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.
运行时间可以节省Web服务的响应,并且自动地为普遍的请求提供它们,显著地加速处理器密集型的服务请求。
The runtime can save the responses of the web services and automatically serve them up for popular requests, significantly speeding up processor-intensive service requests.
如果您有这样的处理器,那么您肯定看到您的程序加速了。
If you have such a processor you have certainly seen your programs speed up.
有些处理器,例如Azul的Vega,包含加速堆分配的硬件支持。
Some processors, such as Azul's Vega, include hardware support for accelerating heap allocation.
subpool:加速多处理器系统的对象分配。
Subpool: Speeds up object allocation on systems with very large Numbers of processors.
必须要有硬件加速,因为其解码太耗处理器。
Hardware acceleration is necessary because it is so processor-intensive to decode.
如果主机操作系统和来宾操作系统运行于相同的处理器架构之上,那么您可以使用QEMU加速器(KQEMU)实现近似本地的性能。
If your host and guest operating system are targeted to the same processor architecture, then you can speed things up to near native performance using the QEMU accelerator (KQEMU).
GPU是一种硬件协处理器,可加速计算机图形应用程序的计算。
A GPU is a hardware coprocessor that accelerates computations for computer graphics applications.
而且,这也有利于实现软件的本土化,因为这些软件在编写的时候就目的明确地充分利用iPhone的处理器、图形加速器和其他的硬件特性。
And it's beneficial for the apps to be native, because that way they're programmed to specifically take advantage of the iPhone's processor, graphic accelerator and other hardware features.
该台电脑拥有一个2.5 -GHz的英特尔酷睿2四核处理器、6gb的内存和英特尔gma(图形媒体加速器)3100显卡。
This PC is powered by a 2.5-ghz Intel Core 2 Quad processor and has 6gbs of RAM and an Intel GMA (graphics Media Accelerator) 3100 for graphics.
Anderson列举了3个有可能继续保持指数型增长的下一代技术领域:光互联,3d芯片技术,基于硬件加速的处理器。
Anderson cited three next-generation technologies that were still on the fast track for exponential growth: optical interconnects, 3-d chips and accelerator-based processing.
实验表明,本文提出的方法在包含三个处理器核的硬件平台上可以获得高达1.93的加速比,具有良好的并行化能力。
The experiment shows that the speedup 1.93 is gained on the multi-core platform with three processors, which proves that the parallelization method proposed can achieve a good performance.
为加速循环程序执行,提出了固定指令多数据流计算模型,并设计了一个单芯片阵列处理器体系结构。
We put forward a technology named fixed instruction multiple data in order to accelerate the loop, and design a chip-multiprocessors architecture.
该处理器可以加速诸如手势识别、人脸匹配或表情跟踪,但并无意成为一个完整意义上的CPU。
The processor can accelerate tasks like hand gesture recognition, face matching or face tracking, but is not designed to be a full-fledged CPU.
介绍一种基于32位ARM嵌入式微处理器LPC 2290和MEMS微加速度传感器的一种便携、无创的胎儿心率检测仪。
This paper introduces a new type of portable and no invasive fetal heart rate monitor which based on 32-bit ARM embedded microprocessor LPC2290 and MEMS acceleration transducer.
实现了一种基于图形处理器的单步光线投射算法,并在此基础上提出了一种基于空间跳跃技术的光线投射算法,以实现加速。
A single-pass ray-casting algorithm is developed based on GPU(graphics processing unit), and on the basis of this algorithm an accelerated algorithm is proposed based on space leaping technique.
加速度数字信号处理是利用微处理器的数据处理功能而进行的数字滤波和温度补偿。
For the acceleration digital signal process, digital filter and temperature compensation are realized using the digital process function of microprocessor.
提出一种基于图形处理器(GPU)加速的真实感毛发快速绘制方法。
This paper presents a realistic fur rendering method based on GPU acceleration.
实验结果表明,与软件执行相比,硬件CG协处理器可以获得最高5.7倍的性能加速。
The experimental results illustrate that hardware CG iterative solver can speed up about 5.7 times over the software version of the same algorithm.
此外,机器运行的处理器必须以最快的计算机(CPU)的速度在加速工作。
In addition, the machine that runs the processing Manager must be the fastest computer (CPU) speed in the processing group.
可重构计算系统是一种软硬件混合系统,通常包括作为主要控制器的微处理器,和作为硬件加速器的可重构硬件模块。
Reconfigurable system is a software-hardware mixed system. It generally contains microprocessor as the primary controller of the system and several reconfigurable hardware blocks as accelerators.
具有片上加密加速功能的SPARCT3-2和T3-1服务器消除了对于附加组件额外协处理器卡和特别许可的需求。
The SPARC T3-2 and T3-1 servers with on-chip cryptographic acceleration eliminate the need for additional coprocessor cards, special licensing, of add-on components.
具有片上加密加速功能的SPARCT3-2和T3-1服务器消除了对于附加组件额外协处理器卡和特别许可的需求。
The SPARC T3-2 and T3-1 servers with on-chip cryptographic acceleration eliminate the need for additional coprocessor cards, special licensing, of add-on components.
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