A memory and CPU usage Monitor with a memory cleaner.
一个带有内存清理工具的内存和CPU使用管理器。
The actual limit of course depends on the hardware configuration, such as memory and CPU.
当然了,实际的限制取决于硬件配置,比如内存、CPU等等。
It is impractical for mobile devices to be a host due to insufficient memory and CPU power.
由于受到内存和cpu不足的限制,要想让移动设备充当主机是不现实的。
Jumbo payloads — Sending a very large XML message to exhaust memory and CPU on the target system.
特大有效负载——发送一个非常大的XML消息来耗尽目标系统的内存和CPU。
Collecting data with agents on compute nodes can suck memory and CPU cycles from the user's jobs.
在计算节点上通过代理收集数据会与用户的作业争夺内存和CPU时间。
Whenever a workload's utilization level goes high, the -r option can be used to record memory and CPU usage.
只要工作负载的利用率水平得到提高,即可使用-r选项来记录内存和CPU占用率。
The server capacity requirements of this application are defined by where memory and CPU limits are reached.
该应用程序的服务器容量要求在内存和CPU限制到达处定义。
Again, the memory and CPU power in a mobile device is a fraction of what is available in a desktop computer.
再次提醒,移动设备的内存和CPU能力怎么也无法与桌面计算机相媲美。
The newly available backends allow a longer running set of instances which have memory and CPU requirements.
新增的Backends允许长时间运行有内存和CPU要求的实例集。
Doing so is inexpensive in memory and CPU resources, so there is no significant penalty for cloning dispatchers.
这样做不是很耗内存和CPU资源,因此克隆分派器并不会付出很大代价。
The attack can be done remotely and with a modest number of requests leads to very significant memory and CPU usage.
攻击可以远程进行,并且中等数量的请求就会导致内存和CPU占用率显著提高。
Over time, the Linux kernel has become efficient in terms of both memory and CPU usage, as well as extremely stable.
随着时间的流逝,Linux内核在内存和CPU使用方面具有较高的效率,并且非常稳定。
Memory and CPU based access can provide much lower latency and greater throughput than disk and network based access.
相比基于磁盘和网络的访问,基于内存和CPU的访问能提供更低的延迟和更高的吞吐量。
This allows each process to be significantly more lightweight in terms of memory and CPU requirements than a native OS thread.
这允许各进程在内存和CPU需求方面比本地OS线程更为轻量。
The conjugate gradient method (CGM) and fast Fourier transform (FFT) technique are used to reduce the necessary memory and CPU time.
在求解过程中应用共轭梯度法(CGM)和快速傅立叶变换(FFT)相结合的方法降低所需计算机内存和CPU时间。
Now server resources can be dynamically managed by SQL server itself, shifting memory and CPU allotments automatically as demand changes.
现在SQLServer自身可以动态管理服务器资源,为服务自动管理改变内存和CPU资源配额。
Full Text Search catalogs are not backed up with the rest of a database and the two services cannot easily share memory and CPU resources.
全文检索编目不能与其他的数据库一起备份,而且两个服务不能轻松的共享内存和CPU资源。
If your system spends most of its time serving up Web applications, then you can turn off the overhead of the graphical interface and use that memory and CPU for your service.
如果您的系统主要任务是提供Web应用,那么您可以停掉图形界面,而将其所用的内存和CPU资源用于您的服务。
With databases growing at an unrelenting pace, the ability to collect statistics by accessing all of the data may be hampered by fixed batch Windows or memory and CPU constraints.
随着数据库快速不断地增长,通过访问所有数据收集统计信息的能力可能会受到固定的批量窗口、内存和CPU约束的阻碍。
When the processing at the end of the month is complete, you could then activate the partition using a profile named Non_Month_End that allocates a small amount of memory and CPU.
当月末处理完成时,然后可以使用一个名为 Non_Month_End的概要来激活该分区,为该分区分配少量的内存和CPU。
This is because a cell can be rotated out of production, with the other cells handling the load while servers or server frames are swapped out so that memory and CPU upgrades take place.
这是因为当服务器或服务器框架交换出时,可以将一个单元旋转出生产而通过其他单元来处理负载,从而进行内存和CPU升级。
You could have a profile named Month_End that is used to activate the partition just prior to processing at the end of the month that allocates a large amount of memory and CPU to the partition.
您可以有一个名为Month_End的概要,用于紧跟在月末处理之前激活该分区,为该分区分配大量的内存和CPU。
There is no direct footprint benefit because each JVM still has a copy of the AOT executable but there are memory and CPU savings from being able to reuse this code rather than repeat the compilation.
因为每个JVM仍然拥有AOT代码的拷贝,所以这种实现方式对于内存使用量没有直接的好处。但是,由于能够重用 AOT 代码并避免重复编译,可以节省内存和CPU。
The major resources available include CPU, memory, and networking bandwidth.
主要的可用资源包括CPU、内存和网络带宽。
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。
So if you don't need to use these demos, shutting these services off will save you startup time, memory, and CPU usage (see Figure 5 and Figure 6).
因此,如果不需要使用这些演示程序,关闭这些服务将节省启动时间、内存和CPU(参见图5和图6)。
Example events include startup of the operating system and high usage of CPU, memory, and hard disk.
示例事件包括操作系统的启动和对CPU、内存和硬盘的高度使用。
It reports statistics about kernel threads, virtual memory, disks, traps, and CPU activity.
它将报告关于内核线程、虚拟内存、磁盘、自陷和CPU活动的统计信息。
The traditional limiting factors for scalability are access to CPU, memory, and I/O.
可伸缩性的传统制约因素是对CPU、内存和I/O的访问。
Make sure VIOS has sufficient CPU, memory, and network bandwidth.
保证VIOS具有足够的CPU、内存和网络带宽。
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