A logic-level simulation of the ATMSWITCH : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Computer Science at Massey University
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Date
1998
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Massey University
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Abstract
ATM networks are intended to provide a "one-size-fits-all" solution to a variety of data communication needs, from low speed, delay-insensitive to high-speed, delay-intolerant. The basic ATM protocol certainly delivers traffic within this broad range, but it does not address the quality of service requirements associated with the various type of traffic. The ATMSW1TCH is designed to use two different mechanisms to provide the quality of service for the various type of traffic. It treats the cells according to their connected virtual channel type and services them as predefined scheme. The ATMSWITCH architecture is a shared-memory and output buffer strategy switch. The switch has been designed much of buffer location and identification can occur in parallel with the 12ns read/write cycle time required to buffer the cell data. The problem is essentially one of design circuitry so that buffer location and identification are as short as possible. The present project has therefore been intended to measure the number of clock cycles required to perform the buffer maintenance activities, and to determine whether the logic speed required to fit this number of clock cycles into the 12ns window is feasible using current technology. The simulated result and timing analysis shows that 10 clock cycles are required during 12ns buffer read and write time, and a reasonable clock speed is 1.2ns per clock cycle.
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Keywords
Computer simulation, Asynchronous transfer mode, Integrated services digital networks, Broadband communication systems