We describe the design, analysis, and performance of an on-line algorithm to dynamically control the frequency/voltage of a Multiple Clock Domain (MCD) ...
We describe the design, analysis, and performance of an on-line algorithm to dynamically control the frequency/voltage of a Multiple Clock Domain (MCD) ...
Moreover, domains can have independent voltage and frequency control, enabling dynamic voltage scaling at the domain level. Global dynamic voltage scaling ...
The MCD microarchitecture allows the frequency/voltage of microprocessor regions to be adjusted independently and dynamically, allowing energy savings when the ...
Dynamic Frequency and Voltage Control for a Multiple Clock Domain ...
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The MCD microarchitecture allows the frequency/voltage of microprocessor regions to be adjusted independently and dynamically, allowing energy savings when the ...
Jan 21, 2004 · The ability to independently scale frequency and voltage in each domain creates a powerful means of reducing power dissipation.
A multiple clock domain (MCD) microarchitecture, which uses a globally asynchronous, locally synchronous (GALS) clocking style, permits future aggressive ...
Moreover, domains can be given independent voltage and frequency control, enabling dy- namic voltage scaling at the level of domains. Global dynamic voltage ...
Dynamic frequency and voltage control for a multiple clock domain microarchitecture · Compiler-directed frequency and voltage scaling for a multiple clock domain ...
Multiple Clock Domain (MCD) processors are a promising future alternative to today's fully synchronous designs. Dynamic Voltage and Frequency Scaling (DVFS) in ...