Performance evaluation of a java chip-multiprocessor

Christof Pitter, Martin Schoeberl
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引用次数: 21

Abstract

Chip multiprocessing design is an emerging trend for embedded systems. In this paper, we introduce a Java multiprocessor system-on-chip called JopCMP. It is a symmetric shared-memory multiprocessor and consists of up to 8 Java Optimized Processor (JOP) cores, an arbitration control device, and a global shared memory. All components are interconnected with a system-on-chip bus. This paper focuses on the performance evaluation of different hardware configurations of the multicore system. Therefore, we vary the instruction cache sizes, the number of processors and the memory bandwidth. Within our experiments, we measure the performance by running three benchmarks on real hardware: an embedded application from industry, a computationally intensive matrix multiplication and a synthetic benchmark that continuously accesses a shared data structure. Two different field-programmable gate arrays are used for the presented experiments. Our results illustrate the promises and limits of the proposed multiprocessor architecture concerning synchronization, memory bandwidth and caching. Furthermore, we compare the performance and size of JopCMP with a complex Java processor.
一个java芯片多处理器的性能评估
芯片多处理设计是嵌入式系统的一个新兴趋势。本文介绍了一种Java多处理器片上系统——JopCMP。它是一个对称的共享内存多处理器,由多达8个Java优化处理器(JOP)内核、一个仲裁控制设备和一个全局共享内存组成。所有组件都通过片上系统总线相互连接。本文重点研究了多核系统不同硬件配置的性能评估。因此,我们改变指令缓存大小、处理器数量和内存带宽。在我们的实验中,我们通过在真实硬件上运行三个基准测试来测量性能:来自工业的嵌入式应用程序、计算密集型矩阵乘法和持续访问共享数据结构的合成基准测试。实验采用了两种不同的现场可编程门阵列。我们的结果说明了所提出的多处理器架构在同步、内存带宽和缓存方面的承诺和限制。此外,我们还比较了JopCMP与复杂Java处理器的性能和大小。
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