High data rate switch with amplifier chip

A critical component for high bandwidth communications links is a digital switch. Desirable features of a digital switch include: high input/output bandwidth, high channel count, scalability, low latency and interchannel skew. Superconductive circuits, with simultaneous high speed and low power advantages (even including the requisite cryocooler) have been applied to a highly scaleable crossbar switch, useful in supercomputer networks, massively parallel processing (MPP), and high data rate telecommunications. We report here on the testing of a 16/spl times/16 switch chip based on the switch chip component of the highly scaleable crossbar system. We have successfully transmitted multi-Gb/s data through this superconducting switch, with packet destination addressing decoded from the header of the data packet. The data are transmitted to a separate superconducting amplifier chip, mounted on a superconducting multi-chip module with the switch. The switch is a crossbar architecture, voltage state design, and operated to beyond 3 Gb/s. The amplifier is a clocked latching stack of Josephson junctions. Output of the amplifier at 6.2 Gb/s is 7.0 mV, which facilitates the interface of the module to its users. BER of the two-chip assembly is 10/sup -9/ or less above 2 Gb/s.