传统的面向事务处理的业务系统,在积累数据信息的同时,对如何利用这些信息显得力不从心。
The traditional information system for transaction processing can only contribute to producing data information, but not to analyzing them.
面向事务处理的经典ERP系统,不能有效支持企业在混沌环境下不断变化业务模型及业务模型的持续改进。
But the classical erp, which focuses on transaction processing, cannot efficiently support the ever changing and improving enterprise model in a chaotic environment.
它们的交互样式可能各不相同,从实时在线事务处理到面向批量的处理。
Their interaction styles can vary from near real-time online transaction processing to batch-oriented processing.
中间件分数据库、远程过程调用、面向消息、对象请求代理、事务处理管程(TPM)或专用(PM)等类。
The middleware is divided into some classes, such as database, remote procedure call (RPC), oriented message, object request agent, transaction processing management (TPM) or special PM.
例如,如果你的程序是面向在线事务处理(OLTP)的,操作太慢很快就会导致用户产生放弃系统的念头。
For example, if your application is oriented toward online transaction processing (OLTP), slow performance will quickly result in users wanting to abandon the system.
本文给出了一个面向对象的分布式事务处理模型,提出了适应此模型的并发控制算法,并对算法的正确性进行了证明。
This paper presents a model for object -oriented distributed transactions, and proposes the concurrency control algorithm that fits this mode. In this paper, the algorithm has been proved.
本文给出了一个面向对象的分布式事务处理模型,提出了适应此模型的并发控制算法,并对算法的正确性进行了证明。
This paper presents a model for object -oriented distributed transactions, and proposes the concurrency control algorithm that fits this mode. In this paper, the algorithm has been proved.
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