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    • 33. 发明授权
    • Determining a remote device name
    • 确定远程设备名称
    • US07370078B1
    • 2008-05-06
    • US09862648
    • 2001-05-22
    • Roger Woodruff
    • Roger Woodruff
    • G06F15/16
    • H04L67/16H04L29/12858H04L29/12886H04L61/6031H04L61/6045
    • A method, system, apparatus, and signal-bearing media for determining the name of a remotely attached device. A server discovers the devices attached to it and extracts the device names in a first protocol format. The server encodes the device names into a second protocol format. When a client requests a list of supported devices, the server sends the device names found in the second protocol format. The client decodes the names into the second protocol format back into the first protocol format and presents the device names to a host attached to the client. In this way, the host is freed from manually predetermining the device names, and the host need have no knowledge of the server or the second protocol.
    • 一种用于确定远程连接设备的名称的方法,系统,设备和信号承载介质。 服务器发现附加的设备,并以第一种协议格式提取设备名称。 服务器将设备名称编码为第二种协议格式。 当客户端请求支持的设备的列表时,服务器发送以第二协议格式找到的设备名称。 客户端将名称解码为第二协议格式,恢复为第一协议格式,并将设备名称提供给连接到客户端的主机。 以这种方式,主机不需要手动预先确定设备名称,主机不需要了解服务器或第二个协议。
    • 34. 发明申请
    • Fibre channel over ethernet
    • 以太网上的光纤通道
    • US20080056300A1
    • 2008-03-06
    • US11514665
    • 2006-09-01
    • James B. Williams
    • James B. Williams
    • H04J3/16
    • H04L29/06068H04L12/4633H04L29/12028H04L29/12886H04L61/103H04L61/6045H04L69/22
    • The use of Ethernet as an underlying transport for Fibre Channel (FC) frames is disclosed in the Fibre Channel Over Ethernet (FCOE) protocol. In FCOE, the FC physical layer and part of the FC-2 link layer are replaced with the Ethernet physical and link layers. Each FC frame is encapsulated within an Ethernet Frame. The payload of the FCOE frame contains type information from the FC Start Of Frame (SOF) indicator, the FC header, an optional FC payload, and type information from the FC End Of Frame (EOF) indicator. In one embodiment, an Ethernet network carrying FCOE replaces a standard FC network. In another embodiment, devices implementing FCOE may be implemented in a blade server. The entire backplane is Ethernet, over which both storage and networking traffic can be run. The Ethernet links are connected to an Ethernet switch, a FCOE/FC converter, and a FC switch.
    • 在以太网光纤通道(FCOE)协议中公布了以太网作为光纤​​通道(FC)帧的底层传输的使用。 在FCOE中,FC物理层和FC-2链路层的一部分被以太网物理层和链路层替代。 每个FC帧封装在以太网帧中。 FCOE帧的有效载荷包含来自FC起始帧(SOF)指示符,FC头,可选FC有效载荷和FC帧结束(EOF)指示符的类型信息的类型信息。 在一个实施例中,携带FCOE的以太网网络替代标准FC网络。 在另一个实施例中,实现FCOE的设备可以在刀片服务器中实现。 整个背板是以太网,可以运行存储和网络流量。 以太网链路连接到以太网交换机,FCOE / FC转换器和FC交换机。
    • 38. 发明申请
    • Fibre channel over Ethernet
    • 以太网光纤通道
    • US20060098681A1
    • 2006-05-11
    • US11078992
    • 2005-03-10
    • Luca CafieroSilvano Gai
    • Luca CafieroSilvano Gai
    • H04L12/413H04J3/24
    • H04L47/522H04L12/4625H04L61/106H04L61/6022H04L61/6045
    • The present invention provides methods and devices for implementing a Low Latency Ethernet (“LLE”) solution, also referred to herein as a Data Center Ethernet (“DCE”) solution, which simplifies the connectivity of data centers and provides a high bandwidth, low latency network for carrying Ethernet and storage traffic. Some aspects of the invention involve transforming FC frames into a format suitable for transport on an Ethernet. Some preferred implementations of the invention implement multiple virtual lanes (“VLs”) in a single physical connection of a data center or similar network. Some VLs are “drop” VLs, with Ethernet-like behavior, and others are “no-drop” lanes with FC-like behavior. Some preferred implementations of the invention provide guaranteed bandwidth based on credits and VL. Active buffer management allows for both high reliability and low latency while using small frame buffers. Preferably, the rules for active buffer management are different for drop and no drop VLs.
    • 本发明提供了用于实现低延迟以太网(“LLE”)解决方案的方法和设备,这也被称为数据中心以太网(“DCE”)解决方案,其简化了数据中心的连接性并提供了高带宽,低 用于承载以太网和存储流量的延迟网络。 本发明的一些方面涉及将FC帧变换成适于在以太网上传输的格式。 本发明的一些优选实现在数据中心或类似网络的单个物理连接中实现多个虚拟通道(“VL”)。 一些VL是“下降”VL,具有类似以太网的行为,而其他VL是类似FC的行为的“不丢弃”通道。 本发明的一些优选实施方案提供了基于信用和VL的保证带宽。 使用小帧缓冲区时,主动缓冲区管理可实现高可靠性和低延迟。 优选地,用于主动缓冲器管理的规则对于丢弃和不丢弃VL是不同的。