Title :
Numerical modeling of a clock distribution network for a superconducting multichip module
Author :
Vichot, Paul ; Mix, Jason A. ; Schoenborn, Zale ; Dunn, John ; Piket-May, Melinda
Author_Institution :
Colorado Univ., Boulder, CO, USA
fDate :
2/1/1998 12:00:00 AM
Abstract :
As supercomputers continue to move toward more powerful processors and parallelization, fast switching structures to route data signals between processors and shared memory become essential, and in fact, may be a primary limiting factor in overall computational throughput. The fast switching network under consideration in this paper is a crossbar switch employing superconducting Josephson Junction (JJ) and multichip module (MCM) technologies. This paper focuses on the design and simulation of the clock distribution network, located within the MCM, that will provide the necessary timing mechanism for data signals traveling through the crossbar switch
Keywords :
clocks; finite difference time-domain analysis; finite element analysis; multichip modules; superconducting integrated circuits; superconducting switches; Josephson junction; clock distribution network; computational throughput; crossbar switch; data signal; design; fast switching network; numerical model; parallelization; processor; routing; shared memory; simulation; supercomputer; superconducting multichip module; timing; Clocks; Concurrent computing; Josephson junctions; Multichip modules; Numerical models; Signal design; Signal processing; Supercomputers; Switches; Throughput;
Journal_Title :
Components, Packaging, and Manufacturing Technology, Part B: Advanced Packaging, IEEE Transactions on
