Title :
A fast 7.5 ns access 1K-bit RAM for cache-memory systems
Author :
Kawarada, Kuniyasu ; Suzuki, Masao ; Mukai, Hisakazu ; Toyoda, Kazuhiro ; Kondo, Yoshisuke
Abstract :
A 1024-bit ECL RAM with greatly improved speed performances was developed. Typical access time and write cycle time are as short as 7.5 and 10 ns, respectively, under 784 mW of power dissipation, achieving a power and access-time product as small as 5.7 pJ/bit. Novel ECL circuit techniques, especially in address decoder circuits, as well as improved process technologies enabled realizing these high-speed characteristics. The device uses a V-groove isolation process and a shallow emitter diffusion technology with doped polysilicon. It has a memory organization of 256-words by 4-bits where its main use is as a cache memory. Besides this basic organization, it has flexibility to also operate as a 512-word by 2-bit and 1024-word by 1-bit memory.
Keywords :
Bipolar integrated circuits; Emitter-coupled logic; Integrated circuit technology; Integrated memory circuits; Large scale integration; Random-access storage; bipolar integrated circuits; emitter-coupled logic; integrated circuit technology; integrated memory circuits; large scale integration; random-access storage; Cache memory; Central Processing Unit; Circuit synthesis; Control systems; Data processing; Decoding; Isolation technology; Power dissipation; Random access memory; Read-write memory;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1978.1051115
