Patent application number | Description | Published |
20100006784 | METHOD AND SYSTEM FOR A LIGHT SOURCE ASSEMBLY SUPPORTING DIRECT COUPLING TO AN INTEGRATED CIRCUIT - Methods and systems for a light source assembly supporting direct coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The assembly may include a laser, a microlens, a turning mirror, reciprocal and/or non-reciprocal polarization rotators, and an optical bench. The laser may generate an optical signal that may be focused utilizing the microlens. The optical signal may be reflected at an angle defined by the turning mirror, and may be transmitted out of the light source assembly to one or more grating couplers in the chip. The laser may include a feedback insensitive laser. The light source assembly may include two electro-thermal interfaces between the optical bench, the laser, and a lid affixed to the optical bench. The turning mirror may be integrated in a lid affixed to the optical bench or may be integrated in the optical bench. | 01-14-2010 |
20100128336 | INTEGRATED CONTROL SYSTEM FOR LASER AND MACH-ZEHNDER INTERFEROMETER - An integrated control system for a laser and Mach-Zehnder interferometer are disclosed and may include configuring a bias point for low-speed control of an optical modulator utilizing control circuitry integrated on the same CMOS die. The optical modulator may be differentially monitored. A laser source for the modulator may be controlled utilizing monitor photodiodes via optical taps on outputs of the modulator, or utilizing a monitor photodiode on one output port of the modulator, which may comprise a Mach-Zehnder interferometer. An error signal may be generated by subtracting monitor photodiode signals from optical taps on output ports of the modulator. The bias point of the modulator may be adjusted by minimizing the error signal. Calibration time of the bias point may be reduced utilizing electronic data inversion. An output of the modulator may comprise a Y-junction and a single monitor photodiode may measure both branches of the modulator. | 05-27-2010 |
20110305414 | METHOD AND SYSTEM FOR INTEGRATED POWER COMBINERS - A system for integrated power combiners is disclosed and may include receiving optical signals in input optical waveguides and phase-modulating the signals to configure a phase offset between signals received at a first optical coupler, where the first optical coupler may generate output signals having substantially equal optical powers. Output signals of the first optical coupler may be phase-modulated to configure a phase offset between signals received at a second optical coupler, which may generate an output signal having an optical power of essentially zero and a second output signal having a maximized optical power. Optical signals received by the input optical waveguides may be generated utilizing a polarization-splitting grating coupler to enable polarization-insensitive combining of optical signals. Optical power may be monitored using optical detectors. The monitoring of optical power may be used to determine a desired phase offset between the signals received at the first optical coupler. | 12-15-2011 |
20120205524 | Method And System For A Light Source Assembly Supporting Direct Coupling To An Integrated Circuit - Methods and systems for a light source assembly for coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The light source assembly may comprise a laser, a microlens, a turning mirror, and an optical bench, and may generate an optical signal utilizing the laser, focus the optical signal utilizing the microlens, and reflect the optical signal at an angle defined by the turning mirror. The reflected optical signal may be transmitted out of the assembly to grating couplers in the photonically enabled CMOS chip. The assembly may comprise a non-reciprocal polarization rotator, comprising a latching faraday rotator. The assembly may comprise a reciprocal polarization rotator, which may comprise a half-wave plate comprising birefringent materials operably coupled to the optical bench. The turning mirror may be integrated in the optical bench and may reflect the optical signal to transmit through a lid operably coupled to the optical bench. | 08-16-2012 |
20130336664 | METHOD AND SYSTEM FOR A LIGHT SOURCE ASSEMBLY SUPPORTING DIRECT COUPLING TO AN INTEGRATED CIRCUIT - Methods and systems for a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The CMOS chip may comprise a laser, a microlens, a turning mirror, and an optical bench, and may generate an optical signal utilizing the laser, focus the optical signal utilizing the microlens, and reflect the optical signal at an angle defined by the turning mirror. The reflected optical signal may be transmitted into the photonically enabled CMOS chip, which may comprise a non-reciprocal polarization rotator, comprising a latching faraday rotator. The CMOS chip may comprise a reciprocal polarization rotator, which may comprise a half-wave plate comprising birefringent materials operably coupled to the optical bench. The turning mirror may be integrated in the optical bench and may reflect the optical signal to transmit through a lid operably coupled to the optical bench. | 12-19-2013 |
20140126856 | Method and System for Integrated Power Combiners - A method and system for integrated power combiners are disclosed and may include a chip comprising a polarization controller, the polarization controller comprising an input optical waveguide, optical couplers, and a polarization-splitting grating coupler. The chip may be operable to: generate two output signals from a first optical coupler that receives an input signal from said input optical waveguide, phase modulate one or both of the two output signals to configure a phase offset between the two generated output signals before communicating signals with the phase offset to a second optical coupler. One or both optical signals generated by said second optical coupler may be phase modulated to configure a phase offset between signals communicated to the polarization-splitting grating coupler; and an optical signal of a desired polarization may be launched into an optical fiber via the polarization-splitting grating coupler by combining the signals communicated to the polarization-splitting grating coupler. | 05-08-2014 |
20140169740 | METHOD AND SYSTEM FOR STABILIZED DIRECTIONAL COUPLERS - Methods and systems for stabilized directional couplers are disclosed and may include a system comprising first and second directional couplers formed by first and second waveguides, where one of the waveguides may comprise a length extender between the directional couplers. The directional couplers may be formed by reduced spacing between the waveguides on opposite sides of the length extender. An input optical signal may be communicated into one of the waveguides, where at least a portion of the input optical signal may be coupled between the waveguides in the first directional coupler and at least a portion of the coupled optical signal may be coupled between the waveguides in the second directional coupler. Optical signals may be communicated out of the system with magnitudes at a desired percentage of the input optical signal. The length extender may add phase delay for signals in one of the first and second waveguides. | 06-19-2014 |
20140306131 | LIGHT SOURCE ASSEMBLY SUPPORTING DIRECT COUPLING TO AN INTEGRATED CIRCUIT - Methods and systems for a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The CMOS chip may comprise a plurality of lasers, a microlens, a turning mirror, and an optical bench, and may generate optical signals utilizing the lasers, focus the optical signals utilizing the microlens, and reflect the optical signals at an angle defined by the turning mirror. The reflected optical signals may be transmitted into the photonically enabled CMOS chip, which may comprise a non-reciprocal polarization rotator, comprising a latching faraday rotator. The CMOS chip may comprise a reciprocal polarization rotator, which may comprise a half-wave plate comprising birefringent materials operably coupled to the optical bench. The turning mirror may be integrated in the optical bench and may reflect the optical signals to transmit through a lid operably coupled to the optical bench. | 10-16-2014 |
Patent application number | Description | Published |
20120315282 | Antibodies Specific for TGF-Beta - The present disclosure relates, in general, to materials and methods for antibodies specific for transforming growth factor beta (TGFβ), including TGFβ1, TGFβ2 and TGFβ3, and uses of these antibodies in the treatment of subjects having cancer, an eye disease, condition or disorder, fibrosis, including ophthalmic fibrosis or fibrosis of the eye, and other conditions or disorders related to TGFβ expression. | 12-13-2012 |
20140023644 | Antibodies Specific for TGF-Beta - The present disclosure relates, in general, to materials and methods for antibodies specific for transforming growth factor beta (TGFβ), including TGFβ1, TGFβ2 and TGFβ3, and uses of these antibodies in the treatment of subjects having cancer, an eye disease, condition or disorder, fibrosis, including ophthalmic fibrosis or fibrosis of the eye, and other conditions or disorders related to TGFβ expression. | 01-23-2014 |
Patent application number | Description | Published |
20130024553 | Location independent dynamic IP address assignment - In one embodiment, a method includes receiving at a network device operating as a relay agent, a Dynamic Host Configuration Protocol (DHCP) request from an end host, inserting a group identifier into the DHCP request and forwarding the DHCP request to a DHCP server, the end host associated with a group identified by the group identifier, receiving a response from the DHCP server, and forwarding the response to the end host. The response includes configuration information for the end host, at least some of the configuration information selected based on the group identifier. An apparatus is also disclosed. | 01-24-2013 |
20130205376 | SYSTEM AND METHOD FOR SECURING DISTRIBUTED EXPORTING MODELS IN A NETWORK ENVIRONMENT - A method is provided in one example implementation and includes identifying a plurality of exporters that are authorized to communicate data to a collector on behalf of a secure domain; generating secure credentials for the secure domain; communicating the secure credentials to the collector; and authenticating the exporters using the secure credentials. In more particular implementations, the method can include receiving the secure credentials; receiving certain data that includes identifying information, which further includes an Internet protocol (IP) address of a source associated with the certain data; accepting the certain data if the secure credentials validate the identifying information; and rejecting the certain data if the secure credentials do not validate the identifying information. | 08-08-2013 |
20130304917 | METHOD AND APPARATUS FOR SUPPORTING ACCESS CONTROL LISTS IN A MULTI-TENANT ENVIRONMENT - In one embodiment, a method includes identifying common access control list (ACL) parameters and variable ACL parameters among a plurality of tenants in a network, mapping parameter values for the variable ACL parameters to the tenants, generating a multi-tenant access control list for the tenants, storing the multi-tenant access control list and mapping at a network device, and applying the multi-tenant access control list to ports at the network device. The multi-tenant access control list includes the common ACL parameters and variable ACL parameters. | 11-14-2013 |
20140036730 | ADAPTIVE INFRASTRUCTURE FOR DISTRIBUTED VIRTUAL SWITCH - In one embodiment, a method includes identifying at a network device, characteristics of a distributed virtual switch comprising a control plane component and a plurality of data plane components, grouping the data plane components, and adapting operation of the distributed virtual switch for one or more groups of the data plane components based on the characteristics. An apparatus and logic are also disclosed herein. | 02-06-2014 |
20140108632 | SYSTEM AND METHOD FOR EFFICIENT USE OF FLOW TABLE SPACE IN A NETWORK ENVIRONMENT - A method is provided in one example embodiment and includes determining an action to be performed with respect to a packet corresponding to a new flow received at a network device and determining whether a new entry comprising an indication of the determined action can be added to a flow table of the network device. The determination of whether a new entry can be added to the flow table is made with reference to reservation information specified in a port profile associated with the new flow. Responsive to a determination that the new entry can be added, the new entry is added to the flow table. In one embodiment, determining whether the new entry can be added comprises determining whether an existing entry can be aged out based on the reservation information specified in the associated port profile. | 04-17-2014 |
20150085870 | CO-OPERATIVE LOAD SHARING AND REDUNDANCY IN DISTRIBUTED SERVICE CHAINS IN A NETWORK ENVIRONMENT - An example method for co-operative load sharing and redundancy in distributed service chains is provided and includes deriving a service chain comprising a plurality of services in a distributed virtual switch (DVS) network environment, where a first service node provides a first portion of a specific service in the plurality of services to a packet traversing the network, and a second service node provides a second portion of the specific service to the packet, and configuring service forwarding tables at virtual Ethernet Modules associated with respective service nodes in the service chain. In a specific embodiment, the first service node and the second service node provide substantially identical service functions to the packet, wherein the specific service comprises the service functions. In various embodiments, each service node tags each packet to indicate a service completion history of service functions performed on the packet at the service node. | 03-26-2015 |
20150089082 | PATH OPTIMIZATION IN DISTRIBUTED SERVICE CHAINS IN A NETWORK ENVIRONMENT - An example method for path optimization in distributed service chains in a network environment is provided and includes receiving information about inter-node latency of a distributed service chain in a network environment comprising a distributed virtual switch (DVS), where the inter-node latency is derived at least from packet headers of respective packets traversing a plurality of service nodes comprising the distributed service chain, and modifying locations of the service nodes in the DVS to reduce the inter-node latency. In specific embodiments, the method further includes storing and time-stamping a path history of each packet in a network service header portion of the respective packet header. A virtual Ethernet Module (VEM) of the DVS stores and time-stamps the path history and a last VEM in the distributed service chain calculates runtime traffic latencies from the path history and sends the calculated runtime traffic latencies to a virtual supervisor module. | 03-26-2015 |