Mapping and Scheduling Applications onto Multi-Core Chip-Multiprocessors in Dark-Silicon Era, M.Sc. Thesis Sharif University of Technology ; Sarbazi Azad, Hamid (Supervisor)
Abstract
Growing transistor counts, limited power budgets, and the breakdown of voltage scaling are currently conspiring to create a utilization wall that limits the fraction of a chip that can run at full speed at one time. This concept is the basis of the Dark Silicon definition. To address this issue, it is needed a structure to guaranty Limited power budget and obtain sufficient flexibility and performance for different applications with variety communication needs. Regarding to this structure, our aim is to present a platform for Networks-on-Chip that uses clustering and resource sharing among cores. Moreover, as task mapping on processing elements in NOCs is one of the most effective way to...
Cataloging briefMapping and Scheduling Applications onto Multi-Core Chip-Multiprocessors in Dark-Silicon Era, M.Sc. Thesis Sharif University of Technology ; Sarbazi Azad, Hamid (Supervisor)
Abstract
Growing transistor counts, limited power budgets, and the breakdown of voltage scaling are currently conspiring to create a utilization wall that limits the fraction of a chip that can run at full speed at one time. This concept is the basis of the Dark Silicon definition. To address this issue, it is needed a structure to guaranty Limited power budget and obtain sufficient flexibility and performance for different applications with variety communication needs. Regarding to this structure, our aim is to present a platform for Networks-on-Chip that uses clustering and resource sharing among cores. Moreover, as task mapping on processing elements in NOCs is one of the most effective way to...
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