The logical memory is divided in logical memory blocks (LMB).
逻辑内存则划分为逻辑内存块(LMB)。
The modeled true memory size (real physical or logical memory).
建模的实际内存大小(实际物理或逻辑内存)。
The total logical memory was larger than the shared memory pool.
逻辑内存总量大于共享内存池。
Divide logical memory into blocks of same size called pages.
把逻辑内存也分位固定大小的块,叫做页。
This factor is treated as a multiple of the actual logical memory size of the LPAR.
这个因数是LPAR的实际逻辑内存大小的倍数。
The logical memory "in use" at a given time is equal to the physical memory in the pool.
在给定的时刻,“正在使用的”逻辑内存量等于池中的物理内存量。
In the case of "over-commitment," the Hypervisor backs the excess logical memory using the paging devices on the VIOS.
在发生“过量使用”时,Hypervisor使用VIOS上的分页设备存储过剩的逻辑内存。
The memory region size (also called logical memory block (LMB) size) must be the same on the source and destination systems.
源系统和目标系统的内存区域大小,也称为逻辑内存块(LMB)大小,必须相同。
Figure 15 shows where you'll enter in the logical memory block size, as well as the Min, Desired, and Max RAM for the partition.
图15展示了逻辑内存块大小以及分区的最小、所需和最大RAM的输入位置。
Therefore, logical memory has to be backed by both the physical memory in the pool and by the paging devices on the paging VIOS.
因此,逻辑内存必须由池中的物理内存和PagingVIOS上的分页设备共同支持。
It reports on all layers of file system utilization, including the Logical Volume Manager (LVM), virtual memory, and physical disk layers.
它报告文件系统的所有层的使用率,包括逻辑卷管理器(LVM)、虚拟内存和物理磁盘层。
The RMO register is introduced for every partition to reference logical zero in the partitioned memory space.
为每个分区引入了RMO 寄存器,以便引用分区的内存空间中的逻辑零。
Working set more commonly means the logical concept of which pages the process would need to have in memory at that point to avoid any paging.
工作集更通常的含义指的是一个逻辑概念,即在某一点上为了避免分页操作,进程需要驻留在内存中的那些页面。
The bootstrap then loads the boot Logical Volume (BLV) into memory.
然后,引导程序将启动逻辑卷(BLV)加载到内存中。
Customize the customer virtual memory size according to your logical disk volume.
根据您的逻辑磁盘卷自定义客户虚拟内存的大小。
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。
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。
When the FCM buffers are created in a separate memory segment, the communication between FCM daemons of different logical partitions on the same physical node occurs through Shared memory.
而当在单独的内存段中创建F CM缓冲区时,在同一物理节点上的不同逻辑分区的FCM守护进程间的通信将通过共享存储器进行。
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。
This is more useful than any of the other rendering types, since it allows for a logical organization of the memory being examined.
这要比其他的赋值类型更加有用,因为它支持去检查内存的逻辑性结构。
A logical partition, or LPAR, was built on this system with an initial configuration of four processors and 48 GB of memory.
这个系统上构建了一个逻辑分区,即LPAR,有4个处理器和48 GB内存的初始配置。
Paging space, or swap space, is a type of logical volume that serves as a staging area for processes that are not using active random-access memory (RAM).
分页空间(或交换空间)是一种逻辑卷,用来存储不使用随机存取存储器(RAM)进程的临时区域。
So, the total logical configured memory can be greater than the physical memory in the pool.
因此,配置的逻辑内存总量可以大于池中的物理内存量。
The LPARs are assigned "logical" shared memory.
给LPAR分配 “逻辑”共享内存。
In such a case, you can reduce the amount of memory that is used by the rule by changing the configuration to run on less logical nodes.
在这种情况下,可通过变更配置,来减少所运行的逻辑节点,从而降低内存的使用量。
This allows you to view a logical arrangement of the blocks of memory using the memory map, but also the contents of memory before and after the structure.
这就允许您使用内容映射来查看内存块的逻辑排列,以及结构之前及之后内存的内容。
Once you have determined you are running out of native memory, the next logical question is: What's using that memory?
当您确定本机内存耗尽时,下一个逻辑问题是:谁在使用这些内存?
Try to allocate your hard disk to different logical volumes, which can make it easy to expand virtual memory in different logical volumes.
尝试将硬盘分配给不同的逻辑卷,这能够以不同的卷轻松扩展虚拟内存。
“Dreams use so many bits and pieces of our memory, but not in a logical, linear way, ” says psychologist Rosalind Cartwright, Ph.D. “It’s more of an associative conglomeration of things.”
心理学家罗莎琳德·卡莱特博士说:“许多零散的、没有逻辑、非线性的记忆碎片会出现在我们的梦里。它更多时候是事情的联想的集合体。”
The amount of the LPAR's real physical (or logical) memory in MB
LPAR的实际物理(或逻辑)内存数量,以 MB 为单位
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