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    • 3. 发明授权
    • Packet transfer apparatus for storage system
    • 存储系统的分组传送装置
    • US08094558B2
    • 2012-01-10
    • US11020484
    • 2004-12-27
    • Masayuki TakaseMinoru HidakaTakeki YazakiTomoyuki Oku
    • Masayuki TakaseMinoru HidakaTakeki YazakiTomoyuki Oku
    • H04L12/26
    • H04L47/10H04L47/20H04L47/21
    • To control a bandwidth without the need for a large-capacity buffer. This invention provides a packet transfer apparatus connected to first device and second device, with a network therebetween, including: an input unit that receives a packet from the first device; a packet storage unit that stores the packet; a packet processing unit that stores the packet in the packet storage unit; a packet checking unit that checks whether the packet is related to data request; a packet analyzing unit that analyzes the amount of data requested by the data request; a transfer control unit that controls transfer of the packet on the basis of the analyzed amount of data; and an output unit that sends the received packet to the second device.
    • 控制带宽,无需大容量缓冲区。 本发明提供了一种连接到第一设备和第二设备的分组传送设备,其间具有网络,包括:输入单元,其从第一设备接收分组; 存储分组的分组存储单元; 分组处理单元,其将分组存储在分组存储单元中; 分组检查单元,检查分组是否与数据请求相关; 分组分析单元,其分析由所述数据请求请求的数据量; 传送控制单元,其基于分析的数据量来控制分组的传送; 以及将接收到的分组发送到第二设备的输出单元。
    • 4. 发明申请
    • Data transfer device
    • 数据传输设备
    • US20060123136A1
    • 2006-06-08
    • US11211570
    • 2005-08-26
    • Tomoyuki OkuTakeki YazakiMichitaka OkunoMinoru HidakaShinichi Akahane
    • Tomoyuki OkuTakeki YazakiMichitaka OkunoMinoru HidakaShinichi Akahane
    • G06F15/16
    • H04L45/00H04L45/60H04L45/742
    • A high quality network is provided by not generating a sorting time when registering look-up conditions in a content addressable memory, and the physical banks activated during look-up of the look-up conditions are limited. The power consumption in a content addressable memory for routing and content addressable memory for flow control can be reduced by a hash function unit for routing for limiting the physical banks to be made active in a content addressable memory for routing which uses a routing look-up key or routing look-up data as input elements, and a routing register which stores values showing one or more physical bank numbers for converting hash values which may have discrepancies, and a hash function unit for flow control for limiting the physical banks to be made active in a content addressable memory for flow control which uses a flow control look-up key or flow control look-up data as input elements, and a flow control register which stores values showing one or more physical bank numbers for converting hash values which may have discrepancies.
    • 通过在内容可寻址存储器中注册查找条件时不产生排序时间来提供高质量网络,并且在查找条件的查找期间激活的物理库被限制。 用于路由的内容可寻址存储器中的功率消耗和用于流控制的内容可寻址存储器可以通过用于路由的散列函数单元来减少,用于限制在内容可寻址存储器中被激活的物理存储器,用于使用路由查找的路由 密钥或路由查找数据作为输入元素,以及路由寄存器,其存储表示用于转换可能具有差异的哈希值的一个或多个物理库号的值,以及用于限制要进行的物理银行的流量控制的散列函数单元 活动在用于流控制的内容可寻址存储器中,其使用流控制查找键或流控制查找数据作为输入元素,以及流控制寄存器,其存储表示用于转换散列值的一个或多个物理库号, 有差异。
    • 5. 发明申请
    • Packet transfer apparatus for storage system
    • 存储系统的分组传送装置
    • US20060077915A1
    • 2006-04-13
    • US11020484
    • 2004-12-27
    • Masayuki TakaseMinoru HidakaTakeki YazakiTomoyuki Oku
    • Masayuki TakaseMinoru HidakaTakeki YazakiTomoyuki Oku
    • H04L5/22
    • H04L47/10H04L47/20H04L47/21
    • To control a bandwidth without the need for a large-capacity buffer. This invention provides a packet transfer apparatus connected to first device and second device, with a network therebetween, including: an input unit that receives a packet from the first device; a packet storage unit that stores the packet; a packet processing unit that stores the packet in the packet storage unit; a packet checking unit that checks whether the packet is related to data request; a packet analyzing unit that analyzes the amount of data requested by the data request; a transfer control unit that controls transfer of the packet on the basis of the analyzed amount of data; and an output unit that sends the received packet to the second device.
    • 控制带宽,无需大容量缓冲区。 本发明提供了一种连接到第一设备和第二设备的分组传送设备,其间具有网络,包括:输入单元,其从第一设备接收分组; 存储分组的分组存储单元; 分组处理单元,其将分组存储在分组存储单元中; 分组检查单元,检查分组是否与数据请求相关; 分组分析单元,其分析由所述数据请求请求的数据量; 传送控制单元,其基于分析的数据量来控制分组的传送; 以及将接收到的分组发送到第二设备的输出单元。
    • 7. 发明授权
    • Ring network and master node
    • 环网和主节点
    • US07664052B2
    • 2010-02-16
    • US11703073
    • 2007-02-07
    • Tomoyuki OkuShinichi Akahane
    • Tomoyuki OkuShinichi Akahane
    • H04L12/26H04J1/16G08C15/00G06F11/00G01R31/08
    • H04L12/66
    • A master node transmits a probe packet for checking a condition of a network in a ring in both directions thereof to detect the occurrence of a fault on the ring. A slave node increments a hop count included in the received probe packet, transmits it to an adjacent node configuring the ring, and transmits a hop count report packet to the master node. The master node detects a fault on the ring based upon a fact that the master node does not receive the probe packet transmitted by itself. Further, the master node detects the occurrence of multiple faults and the recovery of at least one of the multiple faults based upon the sum of maximum values of hop counts in the hop count report packets received from both directions of the ring and transmits a packet for prompting the update of the database for packet transfer.
    • 主节点在其两个方向上发送用于检查环中的网络的状况的探测分组,以检测环上的故障的发生。 从节点增加收到的探测报文中包含的跳数,将其发送给配置环的相邻节点,并向主节点发送跳数报告报文。 主节点基于主节点未接收到自身发送的探测分组的事实,检测到环上的故障。 此外,主节点基于从环的两个方向接收到的跳数计数报告分组中的跳数的最大值的总和,检测多个故障的发生和多个故障中的至少一个的恢复,并且发送用于 提示更新数据包以进行数据包传输。
    • 8. 发明申请
    • Ring network and master node
    • 环网和主节点
    • US20070204068A1
    • 2007-08-30
    • US11703073
    • 2007-02-07
    • Tomoyuki OkuShinichi Akahane
    • Tomoyuki OkuShinichi Akahane
    • G06F15/173G06F15/16
    • H04L12/66
    • A master node transmits a probe packet for checking a condition of a network in a ring in both directions thereof to detect the occurrence of a fault on the ring. A slave node increments a hop count included in the received probe packet, transmits it to an adjacent node configuring the ring, and transmits a hop count report packet to the master node. The master node detects a fault on the ring based upon a fact that the master node does not receive the probe packet transmitted by itself. Further, the master node detects the occurrence of multiple faults and the recovery of at least one of the multiple faults based upon the sum of maximum values of hop counts in the hop count report packets received from both directions of the ring and transmits a packet for prompting the update of the database for packet transfer.
    • 主节点在其两个方向上发送用于检查环中的网络的状况的探测分组,以检测环上的故障的发生。 从节点增加收到的探测报文中包含的跳数,将其发送给配置环的相邻节点,并向主节点发送跳数报告报文。 主节点基于主节点未接收到自身发送的探测分组的事实,检测到环上的故障。 此外,主节点基于从环的两个方向接收到的跳数计数报告分组中的跳数的最大值的总和,检测多个故障的发生和多个故障中的至少一个的恢复,并且发送用于 提示更新数据包以进行数据包传输。