在芯片异构多处理器系统上实现可移植性和效率

2014 24th International Conference on Field Programmable Logic and Applications (FPL) Pub Date : 2014-10-20 DOI:10.1109/FPL.2014.6927395

E. Cartwright, A. Sadeghian, Sen Ma, D. Andrews

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引用次数: 4

摘要

芯片异构多处理器(CHMP)系统的新兴编程模型将架构细节提升到源代码中。这消除了可移植性，并要求设计师在尝试优化设计时导航多维搜索空间。在本文中，我们提出了一种通过多态函数和自适应运行时系统的组合来恢复可移植性的方法。它们一起支持运行时分析和跨系统的未更改源代码的动态调度，这些系统具有异构资源的不同组合。我们的结果验证了我们的编程模型和运行时系统重新启用一次编写代码并在任何地方运行的概念的能力。运行时结果显示运行时调优如何随着计算资源数量和异构性的增加而提高资源利用率和性能。

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Achieving portability and efficiency over chip heterogeneous multiprocessor systems

Emerging programming models for chip heterogeneous multiprocessor (CHMP) systems elevate architecture details up into the source code. This eliminates portability and requires designers to navigate a multidimensional search space when trying to optimize designs. In this paper, we present an approach that reinstates portability through a combination of polymorphic functions and an adaptive runtime system. Together they enable runtime profiling and dynamic scheduling of unaltered source code across systems with different combinations of heterogeneous resources. Our results verify the ability of our programming model and runtime system to re-enable the notion of writing code once and run anywhere. Runtime results show how runtime tuning can increase resource utilization and provide performance increases as the number and heterogeneity of computing resources increases.

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2014 24th International Conference on Field Programmable Logic and Applications (FPL)

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