Optimization-based power and thermal management for dark silicon aware 3D chip multiprocessors using heterogeneous cache hierarchy

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Date

2017

Authors

Asad, A.
Ozturk, O.
Fathy, M.
Jahed-Motlagh, M. R.

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Abstract

Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Prior innovative studies have addressed the dark silicon problem in the fields of power-efficient core design. However, addressing dark silicon challenges in uncore component designs such as cache hierarchy, on-chip interconnect etc. that consume significant portion of the on-chip power consumption is largely unexplored. In this paper, for the first time, we propose an integrated approach which considers the impact of power consumption of core and uncore components simultaneously to improve multi/many-core performance in the dark silicon era. The proposed approach dynamically (1) predicts the changing program behavior on each core; (2) re-determines frequency/voltage, cache capacity and technology in each level of the cache hierarchy based on the program's scalability in order to satisfy the power and temperature constraints. In the proposed architecture, for future chip-multiprocessors (CMPs), we exploit emerging technologies such as non-volatile memories (NVMs) and 3D techniques to combat dark silicon. Also, for the first time, we propose a detailed power model which is useful for future dark silicon CMPs power modeling. Experimental results on SPEC 2000/2006 benchmarks show that the proposed method improves throughput by about 54.3% and energy-delay product by about 61% on average, respectively, in comparison with the conventional CMP architecture with homogenous cache system. (A preliminary short version of this work was presented in the 18th Euromicro Conference on Digital System Design (DSD), 2015.) © 2017 Elsevier B.V.

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Microprocessors and Microsystems

Publisher

Elsevier BV

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Keywords

Chip-multiprocessor (CMP), Dark-silicon, Hybrid cache hierarchy, Network-on-chip (NoC), Non-volatile memory (NVM), Optimization, Reconfigurable cache, Adaptive systems, Cache memory, Data storage equipment, Digital storage, Electric power utilization, Multiprocessing systems, Network architecture, Network-on-chip, Silicon, Systems analysis, Three dimensional integrated circuits, Chip multiprocessors, Hybrid caches, Reconfigurable, Integrated circuit design

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Published Version (Please cite this version)

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English