Allocation groups also help to optimize parallel IO performance on multiprocessor systems, because more than one metadata update can be "in transit" at the same time.
分配组还有助于在多处理器系统上优化并行io性能,因为可以同时有多个元数据更新处于“在传输中”。
All of these optimizations are to aid in higher performance, and are generally transparent to the user, but on multiprocessor systems, these complexities may sometimes show through.
所有的这些优化是为了帮助实现更高的性能,通常这对于用户来说是透明的,但是对多处理系统来说,这些复杂的事情可能有时会完全显现出来。
However, if your application is deployed on a multiprocessor system or USES a very large heap, you may get some performance boost from changing collector options.
不过,如果您的应用程序是部署在多处理器系统上或者使用非常大的堆,那么改变收集器选项可能会有巨大的性能提升。
Most multiprocessor machines can get close to linear scaling with a finite number of CPUs, but after a certain point each additional CPU can increase performance overall, but not proportionately.
大多数多处理器的机器在有限的CPU数量的情形下接近线性伸缩度,但是在某点之后每个另外的CPU能总起来增加性能,但不均衡。
Task scheduling aims at scheduling a set of partially ordered computational tasks onto a multiprocessor system by a given strategy in order to obtain a better system performance.
任务调度问题是指根据一定的调度策略,把一组并行处理的任务按规定的时序分配到系统的多个处理机节点上,以期获得较好的系统执行性能。
Because MCS-51, the key part of this system has the superior performance and multiprocessor communication function, this system has the high reliability and high performance-price ratio.
由于构成该系统的核心部件MCS - 51系列单片机性能优越,且具有多机通讯功能,故该系统具有高可靠性和高性能价格比。
The experiment result proves that the performance of the application can be greatly improved in the environment of multiprocessor.
实验结果表明,应用程序并行化以后,性能得到明显提升。
In order to develop the performance of the multiprocessor systems, the support software is essential, of which the operating system is the most important.
多处理机系统是实现并行处理的高效低价的选择,要发挥多处理机系统的性能必须要有相应的软件支撑,这中间最为重要的就是操作系统。
In order to develop the performance of the multiprocessor systems, the support software is essential, of which the operating system is the most important.
多处理机系统是实现并行处理的高效低价的选择,要发挥多处理机系统的性能必须要有相应的软件支撑,这中间最为重要的就是操作系统。
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