Asynchronous switching for low-power CLICHE netwok-on-chip

Asynchronous switching is proposed to achieve low power Network on Chip. Asynchronous switching reduces the power dissipation of the network if the activity factor of the data transfer between two ports α d is less than A α c + B α clk . Closed form expressions for power dissipation of CLICHE topolo...

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Bibliographic Details
Published in2011 Saudi International Electronics, Communications and Photonics Conference (SIECPC) pp. 1 - 4
Main Authors El-Moursy, M A, Shawkey, H A
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.04.2011
Subjects
Clocks
Network topology
Power dissipation
Repeaters
Switches
Synchronization
Topology
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Summary:Asynchronous switching is proposed to achieve low power Network on Chip. Asynchronous switching reduces the power dissipation of the network if the activity factor of the data transfer between two ports α d is less than A α c + B α clk . Closed form expressions for power dissipation of CLICHE topology are provided for both synchronous and asynchronous switching. The area of the asynchronous switch is 50% greater than the area of the synchronous switch. However, the power dissipation of asynchronous switching could be decreased by up to 75.7%. Asynchronous switching becomes more efficient as technology advances and network density increases. A reduction in power dissipation reaches 82.3% for 256 IPs with the same chip size. Even with clock gating, asyn-choronous switching achieves significant power reduction of 77.7% for 75% clock activity factor.
ISBN:9781457700682
1457700689
DOI:10.1109/SIECPC.2011.5876995