A critical analysis of application-adaptive multiple clock processors

Enabled by the continuous advancement in fabrication technology, present day synchronous microprocessors include more than 100 million transistors and have clock speeds well in excess of the 1GHz mark. Distributing a low-skew clock signal in this frequency range to all areas of a large chip is a tas...

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Hauptverfasser:	Talpes, Emil, Marculescu, Diana
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Schlagworte:	Hardware > Emerging technologies Hardware > Very large scale integration design
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creator	Talpes, Emil Marculescu, Diana
description	Enabled by the continuous advancement in fabrication technology, present day synchronous microprocessors include more than 100 million transistors and have clock speeds well in excess of the 1GHz mark. Distributing a low-skew clock signal in this frequency range to all areas of a large chip is a task of growing complexity. As a solution to this problem, designers have recently suggested the use of frequency islands that are locally clocked and externally communicate using mixed timing communication schemes. Such a design style fits nicely the recently proposed concept of voltage islands that, in addition, can potentially enable fine grain dynamic power management. This paper proposes a design exploration framework for application-adaptive multiple clock processors which provides the means for analyzing and identifying the right inter-domain communication scheme and the proper granularity for the choice of voltage/frequency. In addition, the proposed design exploration framework allows for comparative analysis of newly proposed or existing application-driven dynamic power management strategies. Such a design exploration framework and accompanying results can help designers and computer architects in choosing the right design strategy for achieving better power-performance trade-offs in multiple clock high-end processors.
doi_str_mv	10.1145/871506.871576
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identifier	ISBN: 158113682X
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subjects	Hardware -- Emerging technologies Hardware -- Very large scale integration design
title	A critical analysis of application-adaptive multiple clock processors
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