This paper focuses on load monitoring, load migration and migration policy of the load balancing in Fight-test system.
论文针对靶试系统中负载平衡的负载监测、负载迁移和迁移策略等三个方面开展了重点研究。
The local load migration is based on the reciprocity capacity which is defined with the number of successful and failing migration.
提出了一个基于协作能力的局部负载迁移方法,定义了以负载迁移成功和失败次数为参数的协作能力估计函数。
Load migration algorithm is used to achieve both load balance and storage space balance on each node, which can form a reasonable distribution of data.
采用负载迁移算法,使各节点的负载和存储空间达到均衡,以形成合理的数据分布。
The cooperative nodes deployed in a local region maybe belong to different logically hierarchical cluster, so the local load migration is used to further balance their load.
一个区域可能部署了分属于不同逻辑层次簇群的多个服务器节点,需要通过负载迁移进一步平衡它们之间的负载。
For example, depending on the load simulation performed when migrating the test environment, the migration might complete successfully.
例如,根据在迁移测试环境时执行的负载模拟,迁移可能获得完全成功。
Then, during the migration of the production environment, when load is naturally increased, some timing window might be exposed that could cause undesirable application behavior.
接下来迁移生产环境。当负载自然增加时,可能会公开一些时间窗口,进而可能导致不良的应用程序行为。
Another advantage is that the actual migration process occurs on the NIM master, taking the load off the client LPAR.
另一个优势是,实际迁移过程在NIM主机上进行,消除了客户机LPAR上的迁移负载。
Although live migration was an important feature for load balancing over a cluster of servers, failover built on live migration opens new applications within the cloud for HA-dependent applications.
尽管动态迁移是在服务器群集上实现负载平衡的一项重要功能,基于动态迁移构建的故障恢复在针对依赖HA的应用程序的云中打开新的应用程序。
The second reason to use production data is that you can practice your migration at the same time as you load data.
第二,您可以在加载数据的同时练习您的迁移。
OpenMosix provides us with load leveling and transparent process migration in its simplest form.
openMosix以其最简单的方式为我们提供了负载均衡和透明进程迁移功能。
Live migration allows an operating system and its applications to be migrated to a new server to balance the load over the available hardware.
动态迁移(Live migration)允许操作系统及其应用程序迁移到新的服务器上,从而实现负载在可用硬件上的均衡。
The run-time migration scheme shown in Figures 2 to 5 above represents a best-case scenario and depends on the other application server providing support for load-balancing.
上面的图2至 5图解了运行时迁移,它代表一个最佳案例方案,并且要求另一个应用服务器须提供对负载平衡的支持。
If the SOA solution creates an ODS or MDM system, there will likely be a data migration effort required to load the initial data into the target database.
如果SOA解决方案创建一个ODS或MDM系统,那么很可能需要执行将初始数据装载到目标数据库的数据迁移。
This decentralized strategy is applied in the load information exchange and at the process-migration stage.
这一分散式策略被应用于负载信息交换,并且应用于进程迁移期间。
If the SOA solution creates an ODS or MDM system, there is likely to be a data migration effort required to load the initial data into the target database.
如果SOA解决方案创建一个ODS或MDM系统,那么很可能需要执行将初始数据装载到目标数据库的数据迁移。
Further, you can use it for proper load and performance testing, and eventually, you may want to use it for proper migration testing.
还可以使用它进行负载和性能测试,最后可以使用它进行迁移测试。
The statistics are available from the /proc filesystem at /proc/schedstat and present a variety of data for each CPU in the system, including load-balancing and process-migration statistics.
这些统计信息可以从 /proc 文件系统中的 /proc/schedstat 看到,它为系统中的每个CPU 都提供了很多数据,包括负载均衡和进程迁移的统计信息。
The test pressure of target service is controlled by using tokens and the load balance of distributed testing is realized by token migration.
采用令牌方式来控制目标服务的测试压力,通过令牌迁移实现分布式测试的负载平衡。
Discusses some issues about determining thermal migration coefficient value for calculating the cooling load from machine.
对机器散热冷负荷计算中热迁移系数的取值问题进行了探讨。
In distributed systems, the application of process migration has improved system load balancing and realized efficient fault tolerance.
进程迁移在分布式系统中的应用,提高了系统的负载平衡,实现了高效的容错性能。
The key point of resolving load balancing is a proper way of federate migration.
有效的联邦成员迁移是解决负载平衡问题的关键。
Migration target can be in its own area, also can adopt wide area migration according to network condition and local area load condition.
迁移目标可以在本区域内,亦可根据网络状况及本区域负载情况进行广域迁移。
At the same time, the structure of this invention can improve the electric load current carrier migration rate in the semiconductor component.
同时,本发明的结构能增进在半导体元件中的电荷载流子迁移率。
At the same time, the structure of this invention can improve the electric load current carrier migration rate in the semiconductor component.
同时,本发明的结构能增进在半导体元件中的电荷载流子迁移率。
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