Title :
The design of a reduced ambient temperature, air cooled supercomputer
Author :
Mullen, Donald R. ; Fernald, G.
Author_Institution :
Evans & Sutherland, Mountain View, CA, USA
Abstract :
The authors summarize the forces which drive the packaging design of a supercomputer. They focus on using controlled junction temperature cooling of CMOS VLSI as an approach to obtaining improved performance. A cursory review of heat transfer physics is given, borrowing ideas used in heat exchanger design from the process industry. Some specific examples are discussed: finite-element solutions to level-0 and -1 package conduction problems and experimental solutions to air-flow problems at both the heat sink and card/cage/system (levels 2, 3, and 4). It is noted that the very high level of integration possible using 1.0-μm CMOS allows implementation of the entire logic of a supercomputer in a small number of chips, allowing more complex, parallel architectures with large shared memory to be developed
Keywords :
CMOS integrated circuits; VLSI; cooling; mainframes; packaging; parallel machines; 1.0-μm CMOS; CMOS VLSI; air cooled supercomputer; air-flow; controlled junction temperature cooling; finite-element solutions; heat exchanger; heat sink; heat transfer; package conduction; packaging design; parallel architectures with large shared memory; reduced ambient temperature; Cooling; Electrical equipment industry; Finite element methods; Heat transfer; Packaging; Physics; Process design; Supercomputers; Temperature control; Very large scale integration;
Conference_Titel :
Computer Design: VLSI in Computers and Processors, 1988. ICCD '88., Proceedings of the 1988 IEEE International Conference on
Conference_Location :
Rye Brook, NY
Print_ISBN :
0-8186-0872-2
DOI :
10.1109/ICCD.1988.25652
