Abstract: A system and method for spinal fusion comprising a spinal fusion implant of non-bone construction releasably coupled to an insertion instrument dimensioned to introduce the spinal fusion implant into any of a variety of spinal target sites.

Abstract: The present invention relates to a system and methods generally aimed at surgery. More particularly, the present invention is directed at a system and related methods for performing surgical procedures and assessments involving the use of neurophysiology.

Abstract: Methods and systems for a optical fiber connector locking clip are disclosed and may include operatively coupling an optical fiber connector to an optical fiber adaptor by inserting the optical fiber connector into the optical fiber adaptor, where the optical fiber connector comprises an optical fiber connector pull-to-release housing. The optical fiber connector may be secured to the optical fiber adaptor by placing an optical fiber locking clip adjacent to the optical fiber connector pull-to-release housing, thereby preventing the optical fiber connector pull-to-release housing from being actuated. An optical cable may be coupled to the optical fiber connector. The adaptor may be coupled to an optical device, which may include an optical transceiver. The optical fiber locking clip may be plastic or metal. The optical fiber connector and the optical fiber connector pull-to-release housing may be plastic.

Abstract: Methods and systems for a photonic interposer may include receiving a continuous wave (CW) optical signal in a silicon photonic interposer from an optical source. A modulated optical signal may be generated by processing the received CW optical signal based on a first electrical signal received from an electronics die. A second electrical signal may be generated in the silicon photonic interposer based on the generated modulated optical signal, and may then be communicated to the electronics die via copper pillars. Optical signals may be communicated into and/or out of the silicon photonic interposer utilizing grating couplers. The electronics die may comprise one or more of a processor core, a switch core, memory, or a router.

Abstract: A transceiver comprising a chip, a semiconductor laser bonded to the chip, and one or more photodetectors, the chip comprising optical and optoelectronic devices and electronic circuitry, where the transceiver is operable to: communicate, utilizing the semiconductor laser, an optical source signal into the chip, generate first optical signals in the chip based on the optical source signal, transmit the first optical signals from the chip via a, and receive second optical signals from the light pipe and converting the second optical signals to electrical signals via the photodetectors. The optical signals may be communicated out of and in to a top surface of the chip. The one or more photodetectors may be integrated in the chip. The optoelectronic devices may include the one or more photodetectors integrated in the chip.

Abstract: A collaboration database service may allow users to create, edit, and share collaborative content on custom databases consistently across a variety of platforms and devices. For example, a collaboration database engine of the service may be configured to detect creation of a table through an application associated with the service, the table including one or more columns and rows that form a plurality of cells. The engine may also be configured to determine and optionally reduce a character count of data within each cell, map each cell to a bucket based on the character count of the data, and automatically select an optimal configuration of the table to be provided for display through the application based on the mapping. The optimal configuration may maximize an amount of the data presented within each cell of the table and enable consistent presentation of the table across a variety of platforms and devices.

Abstract: A collaboration database service may allow users to create, edit, and share collaborative content on custom databases consistently across a variety of platforms and devices. For example, a collaboration database engine of the service may be configured to detect creation of a table through an application associated with the service, the table including one or more columns and rows that form a plurality of cells. The engine may also be configured to determine and optionally reduce a character count of data within each cell, map each cell to a bucket based on the character count of the data, and automatically select an optimal configuration of the table to be provided for display through the application based on the mapping. The optimal configuration may maximize an amount of the data presented within each cell of the table and enable consistent presentation of the table across a variety of platforms and devices.

Abstract: Methods and systems for a photonic interposer are disclosed and may include receiving one or more continuous wave (CW) optical signals in a silicon photonic interposer from an external optical source, from an optical source assembly via optical fibers coupled to the silicon photonic interposer. A modulated optical signal may be generated by processing the received CW optical signals based on a first electrical signal received from the electronics die. A second electrical signal may be generated in the silicon photonic interposer based on the generated modulated optical signals, and may then be communicated to the electronics die via copper pillars. Optical signals may be communicated into and/or out of the silicon photonic interposer utilizing grating couplers. The electronics die may comprise one or more of: a processor core, a switch core, memory, or a router.

Abstract: Data presentation functionality associated with a collaboration database may be provided. A presentation of a table in conjunction with a collaboration database may be detected. At least one field in the table that includes people type data may also be detected. Initial letters associated with a person or an entity may be detected as input into the at least one field. A type of entry of the initial letters may be detected. A local data source may be searched to identify matching entries. Suggestions may then be displayed. If one of the suggestions is selected, additional information associated with the selected suggestion may be displayed on a contact card in a vicinity of the at least one field. An interactive functionality associated with the additional information through the contact card may be provided upon selection of the at least one field when the table is presented.

Abstract: Methods and systems for a free space CWDM MUX/DEMUX for integration with a grating coupler based silicon platform may include an optical assembly coupled to a photonic chip. The optical assembly includes a lens array on the top surface of the chip, an angled mirror, a plurality of transparent spacers, and a plurality of thin film filters. The optical assembly may receive an input optical signal comprising a plurality of optical signals at different wavelengths via an optical fiber coupled to the optical assembly, communicate the plurality of optical signals through a first of the plurality of transparent spacers, pass a first of the plurality of optical signals through a corresponding one of the plurality of thin film filters while reflecting others of the plurality of optical signals back into the first of the plurality of transparent spacers, and reflect the others of the plurality of signals towards a second of the plurality of thin film filters.

Abstract: Methods and systems for a optical fiber connector locking clip are disclosed and may include operatively coupling an optical fiber connector to an optical fiber adaptor by inserting the optical fiber connector into the optical fiber adaptor, where the optical fiber connector comprises an optical fiber connector pull-to-release housing. The optical fiber connector may be secured to the optical fiber adaptor by placing an optical fiber locking clip adjacent to the optical fiber connector pull-to-release housing, thereby preventing the optical fiber connector pull-to-release housing from being actuated. An optical cable may be coupled to the optical fiber connector. The adaptor may be coupled to an optical device, which may include an optical transceiver. The optical fiber locking clip may be plastic or metal. The optical fiber connector and the optical fiber connector pull-to-release housing may be plastic.

Abstract: Methods and systems for a light source arrangement supporting direct coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The arrangement 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 arrangement to one or more grating couplers in the chip. The laser may include a feedback insensitive laser. The light source arrangement 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.

Abstract: Implants, instruments, and methods for performing surgical procedures on the spine, including one or more of creating an operative corridor to the spine, delivering implants to the spine, fusing one or more segments of the spine, and fixing one or more segments of the spine.

Abstract: The present invention relates to a solid block comprising a solidified material, characterized in that the solid block comprises one or more domains of prismatic or cylindrical shape extending between two parallel surfaces of the solid block from one surface to the other, wherein the solidified powder inside the one or more domains and the solidified powder outside the one or more domains each comprises one or more chemical substances, and wherein the chemical composition of the solidified powder inside the one or more domains is different from the chemical composition of the solidified powder outside the one or more domains. The present invention further relates to methods for producing such solid block. The present invention also relates to the use of such solid block as detergent in warewashing applications.

Abstract: 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.

Abstract: Methods and systems for a multi-fiber push-on/pull-off connector locking clip are disclosed and may include operatively coupling a multi-fiber push-on/push-off (MPO) connector to an MPO adaptor by inserting the MPO connector into the MPO adaptor, where the MPO connector comprises an MPO connector pull-to-release housing. The MPO connector may be secured to the MPO adaptor by placing an MPO locking clip adjacent to the MPO connector pull-to-release housing, thereby preventing the MPO connector pull-to-release housing from being actuated. An optical cable may be coupled to the MPO connector. The adaptor may be coupled to an optical device, which may include an optical transceiver. The MPO locking clip may be plastic or metal. The MPO connector and the MPO connector pull-to-release housing may be plastic.

Abstract: A transceiver comprising a chip, a semiconductor laser bonded to the chip, and one or more photodetectors, the chip comprising optical and optoelectronic devices and electronic circuitry, where the transceiver is operable to: communicate, utilizing the semiconductor laser, an optical source signal into the chip, generate first optical signals in the chip based on the optical source signal, transmit the first optical signals from the chip via a, and receive second optical signals from the light pipe and converting the second optical signals to electrical signals via the photodetectors. The optical signals may be communicated out of and in to a top surface of the chip. The one or more photodetectors may be integrated in the chip. The optoelectronic devices may include the one or more photodetectors integrated in the chip.

Abstract: Methods and systems for a photonic interposer are disclosed and may include receiving one or more continuous wave (CW) optical signals in a silicon photonic interposer from an external optical source, from an optical source assembly via optical fibers coupled to the silicon photonic interposer. A modulated optical signal may be generated by processing the received CW optical signals based on a first electrical signal received from the electronics die. A second electrical signal may be generated in the silicon photonic interposer based on the generated modulated optical signals, and may then be communicated to the electronics die via copper pillars. Optical signals may be communicated into and/or out of the silicon photonic interposer utilizing grating couplers. The electronics die may comprise one or more of: a processor core, a switch core, memory, or a router.

Abstract: Methods and systems for a free space CWDM MUX/DEMUX for integration with a grating coupler based silicon platform may include an optical assembly coupled to a photonic chip. The optical assembly includes a lens array on the top surface of the chip, an angled mirror, a plurality of transparent spacers, and a plurality of thin film filters. The optical assembly may receive an input optical signal comprising a plurality of optical signals at different wavelengths via an optical fiber coupled to the optical assembly, communicate the plurality of optical signals through a first of the plurality of transparent spacers, pass a first of the plurality of optical signals through a corresponding one of the plurality of thin film filters while reflecting others of the plurality of optical signals back into the first of the plurality of transparent spacers, and reflect the others of the plurality of signals towards a second of the plurality of thin film filters.