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    • 1. 发明申请
    • RELIABLE AND RESILIENT END-TO-END CONNECTIVITY FOR HETEROGENEOUS NETWORKS
    • 可靠和灵活的异构网络的端到端连接
    • US20080259790A1
    • 2008-10-23
    • US11738499
    • 2007-04-22
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T. HuynhBarry Mosakowski
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T. HuynhBarry Mosakowski
    • H04J1/16
    • H04L41/022
    • Embodiments of the present invention address deficiencies of the art in respect to connectivity management in a heterogeneous network and provide a method, system and computer program product for resilient and reliable end-to-end connectivity in a heterogeneous network. In one embodiment of the invention, a method for resilient and reliable end-to-end connectivity in a heterogeneous network environment can be provided. The method can include creating an instance of an abstracted network resource model (NRM) for a heterogeneous network environment of different network resource nodes. The method further can include binding an application endpoint in the instance of the abstracted NRM with a connectivity endpoint for a first of the different network resource nodes. The method yet further can include detecting an outage in the first of the different network resource nodes. Finally, the method can include re-binding the application endpoint to a second of the different network resource nodes in response to detecting the outage.
    • 本发明的实施例解决了异构网络中的连接性管理方面的技术缺陷,并提供了用于异构网络中的弹性和可靠的端到端连接的方法,系统和计算机程序产品。 在本发明的一个实施例中,可以提供一种用于异构网络环境中的弹性且可靠的端到端连接的方法。 该方法可以包括为不同网络资源节点的异构网络环境创建抽象网络资源模型(NRM)的实例。 该方法还可以包括将抽象NRM的实例中的应用端点与第一个不同网络资源节点的连接性端点绑定。 该方法还可以包括检测第一不同网络资源节点中的中断。 最后,该方法可以包括响应于检测到中断而将应用端点重新绑定到不同网络资源节点中的第二个。
    • 5. 发明申请
    • RELIABLE AND RESILIENT END-TO-END CONNECTIVITY FOR HETEROGENEOUS NETWORKS
    • 可靠和灵活的异构网络的端到端连接
    • US20110038256A1
    • 2011-02-17
    • US12911707
    • 2010-10-25
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T. HuynhBarry Mosakowski
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T. HuynhBarry Mosakowski
    • G06F11/00
    • Embodiments of the present invention address deficiencies of the art in respect to connectivity management in a heterogeneous network and provide a method, system and computer program product for resilient and reliable end-to-end connectivity in a heterogeneous network. In one embodiment of the invention, a method for resilient and reliable end-to-end connectivity in a heterogeneous network environment can be provided. The method can include creating an instance of an abstracted network resource model (NRM) for a heterogeneous network environment of different network resource nodes. The method further can include binding an application endpoint in the instance of the abstracted NRM with a connectivity endpoint for a first of the different network resource nodes. The method yet further can include detecting an outage in the first of the different network resource nodes. Finally, the method can include re-binding the application endpoint to a second of the different network resource nodes in response to detecting the outage.
    • 本发明的实施例解决了异构网络中的连接性管理方面的技术缺陷,并提供了用于异构网络中的弹性和可靠的端到端连接的方法,系统和计算机程序产品。 在本发明的一个实施例中,可以提供一种用于异构网络环境中的弹性且可靠的端到端连接的方法。 该方法可以包括为不同网络资源节点的异构网络环境创建抽象网络资源模型(NRM)的实例。 该方法还可以包括将抽象NRM的实例中的应用端点与第一个不同网络资源节点的连接性端点绑定。 该方法还可以包括检测第一不同网络资源节点中的中断。 最后,该方法可以包括响应于检测到中断而将应用端点重新绑定到不同网络资源节点中的第二个。
    • 6. 发明授权
    • Reliable and resilient end-to-end connectivity for heterogeneous networks
    • 异构网络的可靠和有弹性的端到端连接
    • US07821921B2
    • 2010-10-26
    • US11738499
    • 2007-04-22
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T HuynhBarry Mosakowski
    • Dinakaran JosephJon K. FranksChristopher N. FreemanSivaram GottimukkalaJason P. HawryszLap T HuynhBarry Mosakowski
    • H04J1/16G06F11/00G06F15/173
    • H04L41/022
    • Embodiments of the present invention address deficiencies of the art in respect to connectivity management in a heterogeneous network and provide a method, system and computer program product for resilient and reliable end-to-end connectivity in a heterogeneous network. In one embodiment of the invention, a method for resilient and reliable end-to-end connectivity in a heterogeneous network environment can be provided. The method can include creating an instance of an abstracted network resource model (NRM) for a heterogeneous network environment of different network resource nodes. The method further can include binding an application endpoint in the instance of the abstracted NRM with a connectivity endpoint for a first of the different network resource nodes. The method yet further can include detecting an outage in the first of the different network resource nodes. Finally, the method can include re-binding the application endpoint to a second of the different network resource nodes in response to detecting the outage.
    • 本发明的实施例解决了异构网络中的连接性管理方面的技术缺陷,并且提供了一种用于异构网络中的弹性且可靠的端到端连接的方法,系统和计算机程序产品。 在本发明的一个实施例中,可以提供一种用于异构网络环境中的弹性且可靠的端到端连接的方法。 该方法可以包括为不同网络资源节点的异构网络环境创建抽象网络资源模型(NRM)的实例。 该方法还可以包括将抽象NRM的实例中的应用端点与第一个不同网络资源节点的连接性端点绑定。 该方法还可以包括检测第一不同网络资源节点中的中断。 最后,该方法可以包括响应于检测到中断而将应用端点重新绑定到不同网络资源节点中的第二个。
    • 7. 发明授权
    • Cross address space thread control in a multithreaded environment
    • 在多线程环境中交叉地址空间线程控制
    • US5632032A
    • 1997-05-20
    • US192929
    • 1994-02-07
    • Donald F. AultErnest S. BenderJon K. FranksSteven Walkowiak
    • Donald F. AultErnest S. BenderJon K. FranksSteven Walkowiak
    • G06F9/46G06F9/48G06F11/28G06F11/36G06F9/44G06F11/00
    • G06F11/3664
    • A method of controlling the execution of the threads of a first application such as a user application from a second application such as a debugger application running in a different address space. After initializing trace mode for the user application, the debugger waits for an event to occur on one of the threads of the user application. Upon the occurrence of an event on one of the user application threads, an event handler obtains control of the thread execution. The event handler suspends execution of the remaining threads in the application, posts the debugger and then suspends its own execution. When the debugger application has completed its debugging operations, it posts the event handler, which resumes execution of the suspended threads and returns control to the thread on which the event occurred. If a subsequent event occurs on one thread while a previous event on another thread is being processed, the event handler for the subsequent event places it in a deferred event queue for deferred processing. Events consisting of breakpoints are redriven rather than being placed on the deferred queue. The debugger application may hold selected threads in a suspended state following resumption of the remaining threads by setting hold flags associated with those threads.
    • 一种控制诸如用户应用程序的第一应用程序的线程从诸如在不同地址空间中运行的调试器应用程序的第二应用程序执行的方法。 在为用户应用程序初始化跟踪模式之后,调试器等待在用户应用程序的一个线程上发生事件。 在一个用户应用程序线程上发生事件时,事件处理程序获得线程执行的控制。 事件处理程序暂停执行应用程序中的其余线程,发布调试器,然后挂起自己的执行。 当调试器应用程序完成其调试操作时,它会发布事件处理程序,该处理程序将恢复挂起的线程的执行,并将控件返回给发生事件的线程。 如果在一个线程上发生后续事件,而另一个线程上的先前事件正在处理中,则后续事件的事件处理程序会将其放入延迟事件队列中以进行延迟处理。 由断点组成的事件被重新划分,而不是放在延期队列中。 通过设置与这些线程相关联的保持标志,调试器应用程序可以在恢复剩余线程之后将所选线程保持在暂停状态。