从很低端的桌面系统到大型的、企业级的、多处理器的系统,新的内存管理代码已经在它们上面都已经进行了测试和优化。
The new memory management code has been tested and optimized on everything from very low end desktop systems to large, enterprise-class, multi-processor systems.
我将介绍一些监视工具,您可以使用这些工具来优化您的系统,本文还对一些比较重要的AIXVersion 5.3内存管理增强功能进行概述。
I introduce some of the monitoring tools that you can use to put you in position to tune your systems and outline some of the more important AIX Version 5.3 memory management enhancements.
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。
A flag is set to tell the memory manager when this optimization is in effect for a given page.
尽管在本系列后续的部分中重点关注于优化工作,但是您可能希望首先熟悉一下网络子系统的内存管理机制。
Though the series focuses on tuning in subsequent parts, you might want to start to familiarize yourself with the memory management facility of network subsystems.
应用服务器供应商在其内存空间实现池管理器,并根据需要动态改变池的大小,从而优化资源的使用。
The application service provider implements the pool manager in its memory space and can optimize resource usage by dynamically altering the pool size, based on demand.
它还深入地分析了各种优化参数,并对AIXVersion 5.3中内存管理方面的改进内容进行了介绍。
It also drills down into the tuning parameters and Outlines recent improvements in AIX Version 5.3 with respect to memory management.
适当地使用AIXVersion 5.3中的内存管理增强功能,可以帮助您高效地对系统进行优化。
Appropriate usage of the enhanced functionality of memory management in AIX Version 5.3 can certainly impact your ability to effectively tune your systems.
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。
In earlier tuning sections, you might remember the Virtual Memory Manager (VMM) parameters minperm and maxperm.
提出一种内存优化管理方法,能更高效地存储海量数据。
A memory optimizing management method is proposed, which can memorize massive data efficiently.
还通过内存管理和显示优化技术提升了系统的性能。
We also use memory management and display optimization to enhance running performance.
通过对内存管理的分析,提出了内存优化算法。
This paper brings forward an optimizing memory algorithm by analyzing memory management.
通过对内存管理的分析,提出了内存优化算法。
This paper brings forward an optimizing memory algorithm by analyzing memory management.
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