一种基于软件svm的事务性内存,用于带有本地内存的多核加速器体系结构

Jun Lee, Sangmin Seo, Jaejin Lee
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引用次数: 1

摘要

我们提出了一种具有小本地内存的异构多核软件事务性内存(STM)。异构多核体系结构由一个通用处理器元素(GPE)和多个加速器处理器元素(ape)组成。GPE通常由深层的片上缓存层次结构和硬件缓存一致性支持。另一方面,类人猿具有与主内存不一致的小的、显式寻址的本地内存。这种多核架构的程序员会遭受显式内存管理和一致性问题的困扰。这种多核的STM可以减轻程序员的负担,并在运行时透明地处理数据传输。此外,它使程序员免于控制锁。我们的TM是基于现有的软件支持向量机的加速器架构。软件SVM利用软件管理的缓存和GPE和ape之间的一致性协议。我们还提出了一种TM的优化技术,称为中止预测。它阻止事务运行,直到消除潜在冲突的可能性。我们在单个Cell BE处理器上实现了TM系统和优化技术,并通过六个计算密集型基准测试应用程序评估了它们的有效性。
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A software-SVM-based transactional memory for multicore accelerator architectures with local memory
We propose a software transactional memory (STM) for heterogeneous multicores with small local memory. The heterogeneous multicore architecture consists of a general-purpose processor element (GPE) and multiple accelerator processor elements (APEs). The GPE is typically backed by a deep, on-chip cache hierarchy and hardware cache coherence. On the other hand, the APEs have small, explicitly addressed local memory that is not coherent with the main memory. Programmers of such multicore architectures suffer from explicit memory management and coherence problems. The STM for such multicores can alleviate the burden of the programmer and transparently handle data transfers at run time. Moreover, it makes the programmer free from controlling locks. Our TM is based on an existing software SVM for the accelerator architecture. The software SVM exploits software-managed caches and coherence protocols between the GPE and APEs. We also propose an optimization technique, called abort prediction, for the TM. It blocks a transaction from running until the chance of potential conflicts is eliminated. We implement the TM system and the optimization technique for a single Cell BE processor and evaluate their effectiveness with six compute-intensive benchmark applications.
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