Title :
A 250 Mb/s 32*32 CMOS crosspoint LSI for ATM switching systems
Author :
Akata, M. ; Karube, Shu ; Sakamoto, Takanori ; Saito, Takashi ; Yoshida, Sigeru ; Ouchi, M. ; Maeda, T.
Author_Institution :
NEC Corp., Kawasaki, Japan
Abstract :
In the CMOS cross-point LSI described, fully synchronous switching capability for fixed-length ATM cells (packets), as well as the functions of conventional cross-point switches, has been realized. Packet broadcast capability has also been achieved as the result of input-oriented bit-map routing architecture. In order to exchange 32 packet links at the broadband line speed, tristate buffers and control latches with reduced parasitic capacitors have been utilized. The 40 k transistor chip is fabricated with a 1.0- mu m double-metal-layer n-well CMOS technology. The switch matrix is 2.4*3.2 mm. The chip size, 7.4*7.4 mm, is set by the 113 signal pads and the 39 voltage supply pads. Voltage supply nodes for output buffers are completely separated from the others. 250-Mb/s operation has been verified under nominal conditions with a 176-pin PGA package. Operating from a -4.5-V supply at 160 Mb/s, the chip dissipates 1.2 W.<>
Keywords :
CMOS integrated circuits; electronic switching systems; large scale integration; packet switching; 1.0 micron; 1.2 W; 250 Mbit/s; ATM switching systems; CMOS crosspoint LSI; PGA package; control latches; double-metal-layer n-well CMOS technology; fixed-length ATM cells; fully synchronous switching capability; input-oriented bit-map routing architecture; output buffers; packet links; parasitic capacitors; switch matrix; tristate buffers; Asynchronous transfer mode; Broadcasting; CMOS technology; Capacitors; Large scale integration; Packet switching; Routing; Switches; Switching systems; Voltage;
Conference_Titel :
Solid-State Circuits Conference, 1990. Digest of Technical Papers. 37th ISSCC., 1990 IEEE International
Conference_Location :
San Francisco, CA, USA
DOI :
10.1109/ISSCC.1990.110115
