本节提供动态分区迁移的配置设置参考清单。
This section provides a reference checklist of configuration Settings for Live Partition Mobility.
设计程序模拟内存的动态分区法存储管理。
Design program to simulate the dynamic partitioning method of memory storage management.
编程实现动态分区管理方式的主存的回收。
Programming dynamic partitioning of main memory management method of recovery.
模拟动态分区存储管理方式的主存分配与回收。
Simulate dynamic partition management for main memory storage allocation and recovery.
而如果数据库只是一小部分经常需要更新,那么就考虑动态分区。
On the other hand, if a small part of the database requires frequent updates, consider dynamic partitions.
我们定义了动态应用程序迁移和动态分区迁移之间的区别。
We defined the differences between Live Application Mobility and Live Partition Mobility.
动态分区迁移要求使用HMC Version7.3.2或更高版本。
Live Partition Mobility requires HMC Version 7.3.2 or higher.
动态分区迁移在操作系统级别、固件级别、DB 2数据存储布局和网络接口方面有特殊的要求。
Live Partition Mobility has specific requirements in terms of the operating system level, firmware level, DB2 data storage layout, and network interfaces.
用一种结构化高级语言构造分区描述器,编制动态分区分配算法和回收算法模拟程序。
Use a structured high-level language describes tectonic division, prepare dynamic partitioning algorithm and recovery algorithm simulation program.
剖析了电梯交通的动态分区模型,设计了动态分区模型的人工免疫算法,并对之做了比较仿真研究。
In this paper, the dynamic zoning model of elevator traffic was clearly outlined, and the artificial immune algorithm for the dynamic zoning model was designed.
高度可用——通过Geronimo的动态分区特性,可以构建更大的集群,而集群更大,可用性的潜力就越大。
Highly available — Through the dynamic partitioning features of Geronimo, larger clusters can be built, and the larger the cluster, the higher the availability potential.
从DB 2UDBV8.1.2开始,DB 2 UDB已经支持用于不同供应商的硬件分区策略的特性-包括动态分区策略。
Since DB2 UDB V8.1.2, DB2 UDB has supported features for different vendors' hardware partitioning strategies - including dynamic ones.
动态逻辑分区通过对资源的分配提供控制而不影响逻辑分区的可用性来增强这种能力。
Dynamic logical partitioning enhances this capability by providing control of the allocation of the resources without impacting the logical partitions availability.
事务和报表分区的负载明确指出非常需要进行动态处理器分配。
The loads of the transaction and report partitions crystallize the very need for dynamic processor allocation.
动态逻辑分区(DLPAR)为您的计算环境提供了大量的灵活性。
Dynamic logical partitioning (DLPAR) provides a great deal of flexibility to your computing environment.
使用动态LPAR,不需要重新引导分区就可以动态地添加和删除资源。
With Dynamic LPAR, resources can be dynamically added and removed without requiring a partition reboot.
当服务处于活动状态(运行)之后,就可以启用分区来从HMC接收动态lpar命令了。
After the services are active (running), the partition will be able to receive dynamic LPAR commands from the HMC.
无法在分区之间动态分配处理资源。
You cannot dynamically allocate processing resources between partitions.
这在分区系统中尤为重要,您可以在极短时间内进行动态逻辑分区(DLPAR)。
This is particularly important in the partitioned world, when you can Dynamic Logical Partitioning (DLPAR) at a moments notice.
HMC还可以作为动态重新配置分区的控制点。
The HMC is also the control point for dynamic reconfiguration of partitions.
这些分区具有一些虚拟化元素,但是它们不支持在分区本身之间共享资源,也不支持在分区之间动态分配CPU资源。
These provide for some elements of virtualization, though they do not allow one to share resources between partitions themselves, nor can you dynamically allocate CPU resources between partitions.
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。
This was achieved through dynamic Logical Partitioning (DLPAR) -the process of dynamically allocating additional CPU or memory servers to a running LPAR.
有时候通过采取额外的步骤可以使某个分区具有迁移资格,例如使用动态逻辑分区(DLPAR)操作删除物理适配器(非虚拟适配器)。
Sometimes you can qualify a partition for mobility by taking additional steps, such as removing physical adapters (non-virtual adapters) using a dynamic logical partitioning (DLPAR) operation.
实际上,它有许多问题,包括可伸缩性差、微分区功能有限制而且不支持在系统之间进行动态分配。
The truth is that it has many issues, among them, scalability, limited micro partitioning and no dynamic allocation between systems.
在一个高度可用的动态环境中,基本的分区大小调整器无法满足这些要求。
In a highly available, dynamic environment, a basic partition resizer just won't work.
动态逻辑分区提供了这种必须的灵活性来控制资源的分配。
Dynamic logical partitioning provides this necessary flexibility to control resource allocation.
动态应用迁移:这允许分区从一个系统转移到另一个系统,而不需要重新启动应用程序,也不会中断最终用户对系统的访问。
Live application mobility: this allows for partitions to be moved from one system to another without restarting applications or causing system disruption to end-users.
虚拟化具有一个重要的特性,在对逻辑分区进行动态配置和重新配置时,无需重新启动整个物理计算机,也不会影响到其他分区。
An important feature of virtualization is the dynamic configuration and reconfiguration of the logical partitions without need for rebooting the entire physical machine or disturbing other partitions.
下面的表格介绍了动态应用程序迁移和分区迁移之间的一些基本区别。
The table below shows some basic differences between Live Application Mobility and Partition Mobility.
下面的表格介绍了动态应用程序迁移和分区迁移之间的一些基本区别。
The table below shows some basic differences between Live Application Mobility and Partition Mobility.
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