当前,为了管理CPU性能损耗,处理器生产厂商倾向于采用多核芯片设计,并且软件必须以多线程或者多进程的方式来编写,从而发挥硬件的最大优势。
Now, to manage CPU power dissipation, processor makers favor multi-core chip designs, and software has to be written in a multi-threaded or multi-process manner to take full advantage of the hardware.
POWER 7在每一个芯片或插槽上增加了处理器内核密度,改进了多线程支持,并且改进了内核内存带宽(下面介绍)。
POWER7 provides increased processor core density per chip or socket, improved multithreading support, and improved core memory bandwidth (discussed below).
随着生产工艺的提高,芯片上能集成越来越多的晶体管,多线程技术也逐步成为一种主流的处理器体系结构技术。
With the development of VLSI technology, a single chip can contain over one billion transistor. Multithreading technique is the developing trend of high performance processor in the future.
在芯片的架构方面,考虑到硬件的可并行性,存储器资源的利用率以及芯片面积等诸多因素,我们在片内集成了9个扫描匹配引擎,来实现多线程并行扫描。
On the aspect of chip architecture, considering the factors such as parallelizable of hardware, utilization of memory and chip area, we embodied 9 scan engines on chip to realize the multi-scan.
在芯片的架构方面,考虑到硬件的可并行性,存储器资源的利用率以及芯片面积等诸多因素,我们在片内集成了9个扫描匹配引擎,来实现多线程并行扫描。
On the aspect of chip architecture, considering the factors such as parallelizable of hardware, utilization of memory and chip area, we embodied 9 scan engines on chip to realize the multi-scan.
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