Title :
CMOS gigabit-per-second switching
Author :
Cooperman, Michael ; Andrade, Phil
Author_Institution :
GTE Lab. Inc., Waltham, MA, USA
fDate :
6/1/1993 12:00:00 AM
Abstract :
An analysis and experimental results for a 600-Mb/s 1.2-μm CMOS space switch chip are provided. The high bit rate is achieved with a tree architecture, which is relatively insensitive to on-chip stray capacitance. Computer simulations indicate that bit rates in excess of 1 Gb/s are achievable with 1-μm CMOS and circuit/layout optimization. An obstacle to achieving high bit rate is crosstalk, which is primarily caused by chip packaging and not by the chip itself. Even the best discrete packaging technologies result in excessive crosstalk when 32 outputs switch simultaneously at 600 Mb/s. Tolerable crosstalk was achieved by limiting outputs to two per power supply pin. A major increase in bit rate can be obtained by switching bytes (8 b parallel) of information. This requires on-chip information storage and reclocking to maintain synchronization between the eight parallel bits. Experiments with a second-generation synchronous switch chip have demonstrated switching at 311 MB/s, which corresponds to an STS-48 rate of 2.488 Gb/s
Keywords :
CMOS integrated circuits; crosstalk; digital integrated circuits; electronic switching systems; packaging; semiconductor switches; switching circuits; 1.2 micron; 2.488 Gbit/s; 600 Mbit/s; CMOS space switch chip; ESS; STS-48 rate; chip packaging; crosstalk; high bit rate; monolithic IC; second-generation synchronous switch; synchronization; tree architecture; Bit rate; CMOS technology; Capacitance; Circuits; Computer architecture; Computer simulation; Crosstalk; Packaging; Power supplies; Switches;
Journal_Title :
Solid-State Circuits, IEEE Journal of
