面向传输MX体系结构的可伸缩异构运行时系统

2013 IEEE International Symposium on Parallel & Distributed Processing, Workshops and Phd Forum Pub Date : 2013-05-20 DOI:10.1109/IPDPSW.2013.18

John D. Leidel, J. Bolding, Geoffrey Rogers

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引用次数: 6

摘要

鉴于最近多核时代的到来[1]，高性能、低延迟运行时系统领域的研究工作显著增加。这项研究催生了低开销调度技术、小内存占用并行执行单元和无内核上下文环境等新技术。本文提出了一个框架和运行时系统，为实现低延迟、高性能的运行时技术在传达MX-100平台和CHOMP微架构[14]上的真正异构方法提供了一个框架和运行时系统。这个框架，被认为是传达轻量级运行时[CLR]，旨在为大规模并行CHOMP基础设施提供高性能、编程模型无关的并行库支持。这项工作探讨了构建CLR系统的基本设计要求和实现细节，作为一个真正异构的低级运行时系统，用于广泛的并行编程模型目标。

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Toward a Scalable Heterogeneous Runtime System for the Convey MX Architecture

Given the recent advent of the multicore era [1], research efforts in the area of high performance, low latency runtime systems have increased significantly. This research has given birth to new techniques in low-overhead scheduling techniques, small-memory footprint parallel execution units and kernel-free contextual environments. This paper presents a framework and runtime system for a truly heterogeneous approach to low-latency, high performance runtime techniques on the Convey MX-100 platform and CHOMP micro-architecture [14]. This framework, deemed the Convey Lightweight Runtime [CLR], is designed to provide high performance, programming-model agnostic parallel library support to the massively parallel CHOMP infrastructure. This work explores the fundamental design requirements and implementation details behind constructing the CLR system as a truly heterogeneous low-level runtime system for a wide array of parallel programming model targets.

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2013 IEEE International Symposium on Parallel & Distributed Processing, Workshops and Phd Forum

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