Partition Based SoC Test Scheduling with Thermal and Power Constraints under Deep Submicron Technologies

Chunhua Yao, K. Saluja, P. Ramanathan
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引用次数: 23

Abstract

For core-based System-on-Chip (SoC) testing, conventional power-constrained test scheduling methods do not guarantee a thermal-safe solution. Also, most of the test scheduling schemes make poor assumptions about power consumption. In deep submicron era, leakage power and wake-up power consumption can not be neglected. In this paper, we propose a partition based thermal-aware test scheduling algorithm with more realistic assumptions of recent SoCs. In our test scheduling algorithm, each test is partitioned and the earliest starting time of each partition is searched. To reduce the execution time of thermal simulation, we also exploit superposition principle to compute the power and thermal profile rapidly and accurately. We apply our test scheduling algorithm to ITC’02 SoC benchmarks and the results show improvements in the total test time over scheduling schemes without partitioning.
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深亚微米下热功耗约束下基于分区的SoC测试调度
对于基于内核的片上系统(SoC)测试,传统的功耗限制测试调度方法并不能保证热安全的解决方案。此外,大多数测试调度方案对功耗的假设都很差。在深亚微米时代,泄漏功率和唤醒功耗也不容忽视。在本文中,我们提出了一种基于分区的热感知测试调度算法,该算法具有更现实的soc假设。在我们的测试调度算法中,对每个测试进行分区,并搜索每个分区的最早开始时间。为了减少热模拟的执行时间,我们还利用叠加原理快速准确地计算出功率和热分布。我们将我们的测试调度算法应用于ITC ' 02 SoC基准测试,结果表明与不分区的调度方案相比,总测试时间有所改善。
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