对超标量处理器的性能模拟和研究有着实际的意义。
And this has practical significance for superscalar processor performance modeling and research.
在第1部分中对向量和标量处理器进行比较时,这尤其明显。
This was especially obvious when we compared vector processors with scalar processors in Part 1.
她能够与同类的最新的32位标量处理器竞争,并且可以运行任何现代操作系统。
It can successfully compete with latest scalar 32-bit RISC processors in his class and can efficiently run any modern operating system.
它不使用专门优化过的向量硬件,而是使用标准的标量处理器,但是它采用了大量的处理器来并行处理多个计算任务。
Instead of using specially optimized vector hardware, it USES standard scalar processors, but in large Numbers to perform several computations in parallel.
其次,指令发射逻辑是超标量处理器中的关键路径,也是制约执行单元为超标量结构的多线程处理器主频提高的关键因素。
Secondly, the issue logic is not only the critical path in a superscalar microprocessor, but also critical to the performance of a multithreaded microprocessor with superscalar execution core.
在将来部分,我们将继续研究微处理器高级部分像超标量体系,超线程,双核心。
In future installments, we are going to dig into such microprocessor enhancements as super-scalar, hyper-threading and dual core.
超标量ARM处理器提供的特殊权力,使您能够运行所有你的应用程序迅速,顺利,同时进行。
The superscalar ARM processor delivers exceptional power and enables you to run all your applications quickly, smoothly, and simultaneously.
处理器的容错机制是通过修改超标量体系结构,利用时间冗余技术实现的。
The processor's fault tolerant mechanism mainly using temporal redundancy technique was implemented by modifying superscalar processor architecture.
哪一款Intel处理器首先引入超标量执行?
Which Intel processor first introduced superscalar execution?
哪一款Intel处理器首先引入超标量执行?
Which Intel processor first introduced superscalar execution?
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