传统微处理器体系结构不能很好地匹配媒体处理应用的特点。
The characteristics of media processing applications are poorly matched to conventional microprocessor architectures.
在此基础上提出基于最小操作单元MOUB微处理器体系结构的设计思想,并设计实现了一个这种结构的微处理器模型。
After we presented a new architecture called Minium Operating Unit-Based (MOUB), we also designed and implement a microprocessor model of MOUB.
本文介绍了基于DLX体系结构的微处理器核的设计和实现过程。
This paper introduces the design and realization course of a microprocessor core based on DLX architecture.
分支预测技术一直以来是计算机体系结构、微处理器设计的研究重点。
Branch prediction technology is one of the most important field in the research of computer architecture and microprocessor.
嵌入式微处理器是体系结构研究领域的一个热点。
Embedded microprocessor has been one of the hot spots in the computer architecture research area.
本文讨论了系统性能模型在体系结构设计中的作用,研究了高性能微处理器的性能仿真模型设计技术。
A system performance model of high performance microprocessor is implemented, which is based on superscalar pipeline technology with the instruction set of i960KA.
该文提出了采用体系结构描述语言(adl)实现微处理器开发工具链自动设计的有效方法。
An automatic design method based on ADL (architecture description language) for development tool chain is proposed in this paper.
文章从微处理器设计者的角度出发,对在嵌入式系统当中应用广泛的32位ARM微处理器系列的体系结构作了研究和探讨,简要介绍了3种当前市场上流行的、典型的基于ARM的SOC芯片。
This thesis studies the architecture of the 32 bit ARM series microprocessor which is widely applied in embedded systems, and briefly introduces some typical SOC chips based on ARM core.
研究了我们自主设计的一款兼容IA-64指令集的微处理器——X处理器的体系结构,深入研究了IA-64指令集中的整数指令;
The micro-architecture of the X Processor which was designed by us and the integer instruction set of IA-64 are analyzed.
给出了嵌入式系统的定义和体系结构。较详细地阐述了几种常用的嵌入式微处理器及其应用领域;
This paper introduces the definition and hardware structures of the embedded system Several embedded microprocessor units and their application fields are presented.
本论文的研究课题是32位嵌入式微处理器的体系结构的研究与设计。
The dissertation focuses on the research and design of 32-bit microprocessor architecture.
该系统已经成功地应用于DLX和LEON 2微处理器的体系结构级验证,应用结果表明了本文方法的有效性。
It has been successfully applied to the verification of DLX and LEON2 processor, and the experiment results have proved the validity of our method.
该系统已经成功地应用于DLX和LEON 2微处理器的体系结构级验证,应用结果表明了本文方法的有效性。
It has been successfully applied to the verification of DLX and LEON2 processor, and the experiment results have proved the validity of our method.
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