For the sake of simplicity, we call them logical CPU 0 and logical CPU 1.
为了简单,我们把它们称为逻辑CPU0和逻辑CPU1。
Each logical CPU is using 50% of the total physical CPU allocated to the partition.
每个逻辑CPU 分别使用分配给分区的物理 CPU总量的 50%。
That is because WPAR resource control has tied up the WPAR's processes to logical CPU 1.
这是因为WPAR资源控制已经把这个WPAR的处理限制在逻辑CPU 1上了。
You can see this in the following example, which reports logical CPU usage at two-second intervals.
下面的示例以两秒的时间间隔报告逻辑CPU使用量。
The workload in logical CPU 0 accounts for only 5% of physical CPU, while logical CPU 1 accounts for the rest.
逻辑CPU0中的工作负载只占用物理 CPU的 5%,而逻辑 CPU1 占用其余部分。
Though our system has only one physical CPU, we can see that both logical CPU's come up when analyzing our systems.
尽管我们的系统只有一个物理cpu,但是在对系统进行分析时,我们发现了两个逻辑CPU。
Mpstat now reports (below) that logical CPU 0 is back to an idle state, while CPU 1 takes over the workload from CPU 0 for WPAR "def" 's processes.
如下所示,mpstat现在报告逻辑CPU0恢复到空闲状态,而逻辑CPU1从逻辑CPU 0接管WPAR“def”的进程的工作负载。
I like the mpstat command, because it reports back collection information for each logical CPU on your partition in a format that is clearly illustrated.
我喜欢使用mpstat命令,因为它会采用非常清晰的格式报告所收集的分区上的每个逻辑CPU的信息。
This transparency is significant when a physical CPU allocated to a logical partition fails in the midst of an executing application.
在执行应用程序期间,当为一个逻辑分区分配物理cpu失败的时候,这种透明性的意义非常重大。
In addition, the operation to map logical addresses to physical addresses consumes significant CPU resources and takes longer.
此外,逻辑地址到物理地址的映射操作将消耗大量CPU资源,操作时间会变长。
At its simplest, it is an abstraction of the server's physical resources (CPU, memory, storage) from the logical resources presented to consumers.
简单地说,是将服务器物理资源(CPU、内存、存储)抽象成逻辑资源和呈现给用户。
At the heart of NetKernel is a RESTful or resource-oriented microkernel responsible for resolving logical URI requests to physical code endpoints and scheduling the request on an available CPU core.
NetKernel的中心是一个REST风格或面向资源的微核,专门负责为物理代码解析逻辑uri请求并在空闲的CPU上安排执行请求。
This was achieved through dynamic Logical Partitioning (DLPAR) -the process of dynamically allocating additional CPU or memory servers to a running LPAR.
这种功能是通过动态逻辑分区(DLPAR)实现的,也就是将附加的CPU或者内存服务器动态地分配给一个正在运行的LPAR。
Logical partitioning (LPAR) is the ability to logically slice up a single system's CPU, memory, and other resources to create multiple and separate servers.
逻辑分区(LPAR)是划分单个系统的CPU、内存和其他资源以创建多个单独服务器的能力。
PC machine CPU for arithmetic and logical operations, can handle the length of the information for A.
PC机中CPU进行算术和逻辑运算时,可处理的信息的长度为A 。
It also validates AMD's Fusion approach of integrating the CPU and GPU into one logical processing entity from the programmers' point of view.
这也验证了AMD的整合成一个逻辑处理实体,从程序员的角度来看,这就是CPU和GPU的融合方法。
The central processing unit, or CPU, is the brain of a computer. It is where arithmetic and logical functions are performed.
中央处理器,或者说CPU,是计算机的大脑。是执行算术和逻辑(运算)功能的部件。
The central processing unit, or CPU, is the brain of a computer. It is where arithmetic and logical functions are performed.
中央处理器,或者说CPU,是计算机的大脑。是执行算术和逻辑(运算)功能的部件。
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