会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 7. 发明授权
    • Computing device resource scheduling
    • 计算设备资源调度
    • US08087028B2
    • 2011-12-27
    • US11770716
    • 2007-06-28
    • Alexandre VerbitskiBoris Baryshnikov
    • Alexandre VerbitskiBoris Baryshnikov
    • G06F9/46
    • G06F9/4881
    • Systems and methods for scheduling computing device resources include a scheduler that maintains multiple queues. Requests are placed in one of the multiple queues depending on how much resource time the requests are to receive and when they are to receive it. The queue that a request is placed into depends on a pool bandwidth defined for a pool that includes the request and a bandwidth request. A request has an importance associated therewith that is taken into account in the scheduling process. The scheduler proceeds through the queues in a sequential and circular fashion, taking a work item from a queue for processing when that queue is accessed.
    • 用于调度计算设备资源的系统和方法包括维护多个队列的调度器。 请求被放置在多个队列中的一个队列中,具体取决于请求的接收资源时间和接收时间。 请求被放置的队列取决于为包含请求和带宽请求的池定义的池带宽。 请求具有与调度过程相关联的重要性。 调度器以顺序和循环的方式进行队列,从队列中获取工作项,以便在访问该队列时进行处理。
    • 8. 发明申请
    • DISTRIBUTED COMMUNICATIONS BETWEEN DATABASE INSTANCES
    • 数据库实现之间的分布式通信
    • US20100185714A1
    • 2010-07-22
    • US12353992
    • 2009-01-15
    • Robert H. GerberAlexandre VerbitskiViatcheslav Krassovsky
    • Robert H. GerberAlexandre VerbitskiViatcheslav Krassovsky
    • G06F17/30
    • G06F16/27
    • A database communication system is described herein that structures communications in a way that provides lower overhead tracking, statistics, semantics for closing a communication, and reliability. The system provides communication namespaces that organize communications by component, purpose, and instance, which allow database servers to implicitly create communication-related objects without central coordination. The database communication system enables group-based communications that streamline the development of complex distributed components and protocols by providing creation and management of communications namespaces, centralized cleanup support, and centralized monitoring. These features allow the system to be highly distributed, with no one single coordinator of operations, and still provide reliable communications. Thus, the system allows databases to be spread across multiple servers while keeping the burden on database server developers of managing communications between the servers low.
    • 本文描述了以提供较低开销跟踪,统计,用于关闭通信的语义和可靠性的方式来构造通信的数据库通信系统。 系统提供通过组件,目的和实例组织通信的通信命名空间,这允许数据库服务器隐含地创建与中心协调的通信相关的对象。 数据库通信系统通过提供通信命名空间,集中清理支持和集中监控的创建和管理,实现了基于组的通信,从而简化了复杂分布式组件和协议的开发。 这些功能允许系统高度分布,没有一个单一的操作协调器,并且仍然提供可靠的通信。 因此,该系统允许数据库跨多个服务器分布,同时保持数据库服务器开发人员负责管理服务器之间的通信的负担。
    • 9. 发明申请
    • COMPUTING DEVICE RESOURCE SCHEDULING
    • 计算设备资源调度
    • US20080222643A1
    • 2008-09-11
    • US11770716
    • 2007-06-28
    • Boris BaryshnikovAlexandre Verbitski
    • Boris BaryshnikovAlexandre Verbitski
    • G06F9/46
    • G06F9/4881
    • Systems and methods for scheduling computing device resources include a scheduler that maintains multiple queues. Requests are placed in one of the multiple queues depending on how much resource time the requests are to receive and when they are to receive it. The queue that a request is placed into depends on a pool bandwidth defined for a pool that includes the request and a bandwidth request. A request has an importance associated therewith that is taken into account in the scheduling process. The scheduler proceeds through the queues in a sequential and circular fashion, taking a work item from a queue for processing when that queue is accessed.
    • 用于调度计算设备资源的系统和方法包括维护多个队列的调度器。 请求被放置在多个队列中的一个队列中,具体取决于请求的接收资源时间和接收时间。 请求被放置的队列取决于为包含请求和带宽请求的池定义的池带宽。 请求具有与调度过程相关联的重要性。 调度器以顺序和循环的方式进行队列,从队列中获取工作项,以便在访问该队列时进行处理。
    • 10. 发明授权
    • Seamless upgrades in a distributed database system
    • 在分布式数据库系统中进行无缝升​​级
    • US08326800B2
    • 2012-12-04
    • US13051967
    • 2011-03-18
    • Conor John CunninghamAjay KalhanClifford T. DibbleTomas TaliusSanteri Olavi VoutilainenJeffrey A. EastAlexandre VerbitskiYixue Zhu
    • Conor John CunninghamAjay KalhanClifford T. DibbleTomas TaliusSanteri Olavi VoutilainenJeffrey A. EastAlexandre VerbitskiYixue Zhu
    • G06F17/30
    • G06F17/30578
    • Embodiments are directed to providing distributed database service upgrades of database server instances in a computer cluster using multiple database server instances and to monitoring and maintaining a distributed database service during upgrade. In an embodiment, each computer system in a computer cluster instantiates at least two different database server instances on each of the nodes in the cluster. The first database server instances are configured to operate using a current distributed database version and the second instances are configured to operate using a new, updated distributed database service version. The computer system receives an indication that the distributed database service is to be upgraded. Then, based on the received indication, the computer system migrates database replicas from the first database server instances to the second database server instances which operate the new, updated service version, substantially without user-visible downtime.
    • 实施例旨在使用多个数据库服务器实例在计算机集群中提供数据库服务器实例的分布式数据库服务升级,并在升级期间监视和维护分布式数据库服务。 在一个实施例中,计算机集群中的每个计算机系统在群集中的每个节点上实例化至少两个不同的数据库服务器实例。 第一个数据库服务器实例被配置为使用当前分布式数据库版本进行操作,第二个实例被配置为使用新的更新的分布式数据库服务版本进行操作。 计算机系统接收到分布式数据库服务将被升级的指示。 然后,基于收到的指示,计算机系统将数据库副本从第一数据库服务器实例迁移到操作新的更新服务版本的第二数据库服务器实例,基本上没有用户可见的停机时间。