Patent application number | Description | Published |
20100183316 | Methods and Systems for Dynamic Equalization Delay Passive Optical Networks - Systems and methods according to these exemplary embodiments provide for methods and systems improving the protocol efficiency in passive optical networks. Additionally, methods and systems for calculating and transmitting an equalization delay change message are described. | 07-22-2010 |
20100189440 | Methods and Systems for Transmitting Data in Scalable Passive Optical Networks - Systems and methods according to these exemplary embodiments provide for methods and systems that enable decoupling of medium access control (MAC) functions from other optical transceiver functions to, for example, promote scalability of passive optical networks (PONs). A MAC frame processing unit can communicate MAC frames to optical transceiver modules via an interconnect using an encapsulating frame according to another communications protocol, e.g., XAUI. | 07-29-2010 |
20100208752 | Methods and Systems for Frame Generation in Communication Networks - Exemplary embodiments provide for methods and systems that enable frame generation by fields taken from various queues. Protocol control can also or alternatively be distributed so that one or more header fields can be generated separately from other portions of a frame, e.g., the payload. The one or more header fields can be entered into queues from which they are taken to generate frames. | 08-19-2010 |
20100278533 | BIT MASK TO OBTAIN UNIQUE IDENTIFIER - Methods and communication nodes for assigning unique identifiers to a plurality of nodes. A plurality of data values are maintained in memory, each being associated to one of the nodes. A bit mask value is obtained that, when applied to the plurality of data values, produces a plurality of unique identifiers. The bit mask value is made available to the nodes thereby assigning a unique identifier to each of the nodes. | 11-04-2010 |
20100302079 | METHOD FOR ALIGNING A SERIAL BIT STREAM WITH A PARALLEL OUTPUT - The invention relates to a method and circuit for aligning a serial bit stream with a parallel output. The method comprises latching Q bits from the serial bit stream into a register, locating a position P of a first bit of a start of frame delimiter (SFD) in the register and discarding P-1 bits from the serial bit stream, before the position of the first bit of the SFD, thereby aligning the serial bit stream with the parallel output. The circuit comprises a latch, a fault tolerant analysis logic (FTAL) for locating a position P of a first bit of a start of frame delimiter (SFD) in the register and a shift register for discarding P-1 bits from the serial bit stream, before the position of the first bit of the SFD, thereby aligning the serial bit stream with the parallel output. | 12-02-2010 |
20110170540 | FORWARDING A PACKET WITHIN A ROUTER USING FRAGMENTS OVER AN INTERCONNECT - A method and a router having a plurality of blades comprising at least a first blade and a second blade. The router comprises an interconnect providing a plurality of channels, each of which being used between two of the blades. The first blade receives a packet addressed to exit the router via the second blade, segments the packets into at least two fragments and forwards each fragment to at least two different blades, each via one of the interconnect's channels. The interconnect may be an optical interconnect by which a single wavelength from one blade defines one of the plurality of channels and wherein each blade supports a plurality of wavelengths. The at least two different blades may comprise each blade of the router, except the first blade. Each of the plurality of channels may also be a dedicated channel between two of the blades. | 07-14-2011 |
20110173369 | MEMORY MANAGEMENT USING PACKET SEGMENTING AND FORWARDING - Systems, devices and methods according to these exemplary embodiments provide for memory management techniques and systems for storing data. Data is segmented for storage in memory. According to one exemplary embodiment, each fragment is routed via a different memory bank and forwarded until they reach a destination memory bank wherein the fragments are reassembled for storage. According to another exemplary embodiment, data is segmented and stored serially in memory banks. | 07-14-2011 |
20120020020 | OPTICAL INTERCONNECTS IN COOLING SUBSTRATES - Fluid-cooling technology developed for printed circuit boards (PCBs) and electronics assemblies is combined with optical-based interconnect technology, thereby enabling efficient fabrication of PCBs with free-space optical bearers. Since cooling components such as fans and heat sinks are no longer required on the PCB, the PCB is thinner and makes better use of a cooling substrate by also using it to carry optical signals. A card or a backplane supporting a plurality of active components can combine optical signals and cooling aspects in support of those components. | 01-26-2012 |
20120020673 | OPTICAL BACKPLANE - The invention relates to an optical backplane, comprising a plurality of component connectors and at least two interconnections configurations interconnecting the component connectors. The at least two interconnections configurations allow a dynamical selection of an interconnections configuration interconnecting the component connectors. | 01-26-2012 |
20120045167 | Multi-Tier Micro-Ring Resonator Optical Interconnect System - Systems and methods according to these exemplary embodiments provide for optical interconnection using dual micro-ring resonators in a multilayer structure. Multi-wavelength optical signals can be redirected on a wavelength-by-wavelength basis, or larger, from input ports on a first layer to output ports on a second layer of an optical device. | 02-23-2012 |
20120195548 | BACKPLANES INCLUDING OPTICAL BYPASS SWITCHES, AND RELATED CIRCUIT BOARDS, COMPUTING SYSTEMS, BYPASS SWITCHES, AND METHODS - A backplane for a computing system may include a connector configured to provide a detachable mechanical coupling with a circuit board, and an optical signal path configured to carry optical signals. In addition, an optical bypass switch may be configured to couple optical signals from the optical signal path to the circuit board and to couple optical signals from the circuit board to the optical signal path responsive to an enabling signal. The optical bypass switch may be further configured to transmit optical signals therethrough to bypass the circuit board responsive to an absence of the enabling signal. Related circuit boards, computing systems, bypass switches, and methods are also discussed. | 08-02-2012 |
20120236869 | DATA NETWORK ELEMENTS, CROSSBARS, AND METHODS PROVIDING COUPLING BETWEEN REMOTE PHY AND MAC DEVICES - A crossbar may be coupled between a plurality of PHY devices configured to provide physical layer functions according to an Open Systems Interconnection, OSI, model and a plurality of MAC devices configured to provide data link layer functions according to the OSI model. First data couplings may be provided through the crossbar between the plurality of PHY devices and the plurality of MAC devices during a first time period. Second data couplings may be provided through the crossbar between the plurality of PHY devices and the plurality of MAC devices during a second time period, with the first and second data couplings being different. Related network elements, interfaces, and networks are also discussed. | 09-20-2012 |
20120251042 | Adaptive Waveguide Optical Switching System and Method - Systems and methods according to these exemplary embodiments provide for optical interconnection using a combination of an arrayed waveguide grating router (AWGr) and optical crossbar. Optical wavelengths can be flexibly routed from an input port to one or more output ports. Scaling of the system is easily accommodated. | 10-04-2012 |
20120321241 | INTERFEROMETER-BASED OPTICAL SWITCHING - Systems and methods according to these exemplary embodiments provide for optical interconnection using optical splitters and interferometer-based optical switching. Optical signals can be routed from an input port to one or more output ports via at least one splitter and at least one interferometer, e.g., a Mach Zehnder interferometer. According to one exemplary embodiment, signal degradation associated with signal splitting is mitigated by using a binary tree of splitters and interferometers between input ports and output ports. | 12-20-2012 |
20120328289 | Devices, Systems and Methods for Run-Time Reassignment of a PHY to MAC Devices Interconnect - Devices, systems and methods for run-time reassignment of the interconnection between devices pertaining to a Physical (PHY) layer and devices pertaining to a Media Access Control (MAC) layer, with no packet loss or with at most one packet lost are provided. The strategies employed by these devices, systems and methods used REMOTE FAULT, PAUSE and IDLE PATTERN messages. The devices may be interconnected via a reconfigurable optical crossbar. | 12-27-2012 |
20130016725 | METHOD AND SYSTEM FOR INTRA-NODE HEADER COMPRESSIONAANM Julien; MartinAACI LavalAACO CAAAGP Julien; Martin Laval CAAANM Brunner; RobertAACI MontrealAACO CAAAGP Brunner; Robert Montreal CA - One aspect of the invention is directed to a network element (e.g., node/router/switch, etc) which performs internal packet header compression. In particular, an aspect provides a network element comprising a plurality of ingress elements (e.g. line cards), a plurality of egress elements, and system internal network (e.g. a backplane) for switching between the correct Ingress element and egress element, and applying header compression for the purpose of reducing the bandwidth required between the elements. As such internal “metadata” can be added to the compressed header without increasing, and preferably in some embodiments, actually decreasing, the size of the packets. Typically the headers are uncompressed before exiting the egress element. | 01-17-2013 |
20130039657 | METHOD AND SYSTEM FOR DISTRIBUTING A NETWORK APPLICATION AMONG A PLURALITY OF NETWORK SITES ON A SHARED NETWORK - Presented is a system and method for distributing a network application across a plurality of geographically dispersed network sites. The system comprises a plurality of network sites connected by a shared network and interconnected by a dedicated non-blocking communication network. The system can use different interconnecting network topologies based on the number of sites to be interconnected. The method balances the network application load and resources across the interconnected network sites based on a distribution policy implemented without burdening the shared network. The method provides redundancy capabilities by detecting the loss of a network site and redistributing the network application load to the remaining network sites. | 02-14-2013 |
20130094806 | OPTICAL SIGNAL CONVERSION METHOD AND APPARATUS - An optical adapter includes an optical coupler, a plurality of fiber optic cables and an optical wavelength conversion device. The optical coupler is operable to receive a plurality of multi-mode single-wavelength optical signals having the same frequency. The plurality of fiber optic cables are arranged in parallel and each have a first end connected to the optical coupler and the other end is coupled to the optical wavelength conversion device. The optical wavelength conversion device is operable to optically convert between the plurality of multi-mode single-wavelength optical signals at the same frequency and a plurality of single-mode optical signals at different frequencies and multiplex the plurality of single-mode optical signals at the different frequencies onto a single-mode multi-wavelength optical waveguide. A corresponding optical adapter is provided for the receive side. | 04-18-2013 |
20130195396 | OPTICAL PHYSICAL INTERFACE MODULE - An optical physical interface module is provided which includes a first optical physical interface, a second optical physical interface and one or more optical components. The first optical physical interface is configured to plug into a first connector and communicate optical signals toward the first connector. The second optical physical interface is configured to receive a second connector and communicate optical signals toward the second connector. The one or more optical components are operable to process optical signals between the first and second optical physical interfaces. The optical physical interface module may be provided at the edge of a circuit board so that the circuit board has an optical interface for external communication. The optical physical interface module may be a stand-alone module or integrated into a connector of an optical cable, among other configurations. | 08-01-2013 |
20130198414 | STACKABLE INTERFACE MODULES FOR CUSTOMIZED NETWORK FUNCTIONS - A function-specific network interface module is provided which includes a housing and a connection interface at opposing ends of the housing configured to connect to another function-specific network interface module in a cascaded manner. The function-specific network interface module further includes one or more circuit components operable to provide a dedicated network function so that a plurality of different network functions is provided when the function-specific network interface module is connected to the other function-specific network interface module via the connection interface. | 08-01-2013 |
20130322838 | Fine-Grained Optical Shuffle Interconnect Topology Migration - An optical patch unit is adapted for mounting in or on an optical equipment rack and facilitates a migration from one optical shuffle box or topology to another. The optical patch unit simplifies the replacement of an optical shuffle box, in some cases allowing a phased migration that minimizes system down-time. The optical patch units described herein include passive optical patch panels. Chassis card and optical shuffle connections are terminated at the passive optical patch panel, making it possible to simplify the cabling between the chassis cards and the optical shuffle box. Once installed, chassis card cables do not need to be manipulated at all during subsequent optical shuffle maintenance procedures. Other optical patch units described herein include active optical patch units, which make the migration process less dependent on human intervention and can further reduce system down-time. | 12-05-2013 |
20140016934 | Wavelength Based Optical Power Positioning for Information and Communications Technology Systems - Wavelength-based optical power provisioning is provided by multiplexing a plurality of continuous wave light beams at different wavelengths onto a single optical fiber as a multiplexed light source and demultiplexing the multiplexed light source based on wavelength at a photonic unit coupled to the optical fiber to recover the continuous wave light beams. The recovered continuous wave light beams are split into a plurality of light beams by the photonic unit, each light beam having the same wavelength and the same or lower power as one of the recovered continuous wave light beams so that at least one of the light beams generated by the photonic unit has a higher power than the other light beams generated by the photonic unit. | 01-16-2014 |
20140016946 | Agile Light Source Provisioning for Information and Communications Technology Systems - A chassis includes a plurality of continuous wave lasers each operable to emit a continuous wave optical beam at the same power as the other lasers, and a plurality of optical couplers operable to input the continuous wave optical beams of the same power and output a plurality of continuous wave optical beams at different powers. The chassis further includes a plurality of optical assemblies operable to modulate the continuous wave optical beams of different powers into a plurality of modulated optical signals at different powers and couple the modulated optical signals onto different length optical mediums so that lower power ones of the modulated optical signals are coupled to shorter ones of the optical mediums and higher power ones of the modulated optical signals are coupled to longer ones of the optical mediums. | 01-16-2014 |
20140056554 | Radiation Scribed Waveguide Coupling for Photonic Circuits - Optical waveguide coupling ratios can be modified for a package by providing a substrate with a photonic circuit disposed on a first section of the substrate and a plurality of optical waveguides formed in glass disposed on a second section of the substrate, the waveguides being connected to the photonic circuit, adjacent ones of the waveguides having a fixed coupling ratio. A three-dimensional region of the glass abutting an end of one or more of the waveguides is lased to change a refractive index of the glass in each three-dimensional region, and thereby extend a length of each waveguide abutting one of the three-dimensional regions so that the coupling ratio between that waveguide and an adjacent waveguide is changed as a function of the extended length. The lasing is controlled based on feedback so that each coupling ratio changed by the lasing varies by less than a target amount. | 02-27-2014 |
20140161385 | Method and Apparatus for Coupling to an Optical Waveguide in a Silicon Photonics Die - This disclosure teaches an optical transposer that provides “passive” alignment between optical waveguides in a silicon photonics die seated within a receptacle that is formed in a body member of the optical transposer and corresponding optical waveguides that are precisely dimensioned and located within the body member via laser scribing. The manufacturing method and optical transposer configuration taught herein allow for essentially automated placement (e.g., seating and gluing) of silicon photonics dies within corresponding optical transposer receptacles, without need for controlling final die alignment/placement as a function of measured optical insertion loss. In particular, such passive alignment is obtained via accurate dimensioning of the receptacles relative to the dies and by precise positioning of the entry points into the receptacles of the optical waveguides that are laser scribed into the body member of the optical transposer. | 06-12-2014 |
20140294336 | Agile Light Source Provisioning for Information and Communications Technology Systems - Optical components are provided for use in information and communications technology (ICT) systems. For example, an optical assembly includes an optical module configured to modulate continuous wave optical beams of different powers into a plurality of modulated optical signals at different powers and couple the modulated optical signals onto different length optical mediums, so that lower power ones of the modulated optical signals are coupled to shorter ones of the optical mediums and higher power ones of the modulated optical signals are coupled to longer ones of the optical mediums. An optical power splitter includes a plurality of optical couplers configured to input continuous wave optical beams of the same power and output a plurality of continuous wave optical beams at different powers. | 10-02-2014 |
20140314386 | Fine-Grained Optical Shuffle Interconnect Topology Migration - An optical patch unit is adapted for mounting in or on an optical equipment rack and facilitates a migration from one optical shuffle box or topology to another. The optical patch unit simplifies the replacement of an optical shuffle box, in some cases allowing a phased migration that minimizes system down-time. The optical patch units described herein include passive optical patch panels. Chassis card and optical shuffle connections are terminated at the passive optical patch panel, making it possible to simplify the cabling between the chassis cards and the optical shuffle box. Once installed, chassis card cables do not need to be manipulated at all during subsequent optical shuffle maintenance procedures. Other optical patch units described herein include active optical patch units, which make the migration process less dependent on human intervention and can further reduce system down-time. | 10-23-2014 |
20150023665 | DYNAMIC CONTROL OF OPTICAL ATTENUATORS TO ENABLE IP MULTICAST - Methods and systems for distributing multicast signals carried by an incoming light wave are disclosed. According to one aspect, the invention provides a method of controlling an optical device. The method includes dynamically controlling a plurality of optical attenuators of the optical device based on control signals indicative of changes to a multicast group. | 01-22-2015 |
20150037032 | High Connectivity Multiple Dimension Optical Network in Glass - An optical communications system includes a first plurality of optical components having optical ports, a second plurality of optical components having optical ports and an optical cross-connect. The optical cross-connect includes a block of a single continuous construction and material having a first side adjacent the first optical components and a second side adjacent the second optical components, and a plurality of non-intersecting, continuous waveguides formed within the block and extending from the first side of the block to the second side of the block. The refractive index of each waveguide is different than the surrounding material of the block, and each waveguide changes direction at least once within the block. The waveguides are optically aligned with the optical ports of the first optical components at the first side of the block and with the optical ports of the second optical components at the second side of the block. | 02-05-2015 |
20150078712 | Method, Apparatus and Optical Interconnect Manufactured by 3D Printing - A method of manufacturing an optical interconnect includes 3D printing a plurality of non-intersecting and spaced apart optical waveguides from a material that guides electromagnetic waves in the optical spectrum after being cross-linked or polymerized in a region activated by the 3D printing. At least some of the optical waveguides change direction at least once by about 90°. The method further includes encasing at least each end of the optical waveguides with a material having a lower index of refraction than the material from which the optical waveguides are formed by 3D printing, to secure the optical waveguides. A corresponding 3D printing apparatus is also described. | 03-19-2015 |