A 2.5 Gb/s ATM add-drop unit for B-ISDN based on a GaAs LSI

This paper describes the design and implementation of a high-speed GaAs asynchronous transfer mode (ATM) mux-demux ASIC (AMDA) which is the core LSI circuit in a high-speed ATM add-drop unit (ADU). This unit is used in a new distributed ATM multiplexing-demultiplexing architecture for broadband switching systems. The ADU provides a cell-based interface between systems operating at different data rates (the high-speed interface being 2.5 Gb/s and the low-speed interface being 155/622 Mb/s), or can be used for building local high-speed switches and LANs. Self-timed first-in-first-out (FIFO) buffers are used for handling the speed gaps between domains operating at different clock rates, and a self-timed at receiver´s input (STARI) interface is used at all high-speed chip-to-chip links to eliminate timing skews. A printed circuit board (PCB) with two ADUs in a distributed multiplexing-demultiplexing architecture has been developed, and the AMDA demonstrated operation above 4 Gb/s (500 MHz clock frequency) with an associated power dissipation of 5 W in a standard 0.8 μm E/D MESFET process