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1. 发明申请

US20090106601A1 DIAGNOSTIC DATA REPOSITORY 有权
标题翻译：诊断数据报告
公开(公告)号：US20090106601A1
公开(公告)日：2009-04-23
申请号：US12251661
申请日：2008-10-15
申请人： Gary Ngai , Jonathan Klein , Mark Ramacher , Benoit Dageville , Hailing Yu , Mike Feng , Yair Sarig , Marcus Fallen , John Beresniewicz
发明人： Gary Ngai , Jonathan Klein , Mark Ramacher , Benoit Dageville , Hailing Yu , Mike Feng , Yair Sarig , Marcus Fallen , John Beresniewicz
IPC分类号： G06F11/34 , G06F7/00 , G06F17/30
CPC分类号： G06F11/0778 , G06F11/0748 , G06F11/0781 , H04L41/0681 , H04L41/16
摘要： Techniques for systematically gathering, organizing, and storing diagnostic data related to multiple monitored systems (e.g., multiple instances of a product or multiple products). A centralized repository is provided that is organized in a hierarchical manner to facilitate proper organization of the diagnostic data related to multiple monitored systems. In one embodiment, a root directory comprising one or more subdirectories is provided for storing diagnostic data collected for each monitored system. Multiple root directories may be provided under a common base directory for storing diagnostic data corresponding to multiple monitored systems. This enables correlation of diagnostic data across multiple monitored systems.
摘要翻译：用于系统地收集，组织和存储与多个被监视系统相关的诊断数据（例如，产品或多个产品的多个实例）的技术。提供了一种以层次的方式组织的集中式存储库，以促进与多个监控系统相关的诊断数据的正确组织。在一个实施例中，提供了包括一个或多个子目录的根目录，用于存储针对每个被监视系统收集的诊断数据。可以在公共基本目录下提供多个根目录，用于存储对应于多个被监视系统的诊断数据。这使得能够在多个被监视系统之间进行诊断数据的相关性。

2. 发明授权

US08135995B2 Diagnostic data repository 有权
标题翻译：诊断数据存储库
公开(公告)号：US08135995B2
公开(公告)日：2012-03-13
申请号：US12251661
申请日：2008-10-15
申请人： Gary Ngai , Jonathan Klein , Mark Ramacher , Benoit Dageville , Hailing Yu , Mike Feng , Yair Sarig , Marcus Fallen , John Beresniewicz
发明人： Gary Ngai , Jonathan Klein , Mark Ramacher , Benoit Dageville , Hailing Yu , Mike Feng , Yair Sarig , Marcus Fallen , John Beresniewicz
IPC分类号： G06F11/00
CPC分类号： G06F11/0778 , G06F11/0748 , G06F11/0781 , H04L41/0681 , H04L41/16
摘要： Techniques for systematically gathering, organizing, and storing diagnostic data related to multiple monitored systems (e.g., multiple instances of a product or multiple products). A centralized repository is provided that is organized in a hierarchical manner to facilitate proper organization of the diagnostic data related to multiple monitored systems. In one embodiment, a root directory comprising one or more subdirectories is provided for storing diagnostic data collected for each monitored system. Multiple root directories may be provided under a common base directory for storing diagnostic data corresponding to multiple monitored systems. This enables correlation of diagnostic data across multiple monitored systems.
摘要翻译：用于系统地收集，组织和存储与多个被监视系统相关的诊断数据（例如，产品或多个产品的多个实例）的技术。提供了一种以层次的方式组织的集中式存储库，以促进与多个监控系统相关的诊断数据的正确组织。在一个实施例中，提供了包括一个或多个子目录的根目录，用于存储针对每个被监视系统收集的诊断数据。可以在公共基本目录下提供多个根目录，用于存储对应于多个被监视系统的诊断数据。这使得能够在多个被监视系统之间进行诊断数据的相关性。

3. 发明授权

US07937623B2 Diagnosability system 有权
标题翻译：诊断系统
公开(公告)号：US07937623B2
公开(公告)日：2011-05-03
申请号：US12252056
申请日：2008-10-15
申请人： Mark Ramacher , Gary Ngai , Benoit Dageville , Karl Dias , Yair Sarig , Marcus Fallen , Ajith Kumar Mysorenagarajarao , John Beresniewicz , Mike Feng , Jonathan Klein , Hailing Yu , Leng Tan , Balasubrahmanya Kuchibhotla , Uri Shaft , Venkateshwaran Venkataramani , Amir Valiani
发明人： Mark Ramacher , Gary Ngai , Benoit Dageville , Karl Dias , Yair Sarig , Marcus Fallen , Ajith Kumar Mysorenagarajarao , John Beresniewicz , Mike Feng , Jonathan Klein , Hailing Yu , Leng Tan , Balasubrahmanya Kuchibhotla , Uri Shaft , Venkateshwaran Venkataramani , Amir Valiani
IPC分类号： G06F11/00
CPC分类号： G06F11/0778 , G06F11/0748 , G06F11/0781 , H04L41/0681 , H04L41/16
摘要： A diagnosability system for automatically collecting, storing, communicating, and analyzing diagnostic data for one or more monitored systems. The diagnosability system comprises several components configured for the collection, storage, communication, and analysis of diagnostic data for a condition detected in monitored system. The diagnosability system enables targeted dumping of diagnostic data so that only diagnostic data that is relevant for diagnosing the condition detected in the monitored system is collected and stored. This in turn enables first failure analysis thereby reducing the time needed to resolve the condition detected in the monitored system.
摘要翻译：用于自动收集，存储，通信和分析一个或多个受监控系统的诊断数据的诊断系统。诊断系统包括被配置用于收集，存储，通信和分析诊断数据的几个组件，用于在被监控系统中检测到的状况。诊断系统能够有针对性地倾倒诊断数据，以便仅收集和存储与监视系统中检测到的病症相关的诊断数据。这反过来使得能够进行第一次故障分析，从而减少解决在被监视系统中检测到的状况所需的时间。

4. 发明申请

US20090106278A1 DIAGNOSABILITY SYSTEM 有权
标题翻译：诊断系统
公开(公告)号：US20090106278A1
公开(公告)日：2009-04-23
申请号：US12252056
申请日：2008-10-15
申请人： Mark Ramacher , Gary Ngai , Benoit Dageville , Karl Dias , Yair Sarig , Marcus Fallen , Ajith Kumar Mysorenagarajarao , John Beresniewicz , Mike Feng , Jonathan Klein , Hailing Yu , Leng Tan , Balasubrahmanyam Kuchibhotla , Uri Shaft , Venkateshwaran Venkataramani , Amir Valiani
发明人： Mark Ramacher , Gary Ngai , Benoit Dageville , Karl Dias , Yair Sarig , Marcus Fallen , Ajith Kumar Mysorenagarajarao , John Beresniewicz , Mike Feng , Jonathan Klein , Hailing Yu , Leng Tan , Balasubrahmanyam Kuchibhotla , Uri Shaft , Venkateshwaran Venkataramani , Amir Valiani
IPC分类号： G06F11/30 , G06F17/30
CPC分类号： G06F11/0778 , G06F11/0748 , G06F11/0781 , H04L41/0681 , H04L41/16
摘要： A diagnosability system for automatically collecting, storing, communicating, and analyzing diagnostic data for one or more monitored systems. The diagnosability system comprises several components configured for the collection, storage, communication, and analysis of diagnostic data for a condition detected in monitored system. The diagnosability system enables targeted dumping of diagnostic data so that only diagnostic data that is relevant for diagnosing the condition detected in the monitored system is collected and stored. This in turn enables first failure analysis thereby reducing the time needed to resolve the condition detected in the monitored system.
摘要翻译：用于自动收集，存储，通信和分析一个或多个受监控系统的诊断数据的诊断系统。诊断系统包括被配置用于收集，存储，通信和分析诊断数据的几个组件，用于在被监控系统中检测到的状况。诊断系统能够有针对性地倾倒诊断数据，以便仅收集和存储与监视系统中检测到的病症相关的诊断数据。这反过来使得能够进行第一次故障分析，从而减少解决在被监视系统中检测到的状况所需的时间。

5. 发明申请

US20090106756A1 Automatic Workload Repository Performance Baselines 有权
标题翻译：自动工作负载存储库性能基准
公开(公告)号：US20090106756A1
公开(公告)日：2009-04-23
申请号：US12111011
申请日：2008-04-28
申请人： Mike Feng , Mark Ramacher , Gary Ngai , Graham Wood , John Beresniewicz
发明人： Mike Feng , Mark Ramacher , Gary Ngai , Graham Wood , John Beresniewicz
IPC分类号： G06F9/46
CPC分类号： G06F11/3495 , G06F11/3409 , G06F11/3428 , G06F11/3616
摘要： Techniques that improve manageability of systems. Techniques are provided for creating different types of baselines that are more flexible and dynamic in nature. A future-based baseline may be created defining a period of time, wherein at least a portion of the period of time is in the future. A baseline may be created that is a composite of multiple baselines. In general, baselines may be specified having one or more periods of time that are either contiguous or non-contiguous. A template for creating a set of baselines based on a set of time periods may also be created, where the template can be used to create a baseline for each of the set of time periods. A moving window baseline may be created having an associated time window that changes with passage of time, where accordingly the data associated with the baseline may also dynamically change with passage of time.
摘要翻译：提高系统可管理性的技术。提供了技术来创建不同类型的基础，这些基准在本质上更加灵活和动态。可以创建定义一段时间的基于未来的基线，其中至少一部分时间段在将来。可以创建一个基准，该基准是多个基线的组合。通常，可以指定具有连续或不连续的一个或多个时间段的基线。还可以创建用于基于一组时间段来创建一组基线的模板，其中可以使用该模板为每组时间段创建基准。可以创建具有随时间变化而变化的相关联的时间窗口的移动窗口基线，其中因此与基线相关联的数据也随着时间的推移而动态地改变。

6. 发明授权

US08990811B2 Future-based performance baselines 有权
标题翻译：基于未来的绩效基线
公开(公告)号：US08990811B2
公开(公告)日：2015-03-24
申请号：US12111011
申请日：2008-04-28
申请人： Mike Feng , Mark Ramacher , Gary Ngai , Graham Wood , John Beresniewicz
发明人： Mike Feng , Mark Ramacher , Gary Ngai , Graham Wood , John Beresniewicz
IPC分类号： G06F9/46 , G06F11/36 , G06F11/34
CPC分类号： G06F11/3495 , G06F11/3409 , G06F11/3428 , G06F11/3616
摘要： Techniques that improve manageability of systems. Techniques are provided for creating different types of baselines that are more flexible and dynamic in nature. A future-based baseline may be created defining a period of time, wherein at least a portion of the period of time is in the future. A baseline may be created that is a composite of multiple baselines. In general, baselines may be specified having one or more periods of time that are either contiguous or non-contiguous. A template for creating a set of baselines based on a set of time periods may also be created, where the template can be used to create a baseline for each of the set of time periods. A moving window baseline may be created having an associated time window that changes with passage of time, where accordingly the data associated with the baseline may also dynamically change with passage of time.
摘要翻译：提高系统可管理性的技术。提供了技术，用于创建不同类型的更灵活和动态的基线。可以创建定义一段时间的基于未来的基线，其中至少一部分时间段在将来。可以创建一个基准，该基准是多个基线的组合。通常，可以指定具有连续或不连续的一个或多个时间段的基线。还可以创建用于基于一组时间段来创建一组基线的模板，其中可以使用该模板为每组时间段创建基准。可以创建具有随时间变化而变化的相关联的时间窗口的移动窗口基线，其中因此与基线相关联的数据也随着时间的推移而动态地改变。

7. 发明申请

US20070005296A1 Graphical display and correlation of severity scores of system metrics 有权
公开(公告)号：US20070005296A1
公开(公告)日：2007-01-04
申请号：US11173524
申请日：2005-06-30
申请人： John Beresniewicz , Amir Najmi , Jonathan Soule
发明人： John Beresniewicz , Amir Najmi , Jonathan Soule
IPC分类号： G06F17/18
CPC分类号： G06F11/328 , G06F11/3409 , G06F2201/81
摘要： A computer derives, from a current measurement of an attribute of a system, an instantaneous severity score based on a probability model that is determined from prior measurements. The computer then displays, for several successive moments in time, either the instantaneous severity score or an aggregated severity score obtained from a set of instantaneous severity scores (e.g. by averaging). Each set of scores to be aggregated may be identified by, e.g., a fixed-width time window located at a fixed offset from a moment in time at which the aggregated score is to be displayed. Aggregation suppresses or dampens momentary abnormalities, which would otherwise get displayed. In some embodiments, graphs for multiple categories of metrics are displayed on a single screen, aligned in time, to enable a human operator to form a visual correlation therebetween, e.g. to identify causes of atypical performance in the system.

8. 发明授权

US08095514B2 Treemap visualizations of database time 有权
标题翻译：数据库时间的Treemap可视化
公开(公告)号：US08095514B2
公开(公告)日：2012-01-10
申请号：US12365827
申请日：2009-02-04
申请人： John Beresniewicz , Jonathan Helfman , Hsiao-Te Su , Nancy Chen , Karl Dias , Graham Wood
发明人： John Beresniewicz , Jonathan Helfman , Hsiao-Te Su , Nancy Chen , Karl Dias , Graham Wood
IPC分类号： G06F17/30
CPC分类号： G06F17/30554 , G06F17/30592 , G06F17/30961 , Y10S707/99945
摘要： Particular embodiments generally relate to displaying database time using a treemap. A set of database time values is determined for a set of dimensions. The database time values measure performance of one or more databases by the time the database takes to respond to a request. The set of database time values is correlated to a set of cells in the treemap. A size of the cell is determined based on the database time value associated with it. For example, the database time value is correlated to an area of the cell. A layout of the set of cells is determined and the treemap is displayed using the layout. For example, the largest values of database time may be shown with the largest sized cells. This makes it easier for an administrator to review and analyze the database performance across multiple dimensions and determine problem areas affecting the performance of the one or more databases.
摘要翻译：具体实施方案一般涉及使用树形图显示数据库时间。为一组维度确定一组数据库时间值。数据库时间值衡量数据库响应请求时所需的一个或多个数据库的性能。数据库时间值集合与树形图中的一组单元格相关联。基于与其相关联的数据库时间值来确定单元的大小。例如，数据库时间值与单元的区域相关。确定一组单元格的布局，并使用布局显示树状图。例如，数据库时间的最大值可以用最大尺寸的单元显示。这使管理员更容易查看和分析多个维度的数据库性能，并确定影响一个或多个数据库性能的问题区域。

9. 发明申请

US20070005297A1 Automatic determination of high significance alert thresholds for system performance metrics using an exponentially tailed model 有权
标题翻译：使用指数型尾模型自动确定系统性能指标的高显着性警报阈值
公开(公告)号：US20070005297A1
公开(公告)日：2007-01-04
申请号：US11173525
申请日：2005-06-30
申请人： John Beresniewicz , Amir Najmi
发明人： John Beresniewicz , Amir Najmi
IPC分类号： G06F17/18
CPC分类号： G05B23/0235
摘要： A computer is programmed to fit exponential models to upper percentile subsets of observed measurements for performance metrics collected as attributes of a computer system. The subsets are defined from sets chosen to reduce model bias due to expected variations in system performance, e.g. those resulting from temporal usage patterns induced by end users and/or workload scheduling. Measurement levels corresponding to high cumulative probability, indicative of likely performance anomalies, are extrapolated from the fitted models generated from measurements of lower cumulative probability. These levels are used to establish and to automatically set warning and alert thresholds which signal to (human) administrators when performance anomalies are observed.
摘要翻译：计算机被编程为将指数模型适合于作为计算机系统的属性收集的性能度量的观测测量的上百分位数子集。这些子集由所选择的集合定义，以减少由于系统性能的预期变化引起的模型偏差，例如。由终端用户引起的时间使用模式和/或工作负载调度产生的结果。对应于高累积概率（表示可能的性能异常）的测量级别，从由较低累积概率的测量产生的拟合模型中外推。这些级别用于建立并自动设置警告和警报阈值，当观察到性能异常时，向阈值（人员）发出信号。

10. 发明申请

US20100198796A1 TREEMAP VISUALIZATIONS OF DATABASE TIME 有权
标题翻译：数据库时间的TREEMAP可视化
公开(公告)号：US20100198796A1
公开(公告)日：2010-08-05
申请号：US12365827
申请日：2009-02-04
申请人： John Beresniewicz , Jonathan Helfman , Hsiao-Te Su , Nancy Chen , Karl Dias , Graham Wood
发明人： John Beresniewicz , Jonathan Helfman , Hsiao-Te Su , Nancy Chen , Karl Dias , Graham Wood
IPC分类号： G06F17/30
CPC分类号： G06F17/30554 , G06F17/30592 , G06F17/30961 , Y10S707/99945
摘要： Particular embodiments generally relate to displaying database time using a treemap. A set of database time values is determined for a set of dimensions. The database time values measure performance of one or more databases by the time the database takes to respond to a request. The set of database time values is correlated to a set of cells in the treemap. A size of the cell is determined based on the database time value associated with it. For example, the database time value is correlated to an area of the cell. A layout of the set of cells is determined and the treemap is displayed using the layout. For example, the largest values of database time may be shown with the largest sized cells. This makes it easier for an administrator to review and analyze the database performance across multiple dimensions and determine problem areas affecting the performance of the one or more databases.
摘要翻译：具体实施方案一般涉及使用树形图显示数据库时间。为一组维度确定一组数据库时间值。数据库时间值衡量数据库响应请求时所需的一个或多个数据库的性能。数据库时间值集合与树形图中的一组单元格相关联。基于与其相关联的数据库时间值来确定单元的大小。例如，数据库时间值与单元的区域相关。确定一组单元格的布局，并使用布局显示树状图。例如，数据库时间的最大值可以用最大尺寸的单元显示。这使管理员更容易查看和分析多个维度的数据库性能，并确定影响一个或多个数据库性能的问题区域。

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