HOWL is an Apache component used for transaction logging and recovery.
HOWL是一个Apache组件,用于事务日志记录和恢复。
To perform these operations efficiently and maintain the integrity of databases, NSF USES buffer caching and provides for transaction logging and recovery.
为了有效的执行这些操作并保持数据库的完整性,NSF使用了缓存,并为操作提供了日志和恢复功能。
Be aware that if you decide to use circular logging and offline recovery as your backup strategy, all transactions after the last offline backup will be lost.
注意,如果决定使用循环日志记录和脱机恢复作为您的备份策略,那么最后一次脱机备份以后的所有事务都将丢失。
If you choose to have archive logging, and do an online backup and roll forward recovery, you can recover to a point in time or to the end of the logs for the minimum loss of data.
如果您选择使用归档日志记录,并执行联机备份和前滚恢复,那么您可以恢复到数据丢失最少的那个时间点,或者恢复到结束日志的时候。
When you choose to use circular logging (the default), the only choice is to do an offline backup and version recovery.
当选择使用循环日志记录(默认情况下选择这种日志记录)时,惟一的选择是执行脱机备份和版本恢复。
Archive logging enables an online backup and recovery.
存档日志模式支持在线备份和恢复。
This article looked at numerous aspects of both MySQL and DB2 Express-C backup and recovery mechanisms including architecture, memory structure, logging types, and backup and restore type.
本文讨论了MySQL和DB 2Express - c备份和恢复机制的许多方面,包括体系结构、内存结构、日志类型以及备份和恢复类型。
To understand the DB2 UDB online backup and recovery, you need to understand archive logging. There are three definitions of logs that we need to familiar with.
要了解DB 2UD b联机备份和恢复,就需要了解归档日志记录。
There are two types of DB2 logging, and each logging method has an implications for recovery.
有两种类型的DB 2日志记录,每种日志记录方法支持特定的恢复选项。
We recommend transaction logging for high availability and failure recovery.
为了获得高可用性和进行故障恢复,我们推荐使用事务日志。
For circular logging, both log retain for recovery status and user exit for logging status are set to NO.
对于循环日志记录,logretain forrecoverystatus和userexitforlogging status都被设为NO。
This paper presents a rollback recovery scheme based on partitioned message logging, models its performance, and then evaluates its average overhead.
本文给出了一种基于分块消息日志的回卷恢复协议,建立了其性能模型,评估了协议的平均开销。
The present invention improves the performance of a logging system by reducing the size of log records and by allowing parallel execution of recovery operations.
本发明通过减小日志记录大小并允许恢复操作的并行执行,改善了日志系统的性能。
We develop a rollback recovery scheme based on partitioned message logging, establish its performance model, and evaluate its average overhead ratio.
我们提出一种基于分块消息日志的回卷恢复协议,建立其性能模型,探讨协议开销率与协议参数和系统特性参数之间的关系。
Since NTFS recovers its data through logging file system, corresponding details about data recovery process and use of logging file system were presented.
NTFS使用日志文件系统实现系统的数据故障恢复功能,对数据恢复过程及过程中日志文件系统的使用给出了详细的说明。
Our scheme being a configurable general rollback recovery approach, its two end points correspond to conventional pessimistic message logging and coordinated checkpointing, respectively.
分块消息日志方法是一种可配置的一般化方法,悲观消息日志方法和协同检查点方法是其两个特例。
Recovery activities like logging, checkpointing, backup and reloading are used to restore the database to a consistent state after a system crash has occurred.
为了能在数据库系统发生故障之后将数据库恢复到一个一致性的状态,恢复子系统需要进行记日志、做检验点、备份和故障后重装等活动。
The injection profile logging as one of the important methods for dynamic inspecting provides the support for the design of the exploitation project and enhancing the recovery factor.
吸水剖面测井作为动态监测的重要手段之一,可为针对性地设计开发方案,提高采收率提供支持。
The injection profile logging as one of the important methods for dynamic inspecting provides the support for the design of the exploitation project and enhancing the recovery factor.
吸水剖面测井作为动态监测的重要手段之一,可为针对性地设计开发方案,提高采收率提供支持。
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