Cpufreqd: This daemon can be configured to react to battery level, ac status, temperature, running programs, processor usage, and more.
cpufreqd:这个守护进程可以对电池电压、AC状态、温度、正在运行的程序、处理器使用量等做出反应。
The following figure shows how context switching begins to level off on a two-processor front-end server as processor usage increases.
下图显示了双处理器前端服务器的上下文切换是如何随着处理器使用的增加而渐趋平稳的。
One of the important performance goals of Lotus Domino 8.5 server was to reduce customers' disk storage costs without additional processor usage.
LotusDomino 8.5服务器的一个重要的性能目标是降低客户的磁盘存储成本,同时无需额外使用处理器。
When increasing the number of users from 1,000 to 2,000, we measured 8 percent relative processor usage increase on the Lotus Domino mail server.
当将用户数量从1,000增为2,000时,我们度量了LotusDomino邮件服务器上的8%的相对处理器使用增量。
With your FadingTooltip widget now working smoothly in popular browsers, it's time to find out how close you came to the performance goal of negligible processor usage.
FadingTooltip部件现在可以在流行的浏览器中顺利工作了,现在就该看看处理器使用率方面的性能目标是否可以实现了。
On a quiescent system with a 1.1GHz Intel Pentium-III processor, the processor usage of the FadingTooltip widget does indeed seem to be negligible, as shown in Figure 6.
在具有 1.1GHzIntelPentium-III处理器的系统上,如果没有什么其他负载,FadingTooltip部件的处理器使用率看起来确实很低,如图 6 所示。
The second point, with a value of about 18%, represents the overall average processor usage on the Rational Quality Manager server when 200 active users accessing the server.
第二点,值在18%左右,它代表了当有200个用户访问服务器时,Rational QualityManager服务器上总体的平均处理器使用情况。
The first point on the line is a value around 10%, which represents the overall average processor usage on the Rational Quality Manager server when 100 active users access the server.
行上的第一点是一个在10%左右的值,它代表了当有100个用户访问服务器时,Rational QualityManager服务器上总体的平均处理器使用情况。
If your implementation's processor usage is negligible, its animations will run smoothly and our program will be responsive even when the processor is heavily loaded with other activity.
如果程序实现的处理器使用率非常低,那么即使在其他活动的负载很高的处理器上,动画效果也会平滑地运行,程序能够做出正常的响应。
Process creation is expensive in terms of processor cycles and memory usage.
就处理器周期和使用的内存而言,创建进程的代价较高。
Before we start talking about the usage of SQuirreL, let's hit the DB2 command line processor to create a database that we can use to see what SQuirreL can do for us.
在开始谈论SQuirrel的用法之前,先让我们点击DB 2命令行处理器来创建一个数据库,用于查看SQuirrel能够为我们做哪些工作。
We use lpar2rrd tool to collect usage data for each of the frames and then use the resulting graphs for reporting on overall processor pool usage.
我们使用lpar2rrd工具收集每台机器的使用数据,然后使用产生的图形报告总体处理器池使用情况。
Each machine runs a daemon called gmond which collects and sends the metrics (like processor speed, memory usage, etc.) it gleans from the operating system to a specified host.
每台计算机都运行一个收集和发送度量数据(如处理器速度、内存使用量等)的名为gmond 的守护进程。它将从操作系统和指定主机中收集。
For 1500 Apple devices active users, the processor utilization was about 51 percent and 1.5 GB memory usage.
对于1500个Apple设备活动用户,处理器利用率为51%,内存占用为1.5GB。
Modern operating systems take advantage of the protection mechanisms implemented by the processor to distinguish various types of memory usage.
现代操作系统利用处理器实现的保护机制来辨别各类内存应用。
Furthermore, balance the load, based not only on processor and memory usage, but also on SAN utilization, network load and power draw.
此外,平衡负载,不仅基于处理器和内存使用量,而且也对美国的利用,网络负载和功耗。
Backlighting, reading and writing to memory, wireless connections, specialized hardware, and processor speed all have an impact on the overall power usage.
背景灯、读写内存、无线连接、特殊的硬件和处理器速度,所有这些会对总体功耗产生重要的影响。
Backlighting, reading and writing to memory, wireless connections, specialized hardware, and processor speed all have an impact on the overall power usage.
背景灯、读写内存、无线连接、特殊的硬件和处理器速度,所有这些会对总体功耗产生重要的影响。
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