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    • 2. 发明申请
    • Optimizing message transmission and delivery in a publisher-subscriber model
    • 在发布商订阅者模型中优化消息传输和传递
    • US20060277319A1
    • 2006-12-07
    • US11144102
    • 2005-06-03
    • Jean-Emile ElienLee GraberSanjib Saha
    • Jean-Emile ElienLee GraberSanjib Saha
    • G06F15/173
    • H04L67/26H04L51/00H04L51/26
    • Systems and methods for reducing the latency incurred during the publication of a message in a message publication system are provided. In a message publication system wherein the publishing component and the receiving component are located within the same processing space, several of the latency components that are usually unavoidably incurred may be eliminated. In such a system, the messaging queue is not used as a medium between the two components but is instead used as a secondary back-up storage. This results in the elimination of one latency component as the message is directly published from the publishing component to the receiving component. Further time reductions or optimizations occur when the durability, or reliability, of the message publication is not a concern and the messaging queue can be completely disregarded. Yet another optimization occurs when the identity of the subscriber is known in advance by the publisher.
    • 提供了用于减少在消息发布系统中发布消息期间发生的延迟的系统和方法。 在其中发布组件和接收组件位于相同处理空间内的消息发布系统中,可以消除通常不可避免地引起的几个等待时间组件。 在这样的系统中,消息队列不用作两个组件之间的介质,而是用作辅助备用存储。 这导致消息从发布组件直接发布到接收组件时消除一个延迟组件。 当消息出版物的耐久性或可靠性不是关心且消息队列可以被完全忽视时,会发生进一步的时间缩减或优化。 当发布者预先知道用户的身份时,会发生另一个优化。
    • 7. 发明授权
    • Efficient processing of a convoy workflow scenario in a message driven process
    • 在消息驱动过程中高效地处理车队工作流场景
    • US07370333B2
    • 2008-05-06
    • US10452961
    • 2003-06-02
    • Bimal MehtaJohannes KleinLee GraberPaul MaybeeSriram BalasubramanianSanjib SahaSatish R. ThattePaul F. Ringseth
    • Bimal MehtaJohannes KleinLee GraberPaul MaybeeSriram BalasubramanianSanjib SahaSatish R. ThattePaul F. Ringseth
    • G06F9/44
    • G06F9/54G06F2209/542
    • An XLANG/s compiler detects convoy scenarios during compilation and generates runtime directives to correctly correlate incoming messages with business process instances. A convoy scenario, present in event driven processes, is defined by a correlation set initialized during a receive operation which is provided to a subsequent receive operation. The compiler detects those convoy scenarios by analyzing the control and dataflow of a XLANG/s program. Three convoy patterns are distinguished: (1) activation convoys, (2) uniform sequential convoys, and (3) non-uniform sequential convoys. XLANG/s allows declarative descriptions of convoy scenarios without requiring an understanding of the low-level details supporting their correct execution. Convoy scenarios are processed by statically analyzing a written workflow application to deduce the nature and type of convoy scenarios used by the application. Information is extracted at compile time to support the runtime infrastructure. The runtime infrastructure is tightly integrated with the underlying correlation and subscription evaluation framework.
    • XLANG / s编译器在编译期间检测车队场景,并生成运行时指令,将传入的消息与业务流程实例正确关联。 存在于事件驱动过程中的车队场景由在提供给后续接收操作的接收操作期间初始化的相关集定义。 编译器通过分析XLANG / s程序的控制和数据流来检测这些车队场景。 三个车队模式有区别:(1)活动车队,(2)统一的顺序车队,(3)不均匀的顺序车队。 XLANG / s允许对车队场景的声明性描述,而不需要了解支持其正确执行的低级细节。 通过静态分析书面工作流应用程序来演绎应用程序使用的车队场景的性质和类型来处理方便情景。 在编译时提取信息以支持运行时基础设施。 运行时基础架构与底层的相关和订阅评估框架紧密集成。
    • 9. 发明申请
    • EFFICIENT PROCESSING OF A CONVOY WORKFLOW SCENARIO IN A MESSAGE DRIVEN PROCESS
    • 在消息传播过程中有效的处理工作流程场景
    • US20080167925A1
    • 2008-07-10
    • US12054569
    • 2008-03-25
    • Bimal MehtaJohannes KleinLee GraberPaul MaybeeSriram BalasubramanianSanjib SahaSatish R. ThattePaul F. Ringseth
    • Bimal MehtaJohannes KleinLee GraberPaul MaybeeSriram BalasubramanianSanjib SahaSatish R. ThattePaul F. Ringseth
    • G06Q10/00
    • G06F9/54G06F2209/542
    • An XLANG/s compiler detects convoy scenarios during compilation and generates runtime directives to correctly correlate incoming messages with business process instances. A convoy scenario, present in event driven processes, is defined by a correlation set initialized during a receive operation which is provided to a subsequent receive operation. The compiler detects those convoy scenarios by analyzing the control and dataflow of a XLANG/s program. Three convoy patterns are distinguished: (1) activation convoys, (2) uniform sequential convoys, and (3) non-uniform sequential convoys. XLANG/s allows declarative descriptions of convoy scenarios without requiring an understanding of the low-level details supporting their correct execution. Convoy scenarios are processed by statically analyzing a written workflow application to deduce the nature and type of convoy scenarios used by the application. Information is extracted at compile time to support the runtime infrastructure. The runtime infrastructure is tightly integrated with the underlying correlation and subscription evaluation framework.
    • XLANG / s编译器在编译期间检测车队场景,并生成运行时指令,将传入的消息与业务流程实例正确关联。 存在于事件驱动过程中的车队场景由在提供给后续接收操作的接收操作期间初始化的相关集定义。 编译器通过分析XLANG / s程序的控制和数据流来检测这些车队场景。 三个车队模式有区别:(1)活动车队,(2)统一的顺序车队,(3)不均匀的顺序车队。 XLANG / s允许对车队场景的声明性描述,而不需要了解支持其正确执行的低级细节。 通过静态分析书面工作流应用程序来演绎应用程序使用的车队场景的性质和类型来处理方便情景。 在编译时提取信息以支持运行时基础设施。 运行时基础架构与底层的相关和订阅评估框架紧密集成。