转移指令是影响超标县处理器性能的关键。
Branch instruction has serious effect on the performance of superscalar microprocessor.
分支预测是影响微处理器性能的关键因素之一。
Branch Prediction is one of the key factors that affect the performance of microprocessor.
随着计算机处理器性能的不断提高,功耗也在不断增加。
As a computers processing performance continues to increase, so does its power dissipation.
当然,处理器性能的巨大提高是这一商务领域的一个推动因素。
Of course one of the driving factors of this business is the exponential increase in processor performance.
不幸的是,多处理器的性能并不与单个处理器性能的总和成线性比例。
Unfortunately, performance doesn't scale linearly with the aggregate performance of the individual processors.
在音频应用中,单指令多数据(SIMD)模式实际上可使处理器性能提高一倍。
In audio applications, the single-instruction, multiple data (SIMD) mode effectively doubles the processor performance.
如果处理器性能成为机器运行瓶颈,那么用户必然会把目光投向更昂贵的CPU。
If processor function becomes a machine to run bottleneck, so the user can deliver the view to costlier CPU necessarily.
特殊功能单元可以有效加速处理器性能,然而由于其专用性,能够加速的应用有限。
Special function unit can efficiently enhance the microprocessors performance, but the applications that can be accelerated are limited because of its customization.
而可重构技术和DSP处理器的结合也使得单DSP处理器性能有望得到很大提升。
The combination of DSP processors and reconfigurable computing technology has the promising potential to improve the single DSP processor performance to a higher level.
在8处理器主机上,可以看到,当所有处理器用于处理任务时,有两个处理器性能最优。
On an 8 processor host, the best performance was observed with two two processor VMs when all processors are used for jobs.
除了处理器时钟速度外,另一个重要的处理器性能度量是每条指令的时钟周期(CPI)。
In addition to processor clock speed, another important processor performance metric is clock cycles per instruction (CPI).
这一节讨论了影响XSLT处理器性能的一些因素,以及在每种情况下Saxon用于提高速度的策略。
This section discusses some of the factors that affect the performance of an XSLT processor, as well as the strategies Saxon USES to improve speed in each case.
本文分析了高速缓存的结构和工作原理,阐述了高速缓存的工作过程以及对处理器性能的影响。
This text analysis the structure and work elements of cache memory, the procession of cache memory, and the expect to the performance of CPU.
即使我不是非常了解硬件,但是该课程很好地介绍了当硬件设计人员想要提高处理器性能时必须考虑的问题。
Even though I'm not very knowledgeable about hardware, the course was a great introduction to the issues that hardware designers must take into account when they want to improve processor performance.
随着高性能微处理器的流水线越来越深,分支预测的精度不够高已经成为制约微处理器性能进一步提高的瓶颈。
With the deeper and deeper of the pipeline, the inadequate accuracy of branch prediction has become the bottleneck for the further elevation of the microprocessor performance.
视频编码算法复杂度的提高,对处理器性能提出了更高的需求,多核处理器为媒体数据处理提供了有力的平台。
The high complexity of video processing algorithm demands high computing capability of processor, and multi-core processor provides a new platform for multimedia processing.
摩尔定律并没有废止,只是越来越多的人正享受这一定律带来的实实在在的“钱”上的好处,而并非处理器性能的不断提升。
Moore's law has not been repealed, but more people are taking the dividend it provides in cash, rather than processor cycles.
造成这种状况的原因有很多,而日益增长的内存容量以及在同样价位 微处理器性能的不断提高更进一步加剧的这种趋势。
There are many reasons for this migration, which is being further enabled by products with increased memory capacities and improved performance at comparable price levels.
现代处理器性能以60%的年增长率飞速发展,相比之下,处于不同工艺下的DRAM的时滞和带宽的改进却分别只有7%和15~20%;
Modern processor performance increases at a rat of 60% per year, while the bandwidth of a DRAM chip increase by only 15%-20% per year, with latency improved by only 7%.
而这次研究者们准备采取第二种方法 ,开发可进行实时光线追踪计算的软件,Slusallek并表示目前处理器性能的飞速提升为这种技术的实用化打下了良好的基础。
What the researchers have done is developed faster software for performing real-time ray tracing, which is also aided by today's faster processors, Slusallek said.
“他们似乎认为,牺牲一丁点处理器性能,换得图像性能的较大提升是一个合理的折中。”Insight 64公司的首席分析师内森·布鲁克伍德(Nathan Brook wood)表示。
"It seems they felt that giving up a little bit of processor performance for a lot of graphics performance was a reasonable tradeoff," says Nathan Brookwood, principal analyst at Insight 64.
最后,它配有双核处理器和高性能显卡,可以畅通无阻地玩网络游戏、观看视频。
Finally, with the dual-core processor and high-performance video card, it can be unimpeded when you play online games and watch videos.
因此,如果减少每个HTTP请求的总连接数,将一个连接用于多个查询,则可以提高处理器、磁盘和网络性能。
Therefore reducing the number of total connections per HTTP request by reusing a connection for more than one query improves processor, disk, and network performance.
这导致了SOAP处理器的可伸缩性和性能问题。
This results in scalability and performance issues for the SOAP processors.
随着越来越多的处理器添加到服务器,处理器总线将成为性能瓶颈,因为它试图处理跨不同资源的指令。
As more and more processors are added to the server, the processor bus can become a performance bottleneck as it attempts to handle instructions across different resources.
许多公司都将多核处理器看做实现重大价值和性能提升的一次机会。
Many companies are looking at multicore processors as an opportunity to realize significant price and performance improvements.
多核处理器的降临带来了新的性能潜力。
The advent of multi-core processors offers new performance opportunities.
当处理器频率达到其极限时,一种流行的提高性能的方法是添加更多的处理器。
As processor frequencies reach their limits, a popular way to increase performance is simply to add more processors.
对处理器总线的高争夺率成为性能瓶项。
The high contention rate of the processor bus becomes a performance bottleneck.
对处理器总线的高争夺率成为性能瓶项。
The high contention rate of the processor bus becomes a performance bottleneck.
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