Typically, the memory manager deals with memory in 4 KB pages on x86 systems.
典型地,内存管理器在x86系统上处理的内存页为4KB。
Identifies if the Memory Manager for Data Chunks should be enabled or not.
建议译文标识是否应启用数据区块内存管理器。
The vmo command also displays and adjusts the Virtual Memory Manager parameters.
vmo命令也显示和调整虚拟内存管理器参数。
They are created by making allocation requests to the Virtual Memory Manager (VMM).
可以通过向虚拟内存管理器 (VMM) 提出分配请求,以创建这些缓冲区。
The AIX virtual memory manager serves all memory on the box, not just virtual memory.
AIX虚拟内存管理器控制机器上的所有内存,而不只是虚拟内存。
The Virtual Memory Manager (VMM) undergoes major changes for a partitioned environment.
对于分区的环境,虚拟内存管理器(VMM)经历了较大的更改。
A flag is set to tell the memory manager when this optimization is in effect for a given page.
一个标记设置用来告诉内存管理器什么时候这种优化对一个给定的页有效。
It also leads me nicely to the last new features of the memory manager: environment variables.
它还精心地引导我使用内存管理器的最后几个新功能:环境变量。
The memory manager allocates memory to threads in chunks to minimize contention on the heap lock.
内存管理器以块的形式将内存分配给线程,以最小化堆锁定争用。
Only if the memory manager has returned the memory to the system do you get an access violation.
只有当内存管理器返回内存系统你访问冲突。
For most USES, pages of this size are the most efficient way for the memory manager to deal with memory.
对大部分用途来说,内存管理器以这样大小的页来管理内存是最有效的。
To accomplish this feat, the Memory Manager needs to swap page frames in and out of physical memory.
要实现这个壮举,内存管理器需要交换页面结构进出物理内存。
A thorough investigation of memory overcommitment in KVM should begin with the Linux memory manager itself.
彻底的KVM内存超量使用调查应该从Linux内存管理器本身开始。
In earlier tuning sections, you might remember the Virtual Memory Manager (VMM) parameters minperm and maxperm.
在前面的优化文章中,您可能还记得虚拟内存管理器(VMM)的参数minperm和maxperm。
Despite a few tradeoffs, reverse mappings have proven to be a valuable modification to the Linux memory manager.
尽管有一些折衷,但可以证明反向映射是对Linux内存管理器的一个颇有价值的修改。
Displays information in the IDE title bar regarding the amount of memory allocated using the memory manager.
在IDE的标题栏上显示内存管理器关于内存分配方面的信息。
The db2diag.log file is the repository for simple information on each configuration change made by the memory manager.
log文件存储内存管理器所做的每次配置修改的简单信息。
The Virtual Memory Manager (VMM) of AIX anticipates page requirements for observing the patterns of files that are accessed.
通过观察文件的访问模式,AIX的虚拟内存管理器(Virtual Memory Manager,VMM)可以预测页面需求。
This left a lot of room for Linux distributors to improve on the memory manager for their own particular distribution of Linux.
这为Linux的发行者改进自己特定发行版本的Linux的内存管理器留下了很大的空间。
The NON_PAGED_FCB contains a structure of special Pointers used by Memory Manager and Cache Manager to manipulate section objects.
非分页的FCB包含一个特殊的指针结构被内存管理器和缓存管理器用来操作区域对象。
This is not a specific change to V5.2, but any discussion of the memory manager and its USES bears at least a quick look at this feature.
这不是对于V5.2的特定更改,但是内存管理器及其使用的任何讨论都值得至少快速查看一次这个特性。
These changes all work together to produce a memory manager in the 2.6 kernel designed for better performance, efficiency, and stability.
这些变化一起促生了2.6内核中的内存管理器,它的设计目标是更高的性能、效率和稳定性。
You can also accomplish parts of this job at run time by calling various Memory Manager routines that I'll discuss in the next section.
你还可以在运行时间通过调用我将在下一章节中讨论的一些内存管理器程序来完成这部分工作。
Each satellite kernel is composed of a scheduler, a memory manager, a namespace manager, and code to coordinate communication between other kernels.
每个卫星内核都是由调度器、内存管理器、命名空间管理器以及协调与其他内核通信的代码所组成的。
We implement a Memory Manager, which leverages well-understood computer science algorithms combined with our own proprietary enhancements for doing so.
我们实现了一个内存管理器,它使用的是很好理解的计算机科学算法,还有我们专门为此实现的增强。
Meanwhile, the memory manager removes the possibilities of fragmented memory and increases memory locality-of-reference to further increase performance.
同时,内存管理器排除了出现零碎内存的可能性,并增大了内存引用区域以进一步提高性能。
The kernel parts of it such as the subsystem process control and memory manager are related with the architecture of target, have to be transplanted alone.
其中进程控制、内存管理等核心部分与目标机的体系结构密切相关,必须针对目标机单独移植。
The kernel parts of it such as the subsystem process control and memory manager are related with the architecture of target, have to be transplanted alone.
其中进程控制、内存管理等核心部分与目标机的体系结构密切相关,必须针对目标机单独移植。
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