| 1. | Tss holds hardware context information for each cpu which helps to take effect in context switching
Tss中保存了每个cpu的硬件上下文信息,它有助于有效地切换上下文。 |
| 2. | However , it is not possible to optimize a hardware context switch , while there might be room for improving the current switching code
然而,尽管当前的切换代码还有改进的余地,却不能对硬件文境切换进行优化。 |
| 3. | The hardware context is a subset of the process execution context , which includes all information needed for the process execution
硬件文境是进程执行文境的一个子集,因为执行文境包含进程执行时需要的所有信息。 |
| 4. | Multithreaded microprocessor , which has many hardware contexts sharing an execution core , can efficiently exploit both the instruction level parallelism and thread level parallelism to acquire higher performance and better performance / power ratio
多份硬件现场共享一组执行单元的多线程处理器能灵活地利用程序中的指令级并行和线程级并行,从而提供更好的性能。 |
| 5. | If the confidence estimation estimates a branch prediction to be a low confidence one and there is idle hardware context in a multithreaded microprocessor , two target paths after the branch instruction are executed
选择在多线程处理器中有空闲的硬件现场,并且置信度评估方案判断当前的转移预测为低置信度时,双路径执行转移指令的两个目标路径,从而降低西北工业大学博士学位论文误预测损失。 |
| 6. | This restriction on number of processes in the x86 architecture was a component of linux 2 . 2 , but since kernel 2 . 4 , this problem has been eliminated , partly by doing away with hardware context switching which made using tss inevitable and replacing it with process switching
这种x86架构中进程数量的限制是linux 2 . 2中的一个组件,但自2 . 4版的内核开始,这个问题已经不存在了,部分原因是使用了硬件上下文切换(这不可避免地要使用tss ) ,并将其替换为进程切换。 |
| 7. | After introducing the hardware structure of a kind of ate for several objects , the author explains in detail the thought and the methods in design of the application software of the ate , i . e . to separate the tested object information and the hardware context information of ate to tested object from the test control program , and to standardize the information in software design
摘要在介绍一种多对象适用自动检测设备硬件结构的基础上,详细叙述了该自动检测设备应用软件设计时将被测对象信息、检测设备硬件平台同被测对象间的硬件关联信息相对于测控程序进行分离并规范的思路及方法。 |
| 8. | All the hardware contexts are keeping active and want to fetch enough resource in the smt processor . so how to distribute these resources between threads to improve the performance of the smt processor is very important . we all want gain much in the performance with lower resource required
然而,这些处理器中的硬件资源之间如何在多个线索之间分配,而多个线索之间又如何调度,以使得在尽可能小的硬件开销下,让处理器获得尽可能高的性能,就成为了一个需要研究的课题。 |
