这些数据,必须在进程唤醒之前被装载到寄存器,称为硬件上下文。
The set of data that must be loaded into the registers before the process resumes its execution on the CPU is called the hardware context.
然而,不可能优化硬件上下文切换,而改进当前的软件切换代码还有空间。
However, it is not possible to optimize a hardware context switch, while there might be room for improving the current switching code.
硬件上下文是进程执行上下文的子集,进程执行上下文包括了进程执行的所有信息。
The hardware context is a subset of the process execution context, which includes all information needed for the process execution.
因为进程切换很频繁,所以减小花在保存和装载硬件上下文上的时间就变得很重要了。
Because process switches occur quite often, it is important to minimize the time spent in saving and loading hardware contexts.
通过研究EBCOT编码原理和通道并行算法的编码过程,提出了双上下文窗口位并行的EBCOT系数位建模方法,详细说明了使用该算法的系数位建模系统的硬件结构。
After the detailed analysis of EBCOT algorithm and pass-parallel coding technique, a dual context window bit-parallel coding method and its architecture for hardware implementation are proposed.
通过研究EBCOT编码原理和通道并行算法的编码过程,提出了双上下文窗口位并行的EBCOT系数位建模方法,详细说明了使用该算法的系数位建模系统的硬件结构。
After the detailed analysis of EBCOT algorithm and pass-parallel coding technique, a dual context window bit-parallel coding method and its architecture for hardware implementation are proposed.
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