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    • 1. 发明申请
    • POLICY-DRIVEN CAPACITY MANAGEMENT IN RESOURCE PROVISIONING ENVIRONMENTS
    • 资源提供环境中的政策制定能力管理
    • US20130019011A1
    • 2013-01-17
    • US13620195
    • 2012-09-14
    • David BreitgandBenny RochwergerJulian Satran
    • David BreitgandBenny RochwergerJulian Satran
    • G06F15/173
    • G06F9/45558
    • Systems and methods for policy-driven capacity management in a resource provisioning environment, the method comprising storing, in an operational database one or more virtual resource sets (VRSs) and elasticity ranges for components to be deployed in a resource provisioning environment, and probabilistic guarantees on the elasticity ranges defined in a service manifest provided by a service subscriber; collecting historical data about capacity usage in the resource provisioning environment and failure statistics from the operational database, in addition to prior service commitments due to previously contracted service level agreements (SLAs) stored in a SLA repository; calculating equivalent capacity for the resource provisioning environment based on a defined residual benefit goal, and other business goals instrumented by way of a policy engine; and placing requested virtual resources on physical resources, in response to determining that sufficient physical capacity is available to host the calculated equivalent capacity.
    • 在资源供应环境中用于策略驱动的容量管理的系统和方法,所述方法包括在操作数据库中存储要部署在资源准备环境中的组件的一个或多个虚拟资源集(VRS)和弹性范围,以及概率保证 在由服务订户提供的服务清单中定义的弹性范围; 收集有关资源供应环境中的容量使用的历史数据以及来自运营数据库的故障统计信息,以及由于先前约定的存储在SLA存储库中的服务级别协议(SLA)而导致的服务承诺; 根据定义的剩余利益目标计算资源配置环境的等效容量,以及通过策略引擎调整的其他业务目标; 并且响应于确定足够的物理容量可用于承载所计算的等效容量,将所请求的虚拟资源放置在物理资源上。
    • 2. 发明授权
    • Policy-driven capacity management in resource provisioning environments
    • 资源配置环境中的策略驱动的容量管理
    • US08732310B2
    • 2014-05-20
    • US12764987
    • 2010-04-22
    • David BreitgandBenny RochwergerJulian Satran
    • David BreitgandBenny RochwergerJulian Satran
    • G06F15/173G06F9/455
    • G06F9/45558
    • Systems and methods for policy-driven capacity management in a resource provisioning environment, the method comprising storing, in an operational database one or more virtual resource sets (VRSs) and elasticity ranges for components to be deployed in a resource provisioning environment, and probabilistic guarantees on the elasticity ranges defined in a service manifest provided by a service subscriber; collecting historical data about capacity usage in the resource provisioning environment and failure statistics from the operational database, in addition to prior service commitments due to previously contracted service level agreements (SLAs) stored in a SLA repository; calculating equivalent capacity for the resource provisioning environment based on a defined residual benefit goal, and other business goals instrumented by way of a policy engine; and placing requested virtual resources on physical resources, in response to determining that sufficient physical capacity is available to host the calculated equivalent capacity.
    • 在资源供应环境中用于策略驱动的容量管理的系统和方法,所述方法包括在操作数据库中存储要部署在资源准备环境中的组件的一个或多个虚拟资源集(VRS)和弹性范围,以及概率保证 在由服务订户提供的服务清单中定义的弹性范围; 收集有关资源供应环境中的容量使用的历史数据以及来自运营数据库的故障统计信息,以及由于先前约定的存储在SLA存储库中的服务级别协议(SLA)而导致的服务承诺; 根据定义的剩余利益目标计算资源配置环境的等效容量,以及通过策略引擎调整的其他业务目标; 并且响应于确定足够的物理容量可用于承载所计算的等效容量,将所请求的虚拟资源放置在物理资源上。
    • 3. 发明申请
    • POLICY-DRIVEN CAPACITY MANAGEMENT IN RESOURCE PROVISIONING ENVIRONMENTS
    • 资源提供环境中的政策制定能力管理
    • US20110264805A1
    • 2011-10-27
    • US12764987
    • 2010-04-22
    • David BreitgandBenny RochwergerJulian Satran
    • David BreitgandBenny RochwergerJulian Satran
    • G06F9/00
    • G06F9/45558
    • Systems and methods for policy-driven capacity management in a resource provisioning environment, the method comprising storing, in an operational database one or more virtual resource sets (VRSs) and elasticity ranges for components to be deployed in a resource provisioning environment, and probabilistic guarantees on the elasticity ranges defined in a service manifest provided by a service subscriber; collecting historical data about capacity usage in the resource provisioning environment and failure statistics from the operational database, in addition to prior service commitments due to previously contracted service level agreements (SLAs) stored in a SLA repository; calculating equivalent capacity for the resource provisioning environment based on a defined residual benefit goal, and other business goals instrumented by way of a policy engine; and placing requested virtual resources on physical resources, in response to determining that sufficient physical capacity is available to host the calculated equivalent capacity.
    • 在资源供应环境中用于策略驱动的容量管理的系统和方法,所述方法包括在操作数据库中存储要部署在资源准备环境中的组件的一个或多个虚拟资源集(VRS)和弹性范围,以及概率保证 在由服务订户提供的服务清单中定义的弹性范围; 收集有关资源供应环境中的容量使用的历史数据以及来自运营数据库的故障统计信息,以及由于先前约定的存储在SLA存储库中的服务级别协议(SLA)而导致的服务承诺; 根据定义的剩余利益目标计算资源配置环境的等效容量,以及通过策略引擎调整的其他业务目标; 并且响应于确定足够的物理容量可用于承载所计算的等效容量,将所请求的虚拟资源放置在物理资源上。
    • 4. 发明申请
    • MANAGING COMMUNICATION BETWEEN NODES IN A VIRTUAL NETWORK
    • 管理虚拟网络中的节点之间的通信
    • US20120023208A1
    • 2012-01-26
    • US13006836
    • 2011-01-14
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • G06F15/16
    • H04L65/4076
    • A method for managing communication between nodes in a virtual network is provided. A first computing system utilizes first information to forward first data to the second computing system in a physical network. If the first information is incorrect, the second computing system forwards an unlearning request to the first computing system, and the first computing system updates or deletes the first information. If the first information is not available, the first computing system forwards the first data to a group of computing systems in the physical network by way of an unknown network service. Upon receiving the first data, the second computing system or a third computing system in the physical network forwards a learning request to the first computing system, and the first computing system utilizes the learning request to generate the first information.
    • 提供了一种用于管理虚拟网络中的节点之间的通信的方法。 第一计算系统利用第一信息将物理网络中的第一数据转发到第二计算系统。 如果第一信息不正确,则第二计算系统将未学习请求转发给第一计算系统,并且第一计算系统更新或删除第一信息。 如果第一信息不可用,则第一计算系统通过未知网络服务将第一数据转发到物理网络中的一组计算系统。 在接收到第一数据时,物理网络中的第二计算系统或第三计算系统将学习请求转发到第一计算系统,并且第一计算系统利用学习请求来生成第一信息。
    • 7. 发明授权
    • Managing communication between nodes in a virtual network
    • 管理虚拟网络中的节点之间的通信
    • US08606890B2
    • 2013-12-10
    • US13006836
    • 2011-01-14
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • G06F15/177
    • H04L65/4076
    • A method for managing communication between nodes in a virtual network is provided. A first computing system utilizes first information to forward first data to the second computing system in a physical network. If the first information is incorrect, the second computing system forwards an unlearning request to the first computing system, and the first computing system updates or deletes the first information. If the first information is not available, the first computing system forwards the first data to a group of computing systems in the physical network by way of an unknown network service. Upon receiving the first data, the second computing system or a third computing system in the physical network forwards a learning request to the first computing system, and the first computing system utilizes the learning request to generate the first information.
    • 提供了一种用于管理虚拟网络中的节点之间的通信的方法。 第一计算系统利用第一信息将物理网络中的第一数据转发到第二计算系统。 如果第一信息不正确,则第二计算系统将未学习请求转发给第一计算系统,并且第一计算系统更新或删除第一信息。 如果第一信息不可用,则第一计算系统通过未知网络服务将第一数据转发到物理网络中的一组计算系统。 在接收到第一数据时,物理网络中的第二计算系统或第三计算系统将学习请求转发到第一计算系统,并且第一计算系统利用学习请求来生成第一信息。
    • 8. 发明申请
    • MANAGING COMMUNICATION BETWEEN NODES IN A VIRTUAL NETWORK
    • 管理虚拟网络中的节点之间的通信
    • US20110125887A1
    • 2011-05-26
    • US12623327
    • 2009-11-20
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • G06F15/173
    • H04L65/4076
    • A method for managing communication between nodes in a virtual network is provided. A first computing system utilizes first information to forward first data to the second computing system in a physical network. If the first information is incorrect, the second computing system forwards an unlearning request to the first computing system, and the first computing system updates or deletes the first information. If the first information is not available, the first computing system forwards the first data to a group of computing systems in the physical network by way of a multicast service. Upon receiving the first data, the second computing system or a third computing system in the physical network forwards a learning request to the first computing system, and the first computing system utilizes the learning request to generate the first information.
    • 提供了一种用于管理虚拟网络中的节点之间的通信的方法。 第一计算系统利用第一信息将物理网络中的第一数据转发到第二计算系统。 如果第一信息不正确,则第二计算系统将未学习请求转发给第一计算系统,并且第一计算系统更新或删除第一信息。 如果第一信息不可用,则第一计算系统通过多播服务将第一数据转发到物理网络中的一组计算系统。 在接收到第一数据时,物理网络中的第二计算系统或第三计算系统将学习请求转发到第一计算系统,并且第一计算系统利用学习请求来生成第一信息。
    • 9. 发明授权
    • Managing communication between nodes in a virtual network
    • 管理虚拟网络中的节点之间的通信
    • US08131833B2
    • 2012-03-06
    • US12623327
    • 2009-11-20
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • David HadasIrit LoyBenny RochwergerJulian Satran
    • G06F15/16
    • H04L65/4076
    • A method for managing communication between nodes in a virtual network is provided. A first computing system utilizes first information to forward first data to the second computing system in a physical network. If the first information is incorrect, the second computing system forwards an unlearning request to the first computing system, and the first computing system updates or deletes the first information. If the first information is not available, the first computing system forwards the first data to a group of computing systems in the physical network by way of a multicast service. Upon receiving the first data, the second computing system or a third computing system in the physical network forwards a learning request to the first computing system, and the first computing system utilizes the learning request to generate the first information.
    • 提供了一种用于管理虚拟网络中的节点之间的通信的方法。 第一计算系统利用第一信息将物理网络中的第一数据转发到第二计算系统。 如果第一信息不正确,则第二计算系统将未学习请求转发给第一计算系统,并且第一计算系统更新或删除第一信息。 如果第一信息不可用,则第一计算系统通过多播服务将第一数据转发到物理网络中的一组计算系统。 在接收到第一数据时,物理网络中的第二计算系统或第三计算系统将学习请求转发到第一计算系统,并且第一计算系统利用学习请求来生成第一信息。
    • 10. 发明授权
    • Nack suppression for multicast protocols in mostly one-way networks
    • 多播单播网络中多播协议的抑制
    • US06807578B2
    • 2004-10-19
    • US09808290
    • 2001-03-14
    • Julian SatranGidon GershinskyBenny Rochwerger
    • Julian SatranGidon GershinskyBenny Rochwerger
    • G06F1300
    • H04L1/1854H04L12/1868H04L12/1886
    • In a multicasting system content is multicast from a sender to a plurality of receivers over a data network. Each receiver independently determines whether it is missing elements or packets of the content. Receivers having missing content each initiate a random timer. The receiver having the shortest random interval unicasts a negative acknowledgement to the sender, which immediately multicasts the negative acknowledgement to the other receivers. All other receivers having the same missing packet thereupon suppress their own negative acknowledgements as to that packet. A repair transmission is then multicast by the sender to all receivers. The random intervals have upper and lower bounds according to the round trip transmission time and the size of the largest missing data element.
    • 在多播系统中,内容是通过数据网络从发送者到多个接收者的多播。 每个接收器独立地确定是否丢失了内容的元素或数据包。 具有丢失内容的接收器每个发起随机定时器。 具有最短随机间隔的接收机向发送者单播否定确认,立即将否定确认多播到其他接收机。 具有相同丢失数据包的所有其他接收器随后抑制了对该数据包的否定确认。 然后,修复传输由发送者多播到所有接收者。 随机间隔具有根据往返传输时间和最大丢失数据元素的大小的上限和下限。