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    • 12. 发明申请
    • SYSTEMS AND APPARATUSES FOR PROVIDING CONVERSION FROM A FIRST OPTICAL CONNECTOR TO MULTIPLE SECOND OPTICAL CONNECTORS
    • 从第一个光连接器向多个第二个光连接器提供转换的系统和装置
    • US20130279856A1
    • 2013-10-24
    • US13453261
    • 2012-04-23
    • Mark E. BoduchYajun WangThomas J. Huber
    • Mark E. BoduchYajun WangThomas J. Huber
    • G02B6/38
    • G02B6/4471G02B6/3897G02B6/4286
    • An optical connector system having a first optical connector, a plurality of second optical connectors, and a mounting system hosting the first optical connector and the second optical connectors. The mounting system can be formed integrally with at least one pluggable optical device. The system also has a mechanism arranged to connect the first optical connector to the second optical connectors. The system also includes at least one further pluggable optical device having at least one optical interface optically coupled to the first optical connector of the at least one pluggable optical device. In one example, the pluggable optical device is a CFP device, and the further pluggable optical device is a QSFP+. With this configuration, the QSFP+ can accommodate at least one of a 40 G and 10 G interface capability. Also provided is a connector system and an apparatus (e.g., pluggable optical device) that enable such a capability.
    • 一种具有第一光学连接器,多个第二光学连接器以及托管第一光学连接器和第二光学连接器的安装系统的光学连接器系统。 安装系统可以与至少一个可插拔光学装置一体地形成。 该系统还具有将第一光连接器连接到第二光连接器的机构。 该系统还包括至少一个另外的可插拔光学装置,其具有光学耦合到所述至少一个可插拔光学装置的第一光学连接器的至少一个光学接口。 在一个示例中,可插拔光学设备是CFP设备,并且可插拔光学设备是QSFP +。 通过这种配置,QSFP +可以容纳40G和10G接口能力中的至少一种。 还提供了能够实现这种能力的连接器系统和装置(例如,可插拔光学装置)。
    • 15. 发明申请
    • METHOD AND APPARATUS FOR TRAFFICKING WAVELENGTHS OF DIFFERENT SPACINGS WITHIN AN OPTICAL NODE
    • 用于在光学节点中移动不同间距的波长的方法和装置
    • US20120183292A1
    • 2012-07-19
    • US13177089
    • 2011-07-06
    • Mark E. Boduch
    • Mark E. Boduch
    • H04J14/02
    • H04J14/0204H04J14/0206H04J14/0208H04J14/0209H04J14/0212H04J14/0213H04J14/0217H04J14/0283
    • Fiber optic links can be used to support optical communications using wavelength division multiplexing (WDM) with different legacy, current, and future (non-legacy) WDM systems being characterized by channel spacing. An example of a legacy system can include WDM that employs a large number of channels and uses relatively narrow spacing between the channels, having a channel spacing of 100 GHz whereas today's current WDM systems have a narrower channel spacing of 50 GHz. Current systems and standards cannot support multiplexing of signals from different legacy and non-legacy WDM systems within the same network element without causing signal interference. Example embodiments of the present invention overcome the current problems by allowing for the handling and interconnection of differently spaced wavelengths within the same network element by employing hybrid components. As a result, networks employing embodiments of the present invention have reconfigurable, scalable, low cost interoperability of legacy and non-legacy WDM systems.
    • 光纤链路可用于支持使用具有不同传统,当前和未来(非遗留)WDM系统的波分复用(WDM)的光通信,其特征在于信道间隔。 遗留系统的示例可以包括采用大量信道并且在信道之间使用相对窄的间隔的WDM,其具有100GHz的信道间隔,而当前的当前WDM系统具有50GHz的较窄信道间隔。 当前的系统和标准不能支持来自同一网络元件内不同传统和非遗留WDM系统的信号的复用,而不会引起信号干扰。 本发明的示例性实施例通过采用混合部件来允许同一网络元件内的不同间隔的波长的处理和互连来克服当前的问题。 结果,采用本发明的实施例的网络具有可重新配置的,可扩展的,低成本的传统和非传统WDM系统的互操作性。
    • 18. 发明授权
    • System and method for aligning data in a network environment
    • 用于在网络环境中对齐数据的系统和方法
    • US07529959B1
    • 2009-05-05
    • US11856512
    • 2007-09-17
    • Mark E. Boduch
    • Mark E. Boduch
    • H04J3/24
    • H04J3/0688H04J3/062H04Q2213/13174H04Q2213/13213H04Q2213/13216H04Q2213/13322H04Q2213/1336
    • In a network environment, a first master timing generator generates a first frame reference signal and a second master timing generator generates a second frame reference signal. A first data source generates a first data source signal, a first frame source signal, and a first clock source signal in response to a selected one of the first and second frame reference signals. Similarly, a second data source generates a second data source signal, a second frame source signal, and a second clock source signal in response to a selected one of the first and second frame reference signals. A timing recovery circuit generates a recovered reference signal and a recovered clock signal in response to a selected one of the first and second frame reference signals. A phase aligner stores the first data source signal in response to the first frame source signal and the first clock source signal. The phase aligner also stores the second data source signal in response to the second frame source signal and the second clock source signal. The phase aligner aligns a phase of the first data source signal with a phase of the second data source signal in response to the recovered reference signal and the recovered clock signal.
    • 在网络环境中,第一主定时发生器产生第一帧参考信号,而第二主定时发生器产生第二帧参考信号。 响应于所选择的第一和第二帧参考信号之一,第一数据源产生第一数据源信号,第一帧源信号和第一时钟源信号。 类似地,第二数据源响应于所选择的第一和第二帧参考信号之一产生第二数据源信号,第二帧源信号和第二时钟源信号。 定时恢复电路响应于所选择的第一和第二帧参考信号之一产生恢复的参考信号和恢复的时钟信号。 相位对准器响应于第一帧源信号和第一时钟源信号而存储第一数据源信号。 响应于第二帧源信号和第二时钟源信号,相位对准器还存储第二数据源信号。 响应于恢复的参考信号和恢复的时钟信号,相位对准器使第一数据源信号的相位与第二数据源信号的相位对准。
    • 19. 发明授权
    • Cell based wrapped wave front arbiter (WWFA) with bandwidth reservation
    • 具有带宽预留功能的基于单元的包络波前裁判器(WWFA)
    • US07274701B2
    • 2007-09-25
    • US10287259
    • 2002-11-04
    • Mark E BoduchDavid Rancich
    • Mark E BoduchDavid Rancich
    • H04L12/28H04L12/56
    • H04L49/254H04L47/50H04L49/101H04L49/3009
    • Systems and methods for cell based wrapped wave front arbiter (WWFA) with bandwidth reservation are disclosed. The method for reserving bandwidth of a given priority using the WWFA for arbitrating bandwidth among virtual links between input and output ports, each virtual link supporting one or more priorities and corresponding to an arbitration unit (AU) of the WWFA generally comprises performing at least one arbitration pass of a wave front of the WWFA where AUs having a reserved bandwidth request of a given priority and reserved bandwidth credit of the given priority compete for the bandwidth associated with the wave front, and where AUs not having a reserved bandwidth request of the given priority and reserved bandwidth credit of the given priority do not compete for the bandwidth, and performing at least one subsequent arbitration pass where AUs having a reserved bandwidth request of the given priority compete for the bandwidth.
    • 披露了具有带宽预留功能的基于单元的包络波前向仲裁器(WWFA)的系统和方法。 使用WWFA预留给定优先级的带宽的方法用于在输入和输出端口之间的虚拟链路之间仲裁带宽,支持一个或多个优先级的每个虚拟链路和对应于WWFA的仲裁单元(AU)的方法通常包括执行至少一个 WWFA的波前的仲裁通过,其中具有给定优先级的保留带宽请求的AU和给定优先级的预留带宽信誉与波前相关的带宽竞争,并且其中AU不具有给定的预留带宽请求 给定优先级的优先级和预留带宽信用不对带宽进行竞争,并且执行至少一个随后的仲裁通过,其中具有给定优先级的预留带宽请求的AU竞争带宽。