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    • 5. 发明授权
    • Flexible and extensible framework and model for systems manageable components
    • 灵活可扩展的框架和模型,用于系统可管理组件
    • US08306980B2
    • 2012-11-06
    • US12420915
    • 2009-04-09
    • Antonio AbbondanzioThomas J. ProrockRobert E. Warren
    • Antonio AbbondanzioThomas J. ProrockRobert E. Warren
    • G06F17/30
    • G06F17/30286
    • A method, a system and a computer program product for defining manageable component objects to an application utilizing data roots. A manageable component engine creates a bridge manageable component model utilizing the data roots. Data roots, or root data, are retrieved and stored in a manageable component persistent index of an application. The manageable component persistent index is processed for one or more root objects during an initialization of a manageable component engine. The manageable component engine queries one or more data sources, and accesses data required for creating a manageable component object instance. One or more manageable component objects are registered in a manageable component repository. The manageable component bridge model is created and displayed via a graphical user interface.
    • 一种用于使用数据根定义可管理组件对象到应用的方法,系统和计算机程序产品。 可管理的组件引擎使用数据根创建一个桥管理组件模型。 数据根或根数据被检索并存储在应用程序的可管理组件持久索引中。 在可管理组件引擎的初始化期间,针对一个或多个根对象处理可管理组件持久性索引。 可管理组件引擎查询一个或多个数据源,并访问创建可管理组件对象实例所需的数据。 一个或多个可管理的组件对象被注册在可管理的组件存储库中。 可管理组件桥模型通过图形用户界面创建和显示。
    • 6. 发明申请
    • Flexible and Extensible Framework and Model for Systems Manageable Components
    • 灵活和可扩展的框架和系统可管理组件的模型
    • US20100262626A1
    • 2010-10-14
    • US12420915
    • 2009-04-09
    • Antonio AbbondanzioThomas J. ProrockRobert E. Warren
    • Antonio AbbondanzioThomas J. ProrockRobert E. Warren
    • G06F17/30
    • G06F17/30286
    • A method, a system and a computer program product for defining manageable component objects to an application utilizing data roots. A manageable component engine creates a bridge manageable component model utilizing the data roots. Data roots, or root data, are retrieved and stored in a manageable component persistent index of an application. The manageable component persistent index is processed for one or more root objects during an initialization of a manageable component engine. The manageable component engine queries one or more data sources, and accesses data required for creating a manageable component object instance. One or more manageable component objects are registered in a manageable component repository. The manageable component bridge model is created and displayed via a graphical user interface.
    • 一种用于使用数据根定义可管理组件对象到应用的方法,系统和计算机程序产品。 可管理的组件引擎使用数据根创建一个桥管理组件模型。 数据根或根数据被检索并存储在应用程序的可管理组件持久索引中。 在可管理组件引擎的初始化期间,可管理组件持久性索引被处理为一个或多个根对象。 可管理组件引擎查询一个或多个数据源,并访问创建可管理组件对象实例所需的数据。 一个或多个可管理的组件对象被注册在可管理的组件存储库中。 可管理组件桥模型通过图形用户界面创建和显示。
    • 10. 发明授权
    • Fail-over control in a computer system having redundant service processors
    • 具有冗余服务处理器的计算机系统中的故障切换控制
    • US06931568B2
    • 2005-08-16
    • US10113167
    • 2002-03-29
    • Antonio AbbondanzioGregory William DakeDhruv Manmohandas DesaiBenjamin Russell GrimesWilliam Joseph PiazzaGregory Brian PruettDavid B. Rhoades
    • Antonio AbbondanzioGregory William DakeDhruv Manmohandas DesaiBenjamin Russell GrimesWilliam Joseph PiazzaGregory Brian PruettDavid B. Rhoades
    • H04L1/22G06F11/00
    • G06F11/2028G06F11/2038H04L1/22
    • A system and method for determining an active service processor from two or more redundant service processors in the system. The system typically includes two management modules and at least one managed subsystem such as a server blade. Each management module includes a service processor and control logic. The control logic is configured to receive various status signals from the service processor and to generate a control signal based thereon. The control signal is provided, via an interconnect plane, to determination logic on each managed subsystem. The determination logic receives a control signal from each management module and generates a switch signal based on the state of the control signals. The switch signal controls switching logic configured to receive bus signals from the service processors on each management module. Based on the control signal, one of the service processor bus signals is provided to managed instrumentation on the managed subsystem. The management module control logic is generally configured to maintain the control signal in its current state if the active processor is determined to be functional. The control logic is further configured to alter the control signal state if the active service processor is determined to be non-functional. A transition in the control signal typically generates a fail-over event that causes the switching logic on the managed subsystems to switch from the previously active service processor to the previously inactive or standby service processor as the source of service processor signals.
    • 一种用于从系统中的两个或多个冗余服务处理器确定主动服务处理器的系统和方法。 系统通常包括两个管理模块和至少一个托管子系统,例如服务器刀片。 每个管理模块包括服务处理器和控制逻辑。 控制逻辑被配置为从服务处理器接收各种状态信号并且基于此产生控制信号。 控制信号通过互连平面提供给每个被管理的子系统上的确定逻辑。 确定逻辑从每个管理模块接收控制信号,并根据控制信号的状态生成开关信号。 开关信号控制被配置为从每个管理模块上的服务处理器接收总线信号的开关逻辑。 基于控制信号,服务处理器总线信号之一被提供给被管理子系统上的管理仪器。 管理模块控制逻辑通常被配置为如果活动处理器被确定为功能,则将控制信号保持在其当前状态。 控制逻辑还被配置为如果主动服务处理器被确定为不起作用则改变控制信号状态。 控制信号中的转换通常产生故障转移事件,导致被管理子系统上的交换逻辑从先前有效的服务处理器切换到先前不活动或备用服务处理器作为服务源处理器信号。