Abstract: The invention is directed to novel sPD-1 variant-Fc fusion proteins.

Abstract: A semiconductor structure and a method for forming the same are provided in embodiments of the present disclosure. The forming method includes: providing a base; forming a trench in the base, and forming a first dielectric layer on the bottom surface and side walls of the trench; forming a conductor layer, the conductor layer covering the first dielectric layer on the bottom surface of the trench; forming a second dielectric layer in the trench on the conductor layer; and forming a drift region on a side, provided with the trench, of the base. The forming method can improve the breakdown voltage of an LDMOS device and also reduce the Ron of the LDMOS device, thereby improving the performance of the LDMOS device.

Abstract: A method and apparatus for managing liquidity when processing transactions are disclosed. In some embodiments, the method is implemented by a computing device and comprises: receiving data for a plurality of transactions; continuously reading in and aggregating, with an aggregator implemented at least partially in hardware of the computing device, transactions to produce one or more netted currency positions based on a plurality of properties of the transactions and on a plurality of netting constraints; generating one or more tasks, using a trade generator implemented at least partially in hardware of the computing device, to route cash movements as one or more batched fund transfers based on one or more trading policies; and sending the one or more tasks via network communications to one or more entities to execute the batched fund transfers.

Abstract: The invention is directed to novel sPD-1 variant—Fc fusion proteins.

Abstract: A method for editing and updating content of a collaborative document within a preview user interface is provided. The method includes receiving, by a content management platform, a request for a document stored within the content management platform in a format of a first application, wherein the request is received from a client device of a first user of the content management platform via a second application that is different from the first application, and wherein the document includes a first comment provided by a second user of the content management platform at a first point in time with respect to a first portion of the collaborative document.

Abstract: A method for assessing spectroscopic sensor accuracy, includes building an a priori simulation of generalized etalon drift. A spectroscopic sensor is tested to determine use parameters. A specific drift model is generated by applying the determined use parameters to the built a priori simulation of generalized etalon drift. The specific drift model is analyzed to determine whether the spectroscopic sensor is satisfactory.

Abstract: A method for editing and updating content of a collaborative document within a preview user interface is provided. The method includes a content management platform receives a request for a file stored which is stored in a third-party application format. The system causes a rendered graphical image of the file to be presented within a preview user interface. The rendered graphical image of the file represents a view of the file as if opened within a third-party application. The system receives from the preview user interface, content associated with a portion of the file. The system generates a new version of the file that includes the content associated with the portion of the file.

Abstract: A semiconductor structure and a method for forming the same are provided in embodiments of the present disclosure. The forming method includes: providing a base; forming a trench in the base, and forming a first dielectric layer on the bottom surface and side walls of the trench; forming a conductor layer, the conductor layer covering the first dielectric layer on the bottom surface of the trench; forming a second dielectric layer in the trench on the conductor layer; and forming a drift region on a side, provided with the trench, of the base. The forming method can improve the breakdown voltage of an LDMOS device and also reduce the Ron of the LDMOS device, thereby improving the performance of the LDMOS device.

Abstract: Techniques regarding selectively tuning the operating frequency of superconducting Josephson junction resonators are provided. For example, one or more embodiments described herein can comprise a method that can include chemically altering a Josephson junction of a Josephson junction resonator via a plasma treatment. The method can also comprise selectively tuning an operating frequency of the Josephson junction resonator based on a property of the plasma treatment.

Abstract: A generalized feed-forward method for accurate tunable laser absorption spectroscopy includes generating a laser beam. The generated laser beam is directed down a reference path and a test/sample path. One or more parameters are extracted from the reference path. The one or more parameters, extracted from the reference path, are used as feed-forward, to adjust spectral analysis of the test/sample path to detect a composition and/or concentration of an analyte gas within the test/sample path. The extraction of the one or more parameters from the reference path and the spectral analysis of the test/sample path are performed substantially concurrently.

Abstract: An on-chip spectroscopic sensor includes a tunable diode laser. A laser driver for drives the tunable diode laser. An analyte test cavity receives a chemical sample and exposes the received chemical sample to light from the tunable diode laser. An optical detector detects light emerging from the analyte test cavity as a result of the laser exposure. A spectral analyzer determines a spectrum of the emerging light, matches and removes one or more known optical fringe patterns from the determined spectrum, and determines a composition or concentration of the chemical sample from the optical fringe pattern-removed spectrum.

Abstract: An exemplary sound extraction system generates an averaged set of audio signals by averaging values derived from different audio signals. For example, the sound extraction system generates an averaged set of audio signals by averaging values derived from a first set of audio signals captured at a particular location with respect to a capture zone, and values derived from a second set of audio signals captured at different locations with respect to the capture zone. Based on the averaged set of audio signals, the sound extraction system generates a location-diffused signal representative of sound in the capture zone. Corresponding systems and methods are also disclosed.

Abstract: A generalized feed-forward method for accurate tunable laser absorption spectroscopy includes generating a laser beam. The generated laser beam is directed down a reference path and a test/sample path. One or more parameters are extracted from the reference path. The one or more parameters, extracted from the reference path, are used as feed-forward, to adjust spectral analysis of the test/sample path to detect a composition and/or concentration of an analyte gas within the test/sample path. The extraction of the one or more parameters from the reference path and the spectral analysis of the test/sample path are performed substantially concurrently.

Abstract: The invention is directed to novel sPD-1 variant—Fc fusion proteins.

Abstract: A tunable diode laser absorption spectroscopy device includes a tunable diode laser. A laser driver is configured to drive the diode laser and ramp it within a particular frequency range. An analyte gas container, a reference gas container, and a fringe generating device are configured to receive the laser therethrough. An optical detector is configured to detect the laser after it has passed through the analyte gas container and/or the reference gas container, and the in-line fringe generating device. An acquisition card is configured to sample an output of the optical detector. A spectral analyzer is configured to receive output data from the acquisition card, determine a spectrum of the output data, decouple the fringe spectrum from the measured spectrum, calibrate the spectrum based on an expected ideal spectrum of both the fringe and reference gas, and determine a composition of the analyte based on the calibrated spectrum.

Abstract: An exemplary sound extraction system generates an averaged set of audio signals by averaging values derived from different audio signals. For example, the sound extraction system generates an averaged set of audio signals by averaging values derived from a first set of audio signals captured at a particular location with respect to a capture zone, and values derived from a second set of audio signals captured at different locations with respect to the capture zone. Based on the averaged set of audio signals, the sound extraction system generates a location-diffused signal representative of sound in the capture zone. Corresponding systems and methods are also disclosed.

Abstract: An exemplary microphone capture simulation system accesses a captured set of audio signals captured by a plurality of directional microphones disposed at a plurality of locations on a perimeter of a capture zone of a real-world scene. The system identifies a location within the capture zone that corresponds to a virtual location at which a user is virtually located within a virtual reality space that is based on the capture zone. Based on the captured set of audio signals and the identified location, the system generates a simulated set of audio signals representative of a simulation of a full-sphere multi-capsule microphone capture at the identified location. The system processes the simulated set of audio signals to form a renderable set of audio signals configured to be rendered to simulate full-sphere sound for the virtual location while the user is virtually located at the virtual location.

Abstract: An exemplary ambient sound extraction system accesses a location-confined A-format signal that includes a first set of audio signals captured by different capsules of a multi-capsule microphone disposed at a first location with respect to a capture zone of a real-world scene. The ambient sound extraction system also accesses a second set of audio signals captured by a plurality of microphones disposed at a plurality of other locations with respect to the capture zone. The ambient sound extraction system generates a location-diffused A-format signal. The location-diffused A-format signal includes a third set of audio signals that is based on the first and second sets of audio signals. Based on the location-diffused A-format signal, the ambient sound extraction system generates a location-diffused B-format signal representative of ambient sound in the capture zone. Corresponding methods are also disclosed.

Abstract: A method for assessing spectroscopic sensor accuracy, includes building an a priori simulation of generalized etalon drift. A spectroscopic sensor is tested to determine use parameters. A specific drift model is generated by applying the determined use parameters to the built a priori simulation of generalized etalon drift. The specific drift model is analyzed to determine whether the spectroscopic sensor is satisfactory.

Abstract: An on-chip spectroscopic sensor includes a tunable diode laser. A laser driver for drives the tunable diode laser. An analyte test cavity receives a chemical sample and exposes the received chemical sample to light from the tunable diode laser. An optical detector detects light emerging from the analyte test cavity as a result of the laser exposure. A spectral analyzer determines a spectrum of the emerging light, matches and removes one or more known optical fringe patterns from the determined spectrum, and determines a composition or concentration of the chemical sample from the optical fringe pattern-removed spectrum.