硬件/软件协同设计中的划分模型、求解算法和算法并行化研究综述

IF 0.9 4区 计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Neng Hou, Xiaohu Yan, Fazhi He
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引用次数: 26

摘要

在电子设计自动化中,硬件/软件协同设计显著缩短了上市时间并提高了嵌入式系统的性能。随着嵌入式系统应用规模的不断扩大和硬件体系结构的日益复杂,软硬件协同设计仍然是一个研究热点。由于硬件/软件协同设计是一个广泛的话题,本文重点介绍了与硬件/软件分区相关的三个重要方面的主要进展,它们对嵌入式系统的性能有很大的影响。首先,介绍了各种划分模型,包括硬件架构和抽象模型。其次,对硬件/软件划分的经典算法和新算法进行了分类和分析。第三,详细讨论了现有的软硬件协同设计并行算法。最后,在结论部分指出了可能的研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A survey on partitioning models, solution algorithms and algorithm parallelization for hardware/software co-design
In electronic design automation, hardware/software co-design significantly reduces the time-to-market and improves the performance of embedded systems. With the increasing scale of applications and complexity of hardware architecture of embedded systems, hardware/software co-design is still a research hotspot. As hardware/software co-design is a wide topic, this paper focuses on major developments of three important aspects related to hardware/software partitioning, which has great effects on the performance of embedded systems. Firstly, various partitioning models including hardware architectures and abstract models are surveyed. Secondly, classical and new algorithms for hardware/software partitioning are classified and analyzed. Thirdly, existing parallel algorithms for hardware/software co-design are discussed in details. Finally, possible research directions are pointed out in conclusion.
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来源期刊
Design Automation for Embedded Systems
Design Automation for Embedded Systems 工程技术-计算机:软件工程
CiteScore
2.60
自引率
0.00%
发文量
10
审稿时长
>12 weeks
期刊介绍: Embedded (electronic) systems have become the electronic engines of modern consumer and industrial devices, from automobiles to satellites, from washing machines to high-definition TVs, and from cellular phones to complete base stations. These embedded systems encompass a variety of hardware and software components which implement a wide range of functions including digital, analog and RF parts. Although embedded systems have been designed for decades, the systematic design of such systems with well defined methodologies, automation tools and technologies has gained attention primarily in the last decade. Advances in silicon technology and increasingly demanding applications have significantly expanded the scope and complexity of embedded systems. These systems are only now becoming possible due to advances in methodologies, tools, architectures and design techniques. Design Automation for Embedded Systems is a multidisciplinary journal which addresses the systematic design of embedded systems, focusing primarily on tools, methodologies and architectures for embedded systems, including HW/SW co-design, simulation and modeling approaches, synthesis techniques, architectures and design exploration, among others. Design Automation for Embedded Systems offers a forum for scientist and engineers to report on their latest works on algorithms, tools, architectures, case studies and real design examples related to embedded systems hardware and software. Design Automation for Embedded Systems is an innovative journal which distinguishes itself by welcoming high-quality papers on the methodology, tools, architectures and design of electronic embedded systems, leading to a true multidisciplinary system design journal.
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