混沌- mcapi:支持多核并行编程的优化机制

2015 International Symposium on Computer Architecture and High Performance Computing Workshop (SBAC-PADW) Pub Date : 2015-10-18 DOI:10.1109/SBAC-PADW.2015.12

Antonio Ideguchi, C. E. Morón, M. M. Fernandes

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引用次数: 0

摘要

本文提出了一种面向多核平台上基于消息传递的并行编程的IPC机制CHAOS-MCAPI (Communication Header and Operating Support-Multicore Communication API)。所提议的机制建立在D-Bus协议之上，用于消息传输，与UNIX Pipes等低级机制相比，它允许更高的抽象级别和控制。与最初的D-Bus实现相比，CHAOS-MCAPI实现所采用的优化带来了显著的性能提升，这应该通过采用KDBus进一步改进，KDBus是最近在Linux内核中本地可用的“零复制”机制。就可伸缩性和程序员的生产力而言，这应该使CHAOS-MCAPI成为针对多核平台的并行程序的设计和实现的可行替代方案。

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CHAOS-MCAPI: An Optimized Mechanism to Support Multicore Parallel Programming

This paper presents CHAOS-MCAPI (Communication Header and Operating Support-Multicore Communication API), an IPC mechanism targeting parallel programming based on message passing on multicore platforms. The proposed mechanism is built on top of the D-Bus protocol for message transmission, which allows a higher abstraction level and control when compared to lower-level mechanisms such as UNIX Pipes. Optimizations adopted by the implementation of CHAOS-MCAPI resulted in significant performance gains in relation to the original D-Bus implementation, which should be further improved by the adoption of KDBus, a 'zero-copy' mechanism recently made available natively in the Linux Kernel. That should make CHAOS-MCAPI a viable alternative for the design and implementation of parallel programs targeting multicore platforms, both in terms of scalability and programmer's productivity.

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2015 International Symposium on Computer Architecture and High Performance Computing Workshop (SBAC-PADW)

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