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    • 3. 发明授权
    • Inter-class schedulers utilizing statistical priority guaranteed queuing and generic cell-rate algorithm priority guaranteed queuing
    • 利用统计优先级保证队列和通用小区速率算法优先级保证排队的类间调度器
    • US06438106B1
    • 2002-08-20
    • US09218510
    • 1998-12-22
    • John PillarBernard MarchandBernard St-Denis
    • John PillarBernard MarchandBernard St-Denis
    • H04L1226
    • H04L12/5602H04L2012/5636H04L2012/5651H04L2012/5667H04L2012/5679H04L2012/5682H04Q11/0478
    • Inter-class schedulers for digital link systems provide high efficiency utilization of limited bandwidth by employing queuing techniques referred to as Statistical Priority Guarantee Queuing (SPGQ) and Generic Cell-Rate Algorithm Priority Guarantee Queuing (GCRA-PGQ). SPGQ “elevates” the priority of otherwise low-priority classes under prescribed circumstances in accordance with a statistical process. The SPGQ scheduler determines whether a number within a range produced by a uniform random number generator lies within a sub-range proportional to the programmed statistical guarantee for a given class. If the number lies within the sub-range associated with a given class, then the priority of that class is elevated to a higher priority when both are eligible to transmit. The GCRA-PGQ scheduler operates as a strict priority mechanism until a class requires bandwidth in excess of a GCRA “window” or threshold for that class. When that occurs, the service priority of that class is temporarily lowered.
    • 用于数字链路系统的类间调度器通过采用称为统计优先级保证排队(SPGQ)和通用小区速率算法优先级保证队列(GCRA-PGQ)的排队技术来提供有限带宽的高效率利用。 按照统计过程,SPGQ根据规定的情况“提高”优先级低优先级的优先级。 SPGQ调度器确定由均匀随机数发生器产生的范围内的数字是否在与给定类的编程统计保证成比例的子范围内。 如果数字在与给定类相关联的子范围内,则当两者都有资格传输时,该类的优先级被提升到更高的优先级。 GCRA-PGQ调度器作为严格的优先级机制运行,直到类需要超过该类的GCRA“窗口”或阈值的带宽。 发生这种情况时,该类的服务优先级暂时降低。
    • 5. 发明授权
    • Application specified steering policy implementation
    • 应用指定指导政策实施
    • US07643496B1
    • 2010-01-05
    • US11646693
    • 2006-12-28
    • Dwight JamiesonBernard St-Denis
    • Dwight JamiesonBernard St-Denis
    • H04L12/28H04L12/56G06F15/16
    • H04L47/10H04L47/20
    • A data plane architecture enables IP applications, hosted on any processor within a network element, to define steering policies that may be implemented in the data plane. The steering policies enable the applications to define steering policies containing both attributes and actions. The attributes are used to identify the packets and the actions are used to define how the data plane of the network element should handle the packets. The steering policies are implemented in the data plane of the network element by a data path policy steering process. The data path policy steering process operates to implement steering policies defined by applications to cause IP termination to occur at any processor on the network element or optionally at a processor off the network element.
    • 数据平面架构使IP应用程序能够在网络元件内的任何处理器上托管,以定义可能在数据平面中实现的转向策略。 指导政策使应用程序能够定义包含属性和操作的指导策略。 这些属性用于标识数据包,并且操作用于定义网元数据平面如何处理数据包。 转向策略通过数据路径策略转向过程在网元的数据平面中实现。 数据路径策略导向过程的作用是实现由应用定义的导向策略,以使得IP终端发生在网元上的任何处理器处,或者可选地在网元处的处理器处发生。
    • 7. 发明授权
    • Method and system for storing and retrieving information in a communications node
    • 用于在通信节点中存储和检索信息的方法和系统
    • US06201755B1
    • 2001-03-13
    • US09215201
    • 1998-12-18
    • John PillarEric EnglertBernard St-Denis
    • John PillarEric EnglertBernard St-Denis
    • G11C1130
    • H04L41/12H04L43/10H04L45/745H04L2012/562H04L2012/5645H04Q11/0478
    • Methods and systems consistent with the present invention store connection information in a memory of a node in a communications network such that the number of searches for retrieving the connection information is less than a predetermined probe threshold. The node includes a hash table and a connection table in the memory for storing and retrieving information associated with packets, frames, and/or cells in the communications network. Each entry in the hash table includes a connection identifier and, for example, a connection index, and is indexed according to a hash value based on the connection identifier. Each entry in the connection table includes connection state information that is indexed according to a connection index in the hash table. To store connection information in the memory, the node identifies in the hash table a first set of addresses that correspond to a first connection identifier. When the first set of addresses does not correspond to a free entry, the node randomly selects one of the first set of addresses, and identifies a second connection identifier in an entry at the randomly selected address. The node then inserts the second connection identifier at a free one of a second set of addresses corresponding to the second connection identifier and inserts the first connection identifier at the randomly selected address.
    • 与本发明一致的方法和系统将连接信息存储在通信网络中的节点的存储器中,使得用于检索连接信息的搜索次数小于预定的探测阈值。 节点包括在存储器中的哈希表和连接表,用于存储和检索与通信网络中的分组,帧和/或小区相关联的信息。 哈希表中的每个条目包括连接标识符和例如连接索引,并且根据基于连接标识符的散列值进行索引。 连接表中的每个条目包括根据哈希表中的连接索引进行索引的连接状态信息。 为了将连接信息存储在存储器中,节点在哈希表中标识与第一连接标识符对应的第一组地址。 当第一组地址不对应于空闲条目时,节点随机地选择第一组地址中的一个,并在随机选择的地址的条目中标识第二连接标识符。 然后,节点将第二连接标识符插入到与第二连接标识符相对应的第二组地址中的空闲的一个,并将随机选择的地址中的第一连接标识符插入。
    • 8. 发明授权
    • Method and apparatus for managing interfaces on a network element
    • 用于管理网元上的接口的方法和装置
    • US09075753B1
    • 2015-07-07
    • US10922709
    • 2004-08-20
    • Ameel KambohBernard St-Denis
    • Ameel KambohBernard St-Denis
    • G06F15/173G06F11/14
    • G06F11/1438H04L41/0233H04L41/0896H04L43/0817
    • Interfaces may be created for applications on a network element without requiring the applications to include code specific for that type of interface. An Interface Management System (IMS) may be included to provide a media abstraction layer between applications and physical media to enable interfaces to be bound to applications without modifying the application to accommodate the interface and without modifying the interface to accommodate the application. The IMS also provides an environment to support distributed interface creation to enable interfaces to be created in a distributed fashion to avoid congestion in the IMS and to facilitate sparing of the IMS and interfaces. The interfaces communicate with applications and with each other through an IFID manager to streamline communications, and to enable the IMS to keep track of the interfaces that have been created on the network element.
    • 可以为网络元件上的应用程序创建接口,而不需要应用程序包括针对该类型接口的特定代码。 可以包括接口管理系统(IMS)以在应用和物理介质之间提供媒体抽象层,以使得能够将接口绑定到应用而不修改应用以适应接口,而不需要修改接口以适应应用。 IMS还提供了一种支持分布式接口创建的环境,以便能够以分布式方式创建接口,以避免IMS中的拥塞,并有助于节省IMS和接口。 接口通过IFID管理器与应用程序相互通信,以简化通信,并使IMS能够跟踪在网络元件上创建的接口。