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    • 1. 发明申请
    • WORKLOAD OPTIMIZATION, SCHEDULING, AND PLACEMENT FOR RACK-SCALE ARCHITECTURE COMPUTING SYSTEMS
    • 机架式架构计算系统的工作载荷优化,调度和放置
    • WO2015130645A1
    • 2015-09-03
    • PCT/US2015/017228
    • 2015-02-24
    • INTEL CORPORATION
    • BARTFAI-WALCOTT, Katalin K.WOODS, ChrisESTRADA, GiovaniKENNEDY, JohnBUTLER, JosephPUTYRSKI, SlawomirLECKEY, AlexanderBAYON-MOLINO, VictorUPTON, ConnorMETSCH, Thijs
    • H04L12/24
    • H04L41/147H04L41/0883H04L41/22H04L41/5009H04L41/5054H04L43/0817
    • Technologies for datacenter management include one or more computing racks each including a rack controller. The rack controller may receive system, performance, or health metrics for the components of the computing rack. The rack controller generates regression models to predict component lifespan and may predict logical machine lifespans based on the lifespan of the included hardware components. The rack controller may generate notifications or schedule maintenance sessions based on remaining component or logical machine lifespans. The rack controller may compose logical machines using components having similar remaining lifespans. In some embodiments the rack controller may validate a service level agreement prior to executing an application based on the probability of component failure. A management interface may generate an interactive visualization of the system state and optimize the datacenter schedule based on optimization rules derived from human input in response to the visualization. Other embodiments are described and claimed.
    • 用于数据中心管理的技术包括一个或多个计算机架,每个计算机架包括机架控制器。 机架控制器可以接收计算机架的组件的系统,性能或健康度量。 机架控制器生成回归模型以预测组件的使用寿命,并可根据所包含的硬件组件的寿命来预测逻辑机器寿命。 机架控制器可以基于剩余组件或逻辑机器生命周期生成通知或安排维护会话。 机架控制器可以使用具有相似剩余寿命的组件来组成逻辑机器。 在一些实施例中,机架控制器可以在基于组件故障的概率执行应用之前验证服务水平协议。 管理界面可以生成系统状态的交互式可视化,并且基于从人类输入中导出的响应于可视化的优化规则来优化数据中心调度。 描述和要求保护其他实施例。
    • 2. 发明申请
    • DYNAMICALLY ADAPTING CLOUD APPLICATIONS
    • 动态适应云应用程序
    • WO2017172182A1
    • 2017-10-05
    • PCT/US2017/019928
    • 2017-02-28
    • INTEL CORPORATION
    • KATSAROS, GrigoriosLECKEY, AlexanderBUTLER, JosephUPTON, Connor
    • G06F15/16G06F11/30
    • Techniques for dynamically adapting cloud applications are described. A current value of a Key Performance Indicator (KPI) of an executing cloud service instance of a cloud application is detected. A determination is made as to whether the current value of the KPI is unacceptable (e.g., either it is outside of an acceptable range or is within an adaptation region). If the current value of the KPI is unacceptable, a first application programming interface (API) is invoked to request a cloud service instance monitor to adapt the cloud service instance to operate within an acceptable KPI range. If the cloud service instance monitor was unsuccessful, the unacceptable KPI is escalated to the cloud service monitor for the type of the cloud service instance. If the cloud service monitor is unsuccessful, the unacceptable KPI is escalated to the application monitor.
    • 描述了动态调整云应用程序的技术。 检测云应用的正在执行的云服务实例的关键性能指标(KPI)的当前值。 确定KPI的当前值是否不可接受(例如,它在可接受范围之外或者在适应区域内)。 如果KPI的当前值不可接受,则调用第一应用编程接口(API)以请求云服务实例监视器使云服务实例适应在可接受的KPI范围内操作。 如果云服务实例监视器不成功,则将不可接受的KPI升级到云服务监视器以查找云服务实例的类型。 如果云服务监视器不成功,则将不可接受的KPI升级到应用程序监视器。
    • 6. 发明公开
    • WORKLOAD OPTIMIZATION, SCHEDULING, AND PLACEMENT FOR RACK-SCALE ARCHITECTURE COMPUTING SYSTEMS
    • ARBEITLASTOPTIMERUNG,PLANUNG UND POSITIONIERUNGFÜRCOMPUTERSYSTEME MIT RACK-SCALE-ARCHITEKTUR
    • EP3111592A1
    • 2017-01-04
    • EP15754492.5
    • 2015-02-24
    • Intel Corporation
    • BARTFAI-WALCOTT, Katalin K.WOODS, ChrisESTRADA, GiovaniKENNEDY, JohnBUTLER, JosephPUTYRSKI, SlawomirLECKEY, AlexanderBAYON-MOLINO, VictorUPTON, ConnorMETSCH, Thijs
    • H04L12/24
    • H04L41/147H04L41/0883H04L41/22H04L41/5009H04L41/5054H04L43/0817
    • Technologies for datacenter management include one or more computing racks each including a rack controller. The rack controller may receive system, performance, or health metrics for the components of the computing rack. The rack controller generates regression models to predict component lifespan and may predict logical machine lifespans based on the lifespan of the included hardware components. The rack controller may generate notifications or schedule maintenance sessions based on remaining component or logical machine lifespans. The rack controller may compose logical machines using components having similar remaining lifespans. In some embodiments the rack controller may validate a service level agreement prior to executing an application based on the probability of component failure. A management interface may generate an interactive visualization of the system state and optimize the datacenter schedule based on optimization rules derived from human input in response to the visualization. Other embodiments are described and claimed.
    • 用于数据中心管理的技术包括一个或多个包括机架控制器的计算机架。 机架控制器可以接收计算机架的组件的系统,性能或健康度量。 机架控制器生成回归模型以预测组件的使用寿命,并可根据所包含的硬件组件的寿命预测逻辑机器寿命。 机架控制器可以基于剩余组件或逻辑机器生命周期生成通知或安排维护会话。 机架控制器可以使用具有相似剩余寿命的组件来组成逻辑机器。 在一些实施例中,机架控制器可以在基于组件故障的概率执行应用之前验证服务水平协议。 管理界面可以生成系统状态的交互式可视化,并且基于从人类输入中导出的响应于可视化的优化规则来优化数据中心调度。 描述和要求保护其他实施例。