Lin Huang scite author profile

Abstract-With the relentless scaling of semiconductor technology, the lifetime reliability of today's multiprocessor system-on-a-chip (MPSoC) designs has become one of the major concerns for the industry. Without explicitly taking this issue into consideration during the task allocation and scheduling process, existing works may lead to imbalanced aging rates among processors, thus reducing the system's service life. To tackle this problem, in this paper, we propose an analytical model to estimate the lifetime reliability of multiprocessor platforms when executing periodical tasks, and we present a novel task allocation and scheduling algorithm that is able to take the aging effects of processors into account, based on the simulated annealing technique. In addition, to speed up the annealing process, several techniques are proposed to simplify the design space exploration process with satisfactory solution quality. Experimental results on various hypothetical multiprocessors and task graphs show that significant system lifetime extension can be achieved by using the proposed approach, especially for heterogeneous platforms with large task graphs.Index Terms-Lifetime reliability, aging effect, multiprocessor system-on-a-chip, task allocation and scheduling.

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Energy-efficient task allocation and scheduling for multi-mode MPSoCs under lifetime reliability constraint

Huang¹,

Xu²

2010

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AgeSim: A simulation framework for evaluating the lifetime reliability of processor-based SoCs

Huang

2010

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Lin Huang

Lifetime reliability-aware task allocation and scheduling for MPSoC platforms

Task optimization and scheduling of distributed cyber–physical system based on improved ant colony algorithm

On Task Allocation and Scheduling for Lifetime Extension of Platform-Based MPSoC Designs

Energy-efficient task allocation and scheduling for multi-mode MPSoCs under lifetime reliability constraint

AgeSim: A simulation framework for evaluating the lifetime reliability of processor-based SoCs

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