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
    • 1. 发明申请
    • Resolver caching of a shortest path to a multihomed server as determined by a router
    • 将由路由器确定的最短路径的解析器缓存到多宿主服务器
    • US20070014241A1
    • 2007-01-18
    • US11181416
    • 2005-07-14
    • Dwip BanerjeeVasu VallabhaneniPatrick Vo
    • Dwip BanerjeeVasu VallabhaneniPatrick Vo
    • H04J3/14H04L12/28
    • H04L61/1511H04L29/12066H04L45/42H04L67/1002H04L67/1038
    • A resolver queries a DNS server for any network addresses associated with the particular domain name. If the resolver detects a response for the DNS server with multiple network addresses for a particular domain name, then the resolver creates and sends a shortest path query to at least one router enabled to receive and respond to shortest path queries. The shortest path query indicates at least one source address and the multiple destination addresses returned by the DNS server for the particular domain name. The router detects a separate length for each path accessible between each source address and each of the multiple destination addresses. The router then orders the destination addresses from shortest path to longest path and returns the ordered destination addresses to the requesting resolver. The resolver caches the ordered network addresses in the local cache in association with the particular domain name, such that for future requests for the particular domain name, the resolver retrieves from local cache the shortest path network address as ordered by the router. In addition, the resolver, responsive to receiving the ordered destination addresses, selects the shortest path network address for a response to an application requesting the resolution of the particular domain name.
    • 解析器向DNS服务器查询与特定域名相关联的任何网络地址。 如果解析器检测到具有特定域名的多个网络地址的DNS服务器的响应,则解析器创建并发送最短路径查询至少一个启用了能够接收和响应最短路径查询的路由器。 最短路径查询指示DNS服务器为特定域名返回的至少一个源地址和多个目的地址。 路由器检测每个源地址和多个目的地址之间可访问的每个路径的单独长度。 路由器然后将目的地址从最短路径命令到最长路径,并将有序目的地址返回给请求解析器。 解析器与特定域名相关联地将有序网络地址缓存在本地高速缓存中,使得对于特定域名的将来请求,解析器从本地高速缓存中检索由路由器排序的最短路径网络地址。 此外,解析器响应于接收到有序的目的​​地址,选择最短路径网络地址来响应请求解决特定域名的应用。
    • 2. 发明申请
    • Method and apparatus for centralization configuration of data processing systems
    • 数据处理系统集中配置的方法和装置
    • US20070067500A1
    • 2007-03-22
    • US11232762
    • 2005-09-22
    • Eduardo ReyesVasu VallabhaneniPatrick Vo
    • Eduardo ReyesVasu VallabhaneniPatrick Vo
    • G06F3/00
    • G06F8/60G06F9/44505
    • A computer implemented method, apparatus, and computer usable program code for configuring a remote data processing system. A configuration is identified for the remote data processing system to form an identified configuration. The hardware for the remote data processing system is configured. An installation application is sent to the remote data processing system across a communications link after the hardware in the remote data processing system has been configured, wherein the installation application executes on the remote data processing system to configure the remote data processing system. Installation files are sent across the communications link to the installation application executing on the remote data processing system. The installation program uses the installation files to configure install a set of operating systems, install applications, and configure software on the remote data processing system.
    • 一种用于配置远程数据处理系统的计算机实现的方法,装置和计算机可用程序代码。 为远程数据处理系统识别配置以形成识别的配置。 配置远程数据处理系统的硬件。 在配置了远程数据处理系统中的硬件之后,通过通信链路将安装应用发送到远程数据处理系统,其中安装应用在远程数据处理系统上执行以配置远程数据处理系统。 安装文件通过通信链路发送到在远程数据处理系统上执行的安装应用程序。 安装程序使用安装文件配置在远程数据处理系统上安装一组操作系统,安装应用程序和配置软件。
    • 3. 发明申请
    • Protocol definition for software bridge failover
    • 软件桥故障转移的协议定义
    • US20070058526A1
    • 2007-03-15
    • US11227033
    • 2005-09-15
    • Vinit JainJorge NoguerasVasu VallabhaneniPatrick Vo
    • Vinit JainJorge NoguerasVasu VallabhaneniPatrick Vo
    • H04J1/16
    • H04L12/462
    • A method, data processing system, and computer usable code are provided for protocol definition for software bridge failover. In a first aspect of the present invention, a first software bridge determines the proper working operation of a physical adapter. Limbo packets are sent to a second software bridge alerting the second software bridge that the first software bridge is no longer bridging traffic responsive to the physical adapter failure in the first software bridge. The second software bridge receives the limbo packets, and, in response to receiving the limbo packets, asserts primary control and initiates bridging of traffic. In an alternative aspect of the present invention a first software bridge sends keep-alive packets. A second software bridge monitors the keep-alive packets from the first software bridge and, in response to a failure to detect the keep-alive packets from the first software bridge, the second software bridge initiates bridging of traffic.
    • 为软件桥故障转移的协议定义提供了一种方法,数据处理系统和计算机可用代码。 在本发明的第一方面,第一软件桥接器确定物理适配器的适当的工作操作。 Limbo数据包被发送到第二个软件桥接器,提醒第二个软件桥接器,第一个软件桥接器不再桥接响应于第一个软件桥中的物理适配器故障的流量。 第二个软件桥接收到limbo数据包,并且响应于接收到limbo数据包,断言主要控制并启动流量桥接。 在本发明的另一方面,第一软件桥发送保持活动分组。 第二个软件桥接器监视来自第一软件桥的保持活动分组,并且响应于检测到来自第一软件桥的保持活动分组的故障,第二软件桥启动流量桥接。
    • 9. 发明申请
    • Tunneling IPv6 packets
    • 隧道IPv6报文
    • US20060168267A1
    • 2006-07-27
    • US10992380
    • 2004-11-18
    • Lilian FernandesVinit JainVasu VallabhaneniPatrick Vo
    • Lilian FernandesVinit JainVasu VallabhaneniPatrick Vo
    • G06F15/16
    • H04L12/4633H04L29/12066H04L61/1511H04L69/16H04L69/161H04L69/167
    • Methods, systems, and products are provided for tunneling IPv6 packets. Embodiments include receiving, by an origin IPv6 border router from an origin IPv6 host, an IPv6 packet having an IPv6 destination address; receiving, by an origin IPv6 border router from an origin IPv6 host, an IPv4 address for a destination IPv6 border router retrieved from a data structure associating IPv6 destination addresses with IPv4 addresses for destination IPv6 border routers; encapsulating, by the origin IPv6 border router, the IPv6 packet in an IPv4 packet; and sending the encapsulated packet to a destination IPv6 border router at the IPv4 address. In many embodiments, encapsulating, by the origin IPv6 border router, the IPv6 packet in an IPv4 packet is carried out by adding an IPv4 header to the IPv6 packet.
    • 提供了IPv6隧道分组的方法,系统和产品。 实施例包括由原始IPv6主机从原始IPv6边界路由器接收具有IPv6目的地址的IPv6分组; 通过原始IPv6边界路由器从原始IPv6主机接收从将IPv6目的地址与目的IPv6边界路由器的IPv4地址相关联的数据结构检索的目的地IPv6边界路由器的IPv4地址; 由原始IPv6边界路由器封装IPv6分组中的IPv6分组; 并将封装的分组发送到IPv4地址的目的IPv6边界路由器。 在许多实施例中,由IPv6 IPv6边界路由器封装IPv4分组中的IPv6分组,通过向IPv6分组添加IPv4报头来实现。
    • 10. 发明申请
    • System and method for allocating resources on a network
    • 用于在网络上分配资源的系统和方法
    • US20060123102A1
    • 2006-06-08
    • US11002545
    • 2004-12-02
    • Patrick VoVasu Vallabhaneni
    • Patrick VoVasu Vallabhaneni
    • G06F15/173
    • H04L29/12066H04L29/12283H04L61/1511H04L61/2015H04L61/2061H04L67/1002H04L67/1008H04L67/1012H04L67/1017
    • A system and method for allocating resources on a network, including a server and at least one client. The resources are associated within a single set, such that the number of resources within the network can be easily incremented or decremented. Flags are associated with each resource, where the flags may be set to one of two states: a first state or a second state. When the server receives a connection request from a client, the server examines the flags associated with the resources to find a flag set to a second state. Upon finding a resource with a flag set to the second state, that resource is assigned to the client. Once the resource is assigned to a client, the associated flag is set to a first state and another flag associated with another resource is set to a second state.
    • 一种用于在网络上分配资源的系统和方法,包括服务器和至少一个客户端。 资源在单个集合内关联,使得网络内的资源数量可以容易地递增或递减。 标志与每个资源相关联,其中标志可以被设置为两种状态之一:第一状态或第二状态。 当服务器从客户端接收到连接请求时,服务器检查与资源关联的标志,以查找设置为第二状态的标志。 在找到具有设置为第二状态的标志的资源时,该资源被分配给客户端。 一旦资源被分配给客户端,相关联的标志被设置为第一状态,并且与另一资源相关联的另一个标志被设置为第二状态。