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公开(公告)号:US20110110381A1
公开(公告)日:2011-05-12
申请号:US12614254
申请日:2009-11-06
IPC分类号: H04L12/56
CPC分类号: H04L47/125 , H04L45/125 , H04L45/22 , H04L49/505 , H04L49/506 , H04L2012/5635
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US20110110241A1
公开(公告)日:2011-05-12
申请号:US12614268
申请日:2009-11-06
IPC分类号: H04L12/26
CPC分类号: H04L43/0811 , H04L41/0677 , H04L41/22
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US08891368B2
公开(公告)日:2014-11-18
申请号:US12614268
申请日:2009-11-06
CPC分类号: H04L43/0811 , H04L41/0677 , H04L41/22
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US08885657B2
公开(公告)日:2014-11-11
申请号:US12614254
申请日:2009-11-06
IPC分类号: H04L12/28 , H04L12/803 , H04L12/931 , H04L12/70 , H04L12/729 , H04L12/707
CPC分类号: H04L47/125 , H04L45/125 , H04L45/22 , H04L49/505 , H04L49/506 , H04L2012/5635
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US09391849B2
公开(公告)日:2016-07-12
申请号:US12614286
申请日:2009-11-06
IPC分类号: H04L12/24 , H04L12/801 , H04L12/825
CPC分类号: H04L41/5025 , H04L47/11 , H04L47/26
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US20110110232A1
公开(公告)日:2011-05-12
申请号:US12614286
申请日:2009-11-06
IPC分类号: H04L12/56
CPC分类号: H04L41/5025 , H04L47/11 , H04L47/26
摘要: Back pressure is mapped within a network, and primary bottlenecks are distinguished from dependent bottlenecks. Further, the presently disclosed technology is capable of performing network healing operations designed to reduce the data load on primary bottlenecks while ignoring dependent bottlenecks. Still further, the presently disclosed technology teaches identifying and/or suggesting a switch port for adding a node to the network. More specifically, various implementations analyze traffic load and back pressure in a network, identify primary and dependent bottlenecks, resolve the primary bottlenecks, collect new node parameters, and/or select a switch port for the new node. Further, a command can be sent to a selected switch to activate an indicator on the selected port. New node parameters may include new node type, maximum load, minimum load, time of maximum load, time of minimum load and type of data associated with the new node.
摘要翻译: 背压被映射到网络中,主要瓶颈与依赖瓶颈不同。 此外,目前公开的技术能够执行设计用于减少主要瓶颈上的数据负载的网络恢复操作,同时忽略依赖的瓶颈。 此外,本公开的技术教导了识别和/或建议用于将节点添加到网络的交换机端口。 更具体地,各种实现分析网络中的业务负载和背压,识别主要和相关瓶颈,解决主要瓶颈,收集新节点参数和/或为新节点选择交换机端口。 此外,可以向所选择的交换机发送命令以激活所选端口上的指示符。 新节点参数可以包括新节点类型,最大负载,最小负载,最大负载时间,最小负载时间和与新节点相关联的数据类型。
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公开(公告)号:US20110216769A1
公开(公告)日:2011-09-08
申请号:US12719321
申请日:2010-03-08
IPC分类号: H04L12/56
CPC分类号: H04L12/56
摘要: A switch/router dynamically selects a path from multiple available paths between a source destination pair for a frame. A hash function generates a hash value from frame parameters such as source ID, destination ID, exchange ID, etc. The hash value is given as an input to a plurality of range comparators where each range comparator has a range of values associated with it. If the hash value falls within a range associated with a range comparator, that range comparator generates an in-range signal. A path selector module detects which range comparator has generated the in-range signal, and determines a path associated with that range comparator from previously stored information. The frame is transmitted via the selected path. The ranges associated with each range comparator can be non-overlapping and unequal in size. The number of range comparators can be equal to a number of selected multiple paths.
摘要翻译: 交换机/路由器动态地从帧的源目的地对之间的多个可用路径选择路径。 哈希函数从诸如源ID,目的地ID,交换ID等帧参数生成哈希值。散列值作为输入,被给予多个范围比较器,其中每个范围比较器具有与其相关联的值的范围。 如果散列值落在与范围比较器相关联的范围内,则该范围比较器产生范围内信号。 路径选择器模块检测哪个范围比较器已经产生了范围内信号,并且从先前存储的信息确定与该范围比较器相关联的路径。 帧通过所选路径传输。 与每个范围比较器相关联的范围可以是非重叠的并且在大小上是不相等的。 范围比较器的数量可以等于所选多个路径的数量。
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