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    • 1. 发明授权
    • Fault detection and recovery as a service
    • 故障检测和恢复服务
    • US09240937B2
    • 2016-01-19
    • US13076963
    • 2011-03-31
    • Atul KatiyarChinna Babu Polinati
    • Atul KatiyarChinna Babu Polinati
    • G06F11/00H04L12/26H04L12/24G06F11/14G06F11/20G06F11/30G06F11/07
    • H04L43/12G06F11/0709G06F11/0751G06F11/1438G06F11/2025G06F11/2028G06F11/203G06F11/2035G06F11/3006G06F11/3055H04L41/0695
    • The monitoring by a monitoring node of a process performed by a monitored node is often devised as a tightly coupled interaction, but such coupling may reduce the re-use of monitoring resources and processes and increase the administrative complexity of the monitoring scenario. Instead, fault detection and recovery may be designed as a non-proprietary service, wherein a set of monitored nodes, together performing a set of processes, may register for monitoring by a set of monitoring nodes. In the event of a failure of a process, or of an entire monitored node, the monitoring nodes may collaborate to initiate a restart of the processes on the same or a substitute monitored node (possibly in the state last reported by the respective processes). Additionally, failure of a monitoring node may be detected, and all monitored nodes assigned to the failed monitoring node may be reassigned to a substitute monitoring node.
    • 由监视节点对被监视节点执行的进程的监视通常被设计为紧密耦合的交互,但是这种耦合可以减少监视资源和过程的重用,并增加监视情景的管理复杂性。 相反,故障检测和恢复可以被设计为非专有服务,其中一组监视节点一起执行一组进程可以注册用于一组监视节点的监视。 在进程或整个受监视节点发生故障的情况下,监控节点可以协作以在相同或替代的监视节点(可能在上一次由各个进程报告的状态)中启动进程的重新启动。 此外,可以检测到监视节点的故障,并且分配给故障监视节点的所有监视节点可以被重新分配给替代监视节点。
    • 2. 发明申请
    • FAULT DETECTION AND RECOVERY AS A SERVICE
    • 作为服务的故障检测和恢复
    • US20120254652A1
    • 2012-10-04
    • US13076963
    • 2011-03-31
    • Atul KatiyarChinna Babu Polinati
    • Atul KatiyarChinna Babu Polinati
    • G06F11/14
    • H04L43/12G06F11/0709G06F11/0751G06F11/1438G06F11/2025G06F11/2028G06F11/203G06F11/2035G06F11/3006G06F11/3055H04L41/0695
    • The monitoring by a monitoring node of a process performed by a monitored node is often devised as a tightly coupled interaction, but such coupling may reduce the re-use of monitoring resources and processes and increase the administrative complexity of the monitoring scenario. Instead, fault detection and recovery may be designed as a non-proprietary service, wherein a set of monitored nodes, together performing a set of processes, may register for monitoring by a set of monitoring nodes. In the event of a failure of a process, or of an entire monitored node, the monitoring nodes may collaborate to initiate a restart of the processes on the same or a substitute monitored node (possibly in the state last reported by the respective processes). Additionally, failure of a monitoring node may be detected, and all monitored nodes assigned to the failed monitoring node may be reassigned to a substitute monitoring node.
    • 由监视节点对被监视节点执行的进程的监视通常被设计为紧密耦合的交互,但是这种耦合可以减少监视资源和过程的重用,并增加监视情景的管理复杂性。 相反,故障检测和恢复可以被设计为非专有服务,其中一组监视节点一起执行一组进程可以注册用于一组监视节点的监视。 在进程或整个受监视节点发生故障的情况下,监控节点可以协作以在相同或替代的监视节点(可能在上一次由各个进程报告的状态)中启动进程的重新启动。 此外,可以检测到监视节点的故障,并且分配给故障监视节点的所有监视节点可以被重新分配给替代监视节点。
    • 3. 发明授权
    • Large scale real-time multistaged analytic system using data contracts
    • 使用数据合同的大规模实时多阶段分析系统
    • US09367619B2
    • 2016-06-14
    • US13194084
    • 2011-07-29
    • Atul KatiyarPurushottam AmradkarNitin Gupta
    • Atul KatiyarPurushottam AmradkarNitin Gupta
    • G06F17/30
    • G06F17/30864G06F17/30846
    • An analytic system may have a number of processing stages. One or more data sources may provide data to a first processing stage. The first processing stage may specify one or more data contracts having a schema describing a layout and types of data provided by the one or more data sources. Each of the processing stages may specify a respective data contract having a schema such that the processing stages may understand a layout and types of data provided as input to the processing stages. The data contracts me further specify a valid range of values for various items of data described by schemas. Data not conforming to a data contract may be automatically filtered out such that a corresponding processing stage may not be provided with the non-conforming data.
    • 分析系统可能具有多个处理阶段。 一个或多个数据源可以向第一处理阶段提供数据。 第一处理阶段可以指定具有描述由一个或多个数据源提供的布局和数据类型的模式的一个或多个数据契约。 每个处理阶段可以指定具有模式的相应数据契约,使得处理阶段可以理解作为处理阶段的输入提供的数据的布局和类型。 数据约定我进一步指定了由模式描述的各种数据项的有效范围值。 可能会自动过滤掉不符合数据合约的数据,从而可能不会对不合格的数据提供相应的处理阶段。
    • 4. 发明申请
    • LARGE SCALE REAL-TIME MULTISTAGED ANALYTIC SYSTEM USING DATA CONTRACTS
    • 使用数据合同的大规模实时多分析分析系统
    • US20130031143A1
    • 2013-01-31
    • US13194084
    • 2011-07-29
    • Atul KatiyarPurushottam AmradkarNitin Gupta
    • Atul KatiyarPurushottam AmradkarNitin Gupta
    • G06F17/30
    • G06F17/30864G06F17/30846
    • An analytic system may have a number of processing stages. One or more data sources may provide data to a first processing stage. The first processing stage may specify one or more data contracts having a schema describing a layout and types of data provided by the one or more data sources. Each of the processing stages may specify a respective data contract having a schema such that the processing stages may understand a layout and types of data provided as input to the processing stages. The data contracts me further specify a valid range of values for various items of data described by schemas. Data not conforming to a data contract may be automatically filtered out such that a corresponding processing stage may not be provided with the non-conforming data.
    • 分析系统可能具有多个处理阶段。 一个或多个数据源可以向第一处理阶段提供数据。 第一处理阶段可以指定具有描述由一个或多个数据源提供的布局和数据类型的模式的一个或多个数据契约。 每个处理阶段可以指定具有模式的相应数据契约,使得处理阶段可以理解作为处理阶段的输入提供的数据的布局和类型。 数据约定我进一步指定了由模式描述的各种数据项的有效范围值。 可能会自动过滤掉不符合数据合约的数据,从而可能不会对不合格的数据提供相应的处理阶段。