它可以在分区中定位操作系统映像,将启动映像加载到内存中,并为启动传输控制。
It locates the operating system image in the partition, loads the boot image into memory, and transfers control for booting.
然而,如果将它设置的太大,则可能会由于为该分区创建的页表大小而浪费所管理系统上的宝贵内存资源。
However, if you make it too large, you can waste valuable memory resources on your managed system due to the size of the page table created for the partition.
通常,分区配置文件指定了操作系统启动时的资源需求,例如内存数量、处理器权限、适配器等等。
In general, a partition profile specifies operating system boot time resource requirements, such as the desired amount of memory, processor entitlement, adapters, and so on.
这个系统上构建了一个逻辑分区,即LPAR,有4个处理器和48GB内存的初始配置。
A logical partition, or LPAR, was built on this system with an initial configuration of four processors and 48 GB of memory.
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。
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.
系统处理器内存硬盘交换分区网络。
对于一些使用大容量内存和多个CPU的系统,分区能够改善可伸缩性。
Partitioning can improve scalability on some systems that use large memory configurations with many CPUs.
目标系统必须与主机迁移分区具有相同数量的内存和处理器(在活动分区配置文件已经指定)。
The destination system must have at least an equal amount of processors and memory available (as dictated by the active partition profile) as the host mobile partition.
Ray认为,如果您正在合并几个支持大内存的系统,那么就应该考虑使用分区来实现更大的伸缩性。
Ray says that if you're consolidating to a small number of systems that can support large memory configurations, you should consider partitioning to achieve even greater scalability.
利用本发明所述的内存泄露检测方法,可实现对嵌入式系统内存泄露的分区检测,方法使用灵活、检测效率较高。
The method for detecting the memory leak can realize the partition detection on the memory leak of the embedded system, and is flexible to use and high in detection efficiency.
利用本发明所述的内存泄露检测方法,可实现对嵌入式系统内存泄露的分区检测,方法使用灵活、检测效率较高。
The method for detecting the memory leak can realize the partition detection on the memory leak of the embedded system, and is flexible to use and high in detection efficiency.
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