改进的Java方法调用硬件加速方案

NORCHIP 2010 Pub Date : 2010-12-17 DOI:10.1109/NORCHIP.2010.5669462

T. Santti, J. Tyystjárvi, J. Plosila

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引用次数: 0

摘要

本文提出了一种显著改进的策略来加速REALJava协处理器中的方法调用。稍后将描述硬件辅助的虚拟机体系结构，以便为方法调用加速提供上下文。该策略在FPGA原型中实现。它允许测量实际生活中的性能提高，并验证整个协处理器概念。该系统旨在用于嵌入式环境，虚拟机可用的CPU性能和内存有限。协处理器以高度模块化的方式设计，特别是将通信与实际核心分开。这种模块化设计使协处理器更易于重用，并允许系统级的可扩展性。这项工作是一个项目的一部分，重点是为嵌入式系统设计硬件加速的多核Java虚拟机。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An improved hardware acceleration scheme for Java method calls

This paper presents a significantly improved strategy for accelerating the method calls in the REALJava coprocessor. The hardware assisted virtual machine architecture is described shortly to provide context for the method call acceleration. The strategy is implemented in an FPGA prototype. It allows measurements of real life performance increase, and validates the whole co-processor concept. The system is intended to be used in embedded environments, with limited CPU performance and memory available to the virtual machine. The co-processor is designed in a highly modular fashion, especially separating the communication from the actual core. This modularity of the design makes the co-processor more reusable and allows system level scalability. This work is a part of a project focusing on design of a hardware accelerated multicore Java Virtual Machine for embedded systems.

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NORCHIP 2010

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