And again, this is all happening in the memory-starved, CPU-constrained mobile world.
而且,这还是发生在内存食紧、处理器受限的移动世界。
We can verify this by measuring the process CPU load as well.
我们也可以通过测量进程的CPU负载来确认这点。
In this situation, you either shuffle load to another server or increase the CPU capacity.
在这种情况下,要么把负载转移到其他服务器,要么提高CPU能力。
You can analyze system capacity via system load and CPU utilization.
可以通过系统加载和CPU利用率来分析系统容量。
What percentage of the total available CPU time is spent in garbage collection?
总的可用CPU时间用在垃圾收集上的百分比是多少?
Worst of all: the CPU time used by the current thread can be irrelevant.
最糟糕的是:当前线程使用的CPU时间可能是不相关的。
Another advantage of access plan reuse is a reduced CPU load.
访问计划重用的另一个好处是CPU负载减小。
The CPU percent we measured is the average of the one hour steady state.
我们所测量到的CPU的百分比是一个小时后恒定态的平均值。
Consider increasing the size of the pool only if the CPU is not fully utilized.
只有在CPU没有完全利用的情况下,才考虑增加池的大小。
The first place to check for bottlenecks is the server CPU.
检查瓶颈时考虑的第一个地方就是服务器CPU。
The most important item to collect is CPU utilization on the server.
需要收集的最重要的数据项是服务器的CPU使用率。
The chart in Figure 5 shows CPU utilization in blue and response time in red.
图5中的图表用蓝色显示了CPU的利用率,用红色显示了响应时间。
这是捕获的CPU时间。
The analysis techniques are CPU, memory, and disk space intensive.
分析技术是CPU、内存和磁盘空间密集型技术。
It is not cost effective for expensive servers to run at only 20% CPU utilization.
如果昂贵的服务器在运行时cpu的利用率仅为20%,那么它的性价比不高。
The CPU percentage shown is the average of the one hour steady state.
图中所显示的CPU的百分比是一个小时后恒定态的平均值。
These jobs are a nice use of spare CPU cycles.
这些工作是对空闲CPU 周期的极好利用。
Although CPU use is up to 33% during the attack, it is not completely exhausted.
虽然在攻击过程中CPU使用率达到33%,但它并没有完全耗尽。
The default is to use only one CPU.
默认设置是仅使用一个CPU。
Note that this represents no burden on the host CPU.
注意,这没有对主机CPU造成任何负担。
As you probably already know, the CPU is the fastest component of the system.
正如您可能已经知道的,CPU是系统中最快的组件。
To perform well, give your important applications to the CPU.
为了正常的执行,请让重要应用程序获得CPU。
A computer's resources fall into CPU, memory, disk, and network.
计算机的资源分为CPU、磁盘、内存和网络。
Reading the data from the main memory requires more CPU cycles.
从主存储器读数据需要较多的CPU周期。
Now let's report back all the CPU parameters, as shown in Listing 5.
现在,让我们报告所有的CPU参数,如 清单 5 所示。
The CPU percent busy reflects the information that is displayed in figure 3.
CPU繁忙百分比反映了图3中显示的信息。
CPU provisioning is no longer a major event; it's a standard procedure.
CPU供应不再是大事了;它是一个标准的过程。
Things to keep an eye on are CPU, disk, and memory usage.
那么需要关注CPU、磁盘、以及内存使用情况。
The next column shows total CPU cost (in milliseconds per message).
接下来的一列显示总的cpu成本(微秒每消息)。
The next column shows total CPU cost (in milliseconds per message).
接下来的一列显示总的cpu成本(微秒每消息)。
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