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    • 1. 发明授权
    • Communications system with symmetrical interfaces and associated methods
    • 具有对称接口和相关方法的通信系统
    • US07940808B2
    • 2011-05-10
    • US12346296
    • 2008-12-30
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • H04J3/06
    • H04Q11/0478H04L2012/5674
    • A communications system includes a physical layer device (PLD) and a logical link device (LLD), each having respective send and receive interfaces being substantially identical to define symmetrical interfaces for the system. Accordingly, design and manufacturing is simplified compared to conventional systems. In addition, advantages are also provided in terms of loopback capability and packaging options. The PLD comprises a PLD send interface including PLD parallel information outputs, and a PLD receive interface including PLD parallel information inputs. Similarly, the LLD comprises an LLD receive interface including LLD parallel information inputs, and an LLD send interface including LLD parallel information outputs. Parallel communications channels connect the PLD information outputs to respective LLD information inputs, and connect the LLD information outputs to respective PLD information inputs. The PLD send interface and the LLD send interface are substantially identical, and the PLD receive interface and the LLD receive interface are substantially identical to thereby define the symmetrical interfaces for the system. In view of the symmetrical interfaces, the PLD and the LLD may operate in a push-push configuration. Deskewing features are also provided.
    • 通信系统包括物理层设备(PLD)和逻辑链路设备(LLD),每个物理层设备(LLD)各自具有相同的发送和接收接口,以定义用于系统的对称接口。 因此,与常规系统相比,设计和制造被简化。 此外,还提供了环回能力和封装选项方面的优势。 PLD包括包括PLD并行信息输出的PLD发送接口和包括PLD并行信息输入的PLD接收接口。 类似地,LLD包括包括LLD并行信息输入的LLD接收接口和包括LLD并行信息输出的LLD发送接口。 并行通信通道将PLD信息输出连接到相应的LLD信息输入,并将LLD信息输出连接到相应的PLD信息输入。 PLD发送接口和LLD发送接口基本相同,PLD接收接口和LLD接收接口基本相同,从而定义了系统的对称接口。 鉴于对称接口,PLD和LLD可以以推 - 推配置运行。 还提供脱色功能。
    • 2. 发明授权
    • Communications system and associated methods with out-of-band control
    • 通信系统及带外控制的相关方法
    • US06909727B1
    • 2005-06-21
    • US09459831
    • 1999-12-13
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • H04L25/02H04L7/00H04L25/14H04Q11/04H04J3/00
    • H04L25/14
    • A communications system comprises a physical layer device (PLD) including a PLD send interface which, in turn, includes PLD parallel information outputs and at least one PLD control output. The system also includes a logical link device (LLD) which comprises an LLD receive interface which, in turn, includes LLD parallel information inputs and at least one LLD control input. First parallel communications channels connect the PLD information outputs to respective LLD information inputs, and at least one second communications channel connects the at least one PLD control output to the at least one LLD control input so that control signals are sent from the PLD to the LLD out-of-band from information signals. Accordingly, control speed is enhanced, and information throughput efficiency is not compromised. The PLD may further include a PLD receive interface including PLD parallel information inputs and at least one PLD control input, and the LLD may further comprise an LLD send interface including LLD parallel information outputs and at least one LLD control output. In accordance with this aspect of the invention, the PLD and LLD are operable in a push-push configuration. Another advantageous feature of the invention is that the interfaces may be symmetric.
    • 通信系统包括物理层设备(PLD),其包括PLD发送接口,PLD发送接口又包括PLD并行信息输出和至少一个PLD控制输出。 该系统还包括逻辑链路设备(LLD),其包括LLD接收接口,LLD接收接口又包括LLD并行信息输入和至少一个LLD控制输入。 第一并行通信信道将PLD信息输出连接到相应的LLD信息输入,并且至少一个第二通信信道将至少一个PLD控制输出连接到至少一个LLD控制输入,使得控制信号从PLD发送到LLD 信息信号带外。 因此,控制速度提高,信息吞吐效率不受影响。 PLD还可以包括包括PLD并行信息输入和至少一个PLD控制输入的PLD接收接口,并且LLD还可以包括包括LLD并行信息输出和至少一个LLD控制输出的LLD发送接口。 根据本发明的该方面,PLD和LLD可在推 - 推配置中操作。 本发明的另一有利特征是接口可以是对称的。
    • 3. 发明授权
    • Communications system including lower rate parallel electronics with skew compensation and associated methods
    • 通信系统包括具有偏斜补偿的低速并行电路和相关方法
    • US06675327B1
    • 2004-01-06
    • US09460165
    • 1999-12-13
    • Mohammad S. MobinMichael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Mohammad S. MobinMichael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • G11B500
    • H04L1/0061H04J3/0626H04L25/4904
    • A communications system includes a first device comprising a plurality of electrical-to-transmission medium converters, and a second device comprising a plurality of transmission medium-to-electrical converters to be connected to respective ones of the electrical-to-transmission medium converters via at least one transmission medium and defining parallel communications channels between the first and second devices, and wherein deskewing is provided. More particularly, the first device may include a string-based framing coder for determining and appending a string-based framing code to each information symbol string of information symbol strings to be transmitted in parallel over respective parallel communications channels. Each string-based framing code is based upon at least some of the information symbols in the respective information symbol string. The second device preferably comprises a deskewer for aligning received information symbol strings based upon the string-based framing codes. The symbols may be binary bits, and the string-based codes may be CRC codes.
    • 通信系统包括包括多个电传输介质转换器的第一设备和包括多个传输介质到电转换器的第二设备,所述多个传输介质到电转换器经由 至少一个传输介质并且在第一和第二设备之间定义并行通信信道,并且其中提供了去歪斜。 更具体地,第一设备可以包括基于串的成帧编码器,用于确定并将基于字符串的成帧代码附加到要在各个并行通信信道上并行发送的信息符号串的每个信息符号串。 每个基于字符串的成帧代码基于相应信息符号串中的至少一些信息符号。 第二装置优选地包括用于基于基于字符串的成帧代码来对准所接收的信息符号串的偏台。 符号可以是二进制位,并且基于字符串的代码可以是CRC码。
    • 4. 发明申请
    • Communications System with Symmetrical Interfaces and Associated Methods
    • 具有对称接口和相关方法的通信系统
    • US20090196605A1
    • 2009-08-06
    • US12346296
    • 2008-12-30
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • H04J14/00H04J3/06H04J3/04H04L12/56
    • H04Q11/0478H04L2012/5674
    • A communications system includes a physical layer device (PLD) and a logical link device (LLD), each having respective send and receive interfaces being substantially identical to define symmetrical interfaces for the system. Accordingly, design and manufacturing is simplified compared to conventional systems. In addition, advantages are also provided in terms of loopback capability and packaging options. The PLD comprises a PLD send interface including PLD parallel information outputs, and a PLD receive interface including PLD parallel information inputs. Similarly, the LLD comprises an LLD receive interface including LLD parallel information inputs, and an LLD send interface including LLD parallel information outputs. Parallel communications channels connect the PLD information outputs to respective LLD information inputs, and connect the LLD information outputs to respective PLD information inputs. The PLD send interface and the LLD send interface are substantially identical, and the PLD receive interface and the LLD receive interface are substantially identical to thereby define the symmetrical interfaces for the system. In view of the symmetrical interfaces, the PLD and the LLD may operate in a push-push configuration. Deskewing features are also provided.
    • 通信系统包括物理层设备(PLD)和逻辑链路设备(LLD),每个物理层设备(LLD)各自具有相同的发送和接收接口,以定义用于系统的对称接口。 因此,与常规系统相比,设计和制造被简化。 此外,还提供了环回能力和封装选项方面的优势。 PLD包括包括PLD并行信息输出的PLD发送接口和包括PLD并行信息输入的PLD接收接口。 类似地,LLD包括包括LLD并行信息输入的LLD接收接口和包括LLD并行信息输出的LLD发送接口。 并行通信通道将PLD信息输出连接到相应的LLD信息输入,并将LLD信息输出连接到相应的PLD信息输入。 PLD发送接口和LLD发送接口基本相同,PLD接收接口和LLD接收接口基本相同,从而定义了系统的对称接口。 鉴于对称接口,PLD和LLD可以以推 - 推配置运行。 还提供脱色功能。
    • 5. 发明授权
    • Communications system and associated deskewing and word framing methods
    • 通信系统和相关的歪斜和字框架方法
    • US06819683B2
    • 2004-11-16
    • US09766079
    • 2001-01-19
    • Nevin R. JonesHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Nevin R. JonesHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • G01R3108
    • H04L25/14H04L7/0083H04L7/04H04L7/10
    • A communications system includes N parallel communications channels connecting first and second devices. The N channels may include N−1 channels for carrying information symbols, and an Nth channel for facilitating deskewing and word framing. The first device may include an alignment symbol generator for generating alignment symbols on the Nth channel, and a word framing code generator for generating word framing codes on the Nth channel. The second device may include a deskewer for aligning received information symbols based upon the alignment symbols, and a word framer for determining word framing based upon the word framing codes. The word frame code generator in the first device or transmitter, and the word framer in the second device or receiver provide the desired feature of knowledge of where each word starts or begins. The start of each word may be determined in terms of a time and a corresponding one of the N−1 channels where the word starts. The word framing code generator may generate word framing codes comprising at least one predetermined word framing code. Alternately, the word framing code generator may generate word framing codes including at least one changeable word framing code based upon information symbols.
    • 通信系统包括连接第一和第二设备的N个并行通信信道。 N个信道可以包括用于携带信息符号的N-1个信道,以及用于促进偏斜校正和字框架的第N个信道。 第一设备可以包括用于在第N个信道上产生对齐符号的对准符号发生器,以及用于在第N个信道上产生字成帧代码的字成帧代码发生器。 第二装置可以包括用于基于对准符号对准接收到的信息符号的偏移器,以及用于基于字成帧代码确定字成帧的字成像器。 第一设备或发送器中的字代码生成器以及第二设备或接收器中的成帧器提供了每个字开始或开始的位置的所需知识特征。 可以根据时间和单词开始的N-1个频道中的相应一个来确定每个单词的开始。 单词成帧代码生成器可以生成包括至少一个预定字成帧代码的字成帧代码。 或者,字成帧代码生成器可以基于信息符号生成包括至少一个可变字成帧代码的字成帧码。
    • 6. 发明授权
    • Communications system and associated deskewing methods
    • 通讯系统及相关的歪斜方式
    • US06678842B1
    • 2004-01-13
    • US09459848
    • 1999-12-13
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • G11B500
    • H04L25/14H04L1/0061
    • A communications system includes first and second devices connected by parallel communications channels. The first device preferably comprises a string-based framing coder for determining and appending a string-based framing code to each information symbol string of information symbol strings to be transmitted in parallel over respective parallel communications channels. Each string-based framing code is preferably based upon at least some of the information symbols in the respective information symbol string. In addition, the second device preferably includes a deskewer for aligning received parallel information symbol strings based upon the string-based framing codes. In other words, the string-based framing codes and their use to align received information symbol strings permit the information symbol to be transmitted at high rates and over relatively long distances and thereby be subject skew. The information symbols may be binary bits. The string-based coder may comprise a cyclic redundancy checking (CRC) coder for determining and appending CRC codes to respective information bit strings. Thus, the deskewer may comprise a CRC framer for framing the information bit strings based upon the CRC codes.
    • 通信系统包括通过并行通信信道连接的第一和第二设备。 第一设备优选地包括基于串的成帧编码器,用于确定并将基于串的成帧代码附加到要在各个并行通信信道上并行发送的信息符号串的每个信息符号串。 每个基于字符串的成帧代码优选地基于相应信息符号串中的至少一些信息符号。 此外,第二装置优选地包括用于基于基于字符串的成帧代码对准所接收的并行信息符号串的偏移台。 换句话说,基于串的成帧代码及其用于对准接收到的信息符号串的使用允许以高速率和相对长的距离传输信息符号,从而受到偏差。 信息符号可以是二进制位。 基于串的编码器可以包括循环冗余校验(CRC)编码器,用于确定和附加到相应信息比特串的CRC码。 因此,台式电脑可以包括用于基于CRC码对信息位串进行成帧的CRC成帧器。
    • 7. 发明授权
    • Stall need detection and associated stall mechanism for delay compensation in virtual concatenation applications
    • 失速需要检测和相关的失速机制用于虚拟级联应用中的延迟补偿
    • US07489710B2
    • 2009-02-10
    • US10420156
    • 2003-04-22
    • Sameer GuptaMichael Samuel ShafferHimanshu Mahendra Thaker
    • Sameer GuptaMichael Samuel ShafferHimanshu Mahendra Thaker
    • H04J3/06
    • H04J3/0623H04J2203/0094
    • Virtual concatenation circuitry is disclosed which provides stall need detection and an associated stall mechanism in a network element of a data communication network. The virtual concatenation circuitry in a preferred embodiment is operative to provide differential delay compensation for one or more member streams of a virtual concatenation stream. The differential delay compensation involves introducing delay into at least one of the member streams. The stall need detection aspect of the invention relates to detecting a condition under which introduction of the delay is required for alignment of member streams, for example, upon addition of a member stream to the virtual concatenation stream. Such a condition may arise, for example, if a transmission delay of an added stream is larger than that of all other member streams of the virtual concatenation stream. The stall implementation ensures that, during at least a portion of the introduced delay for a given member stream, data transmitted for that member stream is marked as invalid, thereby preventing the introduction of data errors.
    • 虚拟级联电路被公开,其在数据通信网络的网络元件中提供失速需求检测和相关联的失速机制。 优选实施例中的虚级联电路可用于为虚级联流的一个或多个成员流提供差分延迟补偿。 差分延迟补偿涉及将延迟引入至少一个成员流中。 本发明的失速需求检测方面涉及检测在成员流的对齐需要引入延迟的条件时,例如在将成员流添加到虚拟级联流时。 这种情况可能出现,例如,如果附加流的传输延迟大于虚级联流的所有其他成员流的传输延迟。 失速实现确保在给定成员流的引入延迟的至少一部分期间,为该成员流传输的数据被标记为无效,从而防止引入数据错误。
    • 8. 发明授权
    • Communications system with symmetrical interfaces and associated methods
    • 具有对称接口和相关方法的通信系统
    • US06775302B1
    • 2004-08-10
    • US09459439
    • 1999-12-13
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • H04J306
    • H04Q11/0478H04L2012/5674
    • A communications system includes a physical layer device (PLD) and a logical link device (LLD), each having respective send and receive interfaces being substantially identical to define symmetrical interfaces for the system. Accordingly, design and manufacturing is simplified compared to conventional systems. In addition, advantages are also provided in terms of loopback capability and packaging options. The PLD comprises a PLD send interface including PLD parallel information outputs, and a PLD receive interface including PLD parallel information inputs. Similarly, the LLD comprises an LLD receive interface including LLD parallel information inputs, and an LLD send interface including LLD parallel information outputs. Parallel communications channels connect the PLD information outputs to respective LLD information inputs, and connect the LLD information outputs to respective PLD information inputs. The PLD send interface and the LLD send interface are substantially identical, and the PLD receive interface and the LLD receive interface are substantially identical to thereby define the symmetrical interfaces for the system. In view of the symmetrical interfaces, the PLD and the LLD may operate in a push-push configuration. Deskewing features are also provided.
    • 通信系统包括物理层设备(PLD)和逻辑链路设备(LLD),每个物理层设备(LLD)各自具有相同的发送和接收接口,以定义用于系统的对称接口。 因此,与常规系统相比,设计和制造被简化。 此外,还提供了环回能力和封装选项方面的优势。 PLD包括包括PLD并行信息输出的PLD发送接口和包括PLD并行信息输入的PLD接收接口。 类似地,LLD包括包括LLD并行信息输入的LLD接收接口和包括LLD并行信息输出的LLD发送接口。 并行通信通道将PLD信息输出连接到相应的LLD信息输入,并将LLD信息输出连接到相应的PLD信息输入。 PLD发送接口和LLD发送接口基本相同,PLD接收接口和LLD接收接口基本相同,从而定义了系统的对称接口。 鉴于对称接口,PLD和LLD可以以推 - 推配置运行。 还提供脱色功能。
    • 10. 发明授权
    • Communications system with symmetrical interfaces and associated methods
    • 具有对称接口和相关方法的通信系统
    • US07486703B2
    • 2009-02-03
    • US10899078
    • 2004-07-27
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • Michael S. ShafferHimanshu Mahendra ThakerCharles Albert Webb, IIILesley Jen-Yuan Wu
    • H04J3/00
    • H04Q11/0478H04L2012/5674
    • A communications system includes a physical layer device (PLD) and a logical link device (LLD), each having respective send and receive interfaces being substantially identical to define symmetrical interfaces for the system. Accordingly, design and manufacturing is simplified compared to conventional systems. In addition, advantages are also provided in terms of loopback capability and packaging options. The PLD comprises a PLD send interface including PLD parallel information outputs, and a PLD receive interface including PLD parallel information inputs. Similarly, the LLD comprises an LLD receive interface including LLD parallel information inputs, and an LLD send interface including LLD parallel information outputs. Parallel communications channels connect the PLD information outputs to respective LLD information inputs, and connect the LLD information outputs to respective PLD information inputs. The PLD send interface and the LLD send interface are substantially identical, and the PLD receive interface and the LLD receive interface are substantially identical to thereby define the symmetrical interfaces for the system. In view of the symmetrical interfaces, the PLD and the LLD may operate in a push-push configuration. Deskewing features are also provided.
    • 通信系统包括物理层设备(PLD)和逻辑链路设备(LLD),每个物理层设备(LLD)各自具有相同的发送和接收接口,以定义用于系统的对称接口。 因此,与常规系统相比,设计和制造被简化。 此外,还提供了环回能力和封装选项方面的优势。 PLD包括包括PLD并行信息输出的PLD发送接口和包括PLD并行信息输入的PLD接收接口。 类似地,LLD包括包括LLD并行信息输入的LLD接收接口和包括LLD并行信息输出的LLD发送接口。 并行通信通道将PLD信息输出连接到相应的LLD信息输入,并将LLD信息输出连接到相应的PLD信息输入。 PLD发送接口和LLD发送接口基本相同,PLD接收接口和LLD接收接口基本相同,从而定义了系统的对称接口。 鉴于对称接口,PLD和LLD可以以推 - 推配置运行。 还提供脱色功能。