The number of processors to allocate to the partition.
分配给分区的处理器数量。
In Figure 2, the top line shows the number of processors.
图2中最上面的一条线显示了处理器的数目。
To display the number of processors on your system, type.
要想显示系统上的处理器数量,输入。
Run the setmqcap command, inputting the number of processors that you have paid for.
运行setmqcap命令,输入您所购买的处理器数目。
Its output is an estimate of the number of processors needed to support the workloads.
它的输出是支持工作负载所需的处理器数量的估计值。
Reducing the minimum to less than the number of processors can also hurt performance.
如果太多工作同时启动,则所有工作可能都会变慢。
The number of threads that can execute concurrently is limited by the number of processors.
可以并发执行的线程的数目取决于处理器的数目。
For example, the number of processors in one minute could be 4.5 and then be 5.166 the next minute.
例如,这一分钟处理器的数量是4.5,到下一分钟又变成了5.166。
The number of simultaneous sessions and number of processors are considerations for setting this value.
在设置这个值时,需要考虑并发会话的数量和处理器的数量。
The type or the number of processors and their power alone does not decide the performance of a system.
处理器的类型或者数目,以及它们的能力都不能单独地决定系统的性能。
Run the setmqcap command, inputting the number of processors that you have paid for. Run this command on ha1.
运行setmqcap命令,输入您所购买的处理器数目。
Where data is compared across machine sizes the following RAM was assigned depending on the number of processors.
根据机器规模对数据进行对比,内存大小依据处理器的数量来确定。
This value should be set to greater than 1 to maximum to the number of processors that database partition can use.
应将该值设置为大于1而小于等于数据库分区可使用的处理器数目。
A capped partition (shown in Figure 6 below) is a partition that has a set limit on the number of processors it can use.
capped分区(如下面图6所示)是对其可以使用的处理器数量有固定限制的一种分区。
Memory access conflict intensifies as the number of processors increases in a tightly-coupled multiprocessor system.
随着紧耦合处理机系统中处理机数目的不断增加,访存冲突会更加严重。
Ideally, the number of threads should be tuned based on the number of processors and the length or duration of each request.
理想情况下,线程的数量应该根据处理器的数量和请求的长度或持续时间进行调整。
The optimum size of a thread pool depends on the number of processors available and the nature of the tasks on the work queue.
线程池的最佳大小取决于可用处理器的数目以及工作队列中的任务的性质。
Linux can be compiled to run on a huge number of processors and platforms with different architectural constraints and needs.
Linux编译后可在大量处理器和具有不同体系结构约束和需求的平台上运行。
Systems with a large number of processors may find it advantageous to recompile against the NUMA user-land API's added in RHEL4.
在拥有大量处理器的系统中,可能会发现借助RHEL4中所增加的NUMA用户空间api进行重新编译会有好处。
Much like Linux itself, the Linux boot process is highly flexible, supporting a huge number of processors and hardware platforms.
与Linux本身非常类似,Linux的引导过程也非常灵活,可以支持众多的处理器和硬件平台。
The maximum number of logical partitions supported depends on the number of processors in the server model and the system limit is 254.
所支持的逻辑分区的最大数目取决于服务器模型中处理器的数目,系统限制是254。
There are technologies that allow you to allocate software execution to a set number of processors (sometimes called processor pinning).
有些技术允许将软件执行分配到一组处理器上(有时候也叫做processorpinning)。
For more than five years now, the number of processors in a given virtual environment can change every 10 seconds in large enterprise hardware.
最近5年多的时间里,在大型企业硬件中,一个给定的虚拟环境中处理器的数量每10秒就变化一次。
This sample selection occurred by adjusting the memory, processor speeds, and number of processors, to name a few of the configuration options.
样例选择是通过调整内存、处理器速度、处理器数量等配置选项产生的。
The following sections details some typical examples using sub-capacity licensing and the total number of processors that would need to be licensed.
下面的小节给出一些详细的典型例子,演示随需添加许可的使用和需要为之授权许可的处理器总数。
The controlled variables were number of Processors in Virtual Machine and Maximum Concurrent Jobs maintained with the Contributor Administration Console.
所控制的变量是虚拟机中处理器的数量,以及ContributorAdministration Console中所维护的最大并发任务数。
However, it may happen, and often does, that groups of small number of processors (in that set of large number of processors) do have Shared memory.
然而,它可能发生,经常成群的小数量的处理器(在这组大量的处理器)共享内存。
The main reason given for this is that the speed of computer processors has leveled out, while the number of processors on a given computer has increased.
这一情况的主要原因是计算机处理器的速度增长趋缓,而每台计算机中处理器的数量却在不断增加。
The main reason given for this is that the speed of computer processors has leveled out, while the number of processors on a given computer has increased.
这一情况的主要原因是计算机处理器的速度增长趋缓,而每台计算机中处理器的数量却在不断增加。
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