operation not only in the bit lines, but also in the global signal lines. It reduces the current consumption of the memory by 4.6%, and attains the high-speed access of 1.4 ns in the typical case.