Abstract: | A 32-kB cache macro with an experimental reduced instruction set computer (RISC) is realized. A pipelined cache access to realize a cycle time shorter than the cache access time is proposed. A double-word-line architecture combines single-port cells, dual-port cells, and CAM cells into a memory array to improve silicon area efficiency. The cache macro exhibits 9-ns typical clock-to-HIT delay as a result of several circuit techniques, such as a section word-line selector, a dual transfer gate, and 1.0-μm CMOS technology. It supports multitask operation with logical addressing by a selective clear circuit. The RISC includes a double-word load/store instruction using a 64-b bus to fully utilize the on-chip cache macro. A test scheme allows measurement of the internal signal delay. The test device design is based on the unified design rules scalable through multigenerations of process technologies down to 0.8 μm |