A novel approach to chip-to-chip communication using a single flux quantum pulse

Author

Maezawa, M. ; Yamamori, H. ; Shoji, A.

Author_Institution

Electrotech. Lab., Ibaraki, Japan

Volume

9

Issue

2

fYear

1999

fDate

6/1/1999 12:00:00 AM

Firstpage

4049

Lastpage

4052

Abstract

A novel approach to chip-to-chip communication for RSFQ technology is proposed. The main idea is to fabricate Josephson junctions on a substrate for multi-chip packaging, which equips the substrate as well as the chip with built-in active drivers and receivers. The driver on the chip is connected directly to the receiver on the substrate through a connector which can be considered as a lumped circuit element. Because the circuit is free from the impedance matching constraint, broadband chip-to-chip data transfer with wide operating margins will be realized. We have designed, simulated and optimized a chip-to-chip single flux quantum (SFQ) pulse transfer circuit. For a connector inductance of 20 pH, the bias current margins and the maximum throughput have been calculated to be /spl plusmn/24% and above 50 Gb/s, respectively.

Keywords

digital integrated circuits; flip-chip devices; high-speed integrated circuits; multichip modules; superconducting integrated circuits; 50 Gbit/s; Josephson junctions; RSFQ technology; SFQ pulse transfer circuit; broadband chip-to-chip data transfer; built-in active drivers; built-in active receivers; chip-to-chip communication; connector; lumped circuit element; multi-chip packaging; rapid SFQ digital circuits; single flux quantum pulse; wide operating margins; Circuit simulation; Communications technology; Connectors; Design optimization; Driver circuits; Impedance matching; Inductance; Josephson junctions; Packaging; Pulse circuits;

fLanguage

English

Journal_Title

Applied Superconductivity, IEEE Transactions on

Publisher

ieee

ISSN

1051-8223

Type

jour

DOI

10.1109/77.783916

Filename

783916