它引导系统根据传闻使用英特尔80486级的微处理器。
It guidance system reportedly USES an Intel 80486-class microprocessor.
本文提出并实现了一种新的基于指令分解的微处理器验证与RTL级错误定位方法。
This paper proposes and implements a novel verification and RTL-Level bug locating method for microprocessors.
目前微处理器系统结构设计已经进入线程级并行的时代。
The microprocessor architecture design has entered the era of thread level parallelism.
针对笔者自主研制的LS -RISC微处理器,讨论了其指令级功耗模型的开发。
The development of instruction level power model is discussed to our self-made LS-RISC microprocessor.
针对五级流水线嵌入式微处理器的特定应用环境,对分支预测技术进行了深入研究,提出了一种新的分支预测方案。
Concerning the specific application environment of embedded microprocessor, the branch prediction technology was researched in this paper, and a new scheme of branch prediction was proposed.
多时钟实现方法在项目管理与其它类别微处理器系统级设计中的运用给予了拓展性描述。
Expanded description on project management and other MCUs' system - level architecture is also discussed in this paper.
本文针对微处理器的特点,提出了指令级全速电流测试方法。
In this paper we have proposed instruction level At-speed current testing method taking both the characteristics of microprocessor and At-speed current testing into account.
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.
将所设计的多媒体移位器放到X微处理器中进行系统级验证,并对整个X微处理器多媒体部件进行系统级验证。
The design achieves the goal of higher speed and smaller area. 3. The multimedia unit including multimedia shifter in X microprocessor is verified in system level.
将所设计的多媒体移位器放到X微处理器中进行系统级验证,并对整个X微处理器多媒体部件进行系统级验证。
The design achieves the goal of higher speed and smaller area. 3. The multimedia unit including multimedia shifter in X microprocessor is verified in system level.
应用推荐