Abstract: A method for determining a bit-error rate in data received on high-speed data channel that uses a forward-error-correcting decoder includes receiving at receiver circuitry on the high-speed data channel a received predetermined data pattern, comparing, bit-wise, the received predetermined data pattern to a locally generated copy of the predetermined data pattern to derive output bits representing whether there was an error in a corresponding bit of the received predetermined data pattern, to determine error bits in the received predetermined data pattern, grouping output bits from the comparing into symbols and codewords, and for each codeword for which a count of symbols containing errors exceeds a number of symbols correctable by the forward-error-correcting decoder, counting a total number of bit errors contained in the symbols containing errors, for use in adjusting the receiver circuitry in response to the total number of bit errors.

Abstract: A method for intraoperatively augmenting a revision implant includes removing a primary implant from a bone, intraoperatively determining a size of a defect of the bone, intraoperatively cutting a bone filler material to the size of the defect, installing the bone filler material at the defect, and installing the revision implant on the bone.

Abstract: Various embodiments of the present application are directed towards an integrated chip (IC). The IC comprises a trench capacitor overlying a substrate. The trench capacitor comprises a plurality of capacitor electrode structures, a plurality of warping reduction structures, and a plurality of capacitor dielectric structures. The plurality of capacitor electrode structures, the plurality of warping reduction structures, and the plurality of capacitor dielectric structures are alternatingly stacked and define a trench segment that extends vertically into the substrate. The plurality of capacitor electrode structures comprise a metal component and a nitrogen component. The plurality of warping reduction structures comprise the metal component, the nitrogen component, and an oxygen component.

Abstract: An radiator includes a radiator body. A first side of the radiator body defines an arc-shaped heat conducting surface. A second side of the radiator body defines a heat dissipating tooth area. The heat dissipating tooth area includes a middle heat dissipating tooth area and two trunk heat dissipating tooth areas symmetrically arranged on two sides of the middle heat dissipating tooth area. A plurality of first heat dissipating fins is arranged in the middle heat dissipating tooth area. Each of the trunk heat dissipating tooth areas includes a trunk and a plurality of second heat dissipating fins. Each trunk is obliquely arranged on the radiator body. The plurality of second heat dissipating fins is arranged on one side of a corresponding trunk away from the plurality of first heat dissipating fins.

Abstract: An immersion liquid supply and recovery device (2) with new-type pumping and drainage cavities includes pumping and drainage openings, pumping and drainage cavities, and sealed pumping and drainage channels, wherein the pumping and drainage cavities are in communication with an immersion flow field by means of the multiple pumping and drainage openings, and the pumping and drainage openings in communication with the different pumping and drainage cavities are circumferentially distributed in a crossed manner; at least two pumping and drainage cavities are provided, and each of the pumping and drainage cavities is in communication with an immersion liquid recovery system by one sealed pumping and drainage channel respectively; and the communication points of the pumping and drainage cavities and the sealed pumping and drainage channels are evenly arranged in the circumferential direction of the pumping and drainage cavities.

Abstract: An electronic device includes a fuel cell providing a fuel voltage, a first switch, a rechargeable battery providing a battery voltage, a second switch, a relay, a driving circuit, and a controller. The first switch provides the fuel voltage to a first node according to a first control signal. The second switch is coupled to the first node, and charges the rechargeable battery with the fuel voltage according to a second control signal. The relay provides a voltage of the first node to the load according to the third control signal. The driving circuit generates the first control signal, the second control signal, and the third control signal according to a driving signal. The controller generates the driving signal according to the fuel voltage and the battery voltage.

Abstract: A permanent magnet synchronous motor parameter measurement method is provided. The method comprises: performing a maximum torque per ampere and a vector control on a permanent magnet synchronous motor, causing the permanent magnet synchronous motor to run stably and normally; when the permanent magnet synchronous motor is stably and normally running, an ?-axis current and a ?-axis current are obtained by means of three phase current sampling of the permanent magnet synchronous motor undergoing three phase to two phase transformation, and a rotor position angle and an electrical rotational speed of the permanent magnet synchronous motor are measured and obtained by means of reading a sensor on the permanent magnet synchronous motor; the six physical quantities mentioned-above are taken and a recursive least squares method is used to simultaneously obtain four parametric results for stator resistance, d-axis inductance, q-axis inductance, and flux linkage.

Abstract: A method of performing a procedure includes preparing a subject, gaining access to a portion of the subject with a first instrument, removing a first portion of the portion of the subject with the first instrument, gaining access to the portion of the subject with a tracked instrument, moving the tracked instrument to a surface revealed by removal of at least the first portion from the portion of the subject, tracking the tracked instrument while moving at least the tracked instrument to the surface, and determining a representation of the surface based on the tracking the tracked instrument.

Abstract: A method for performing memory calibration and an associated System on Chip (SoC) Integrated Circuit (IC) are provided. The method may include: in a power-up and initialization phase, controlling a physical layer (PHY) circuit within the SoC IC to apply power to a memory through a pad set and perform initialization on the memory; in an impedance-calibration-related phase, triggering the memory to perform impedance calibration regarding a set of data pins; in at least one subsequent phase, during performing any calibration operation among a reading-related calibration operation and a writing-related calibration operation, performing a data access test corresponding to a set of test points on a predetermined mask, wherein the predetermined mask is movable with respect to a data eye; and according to whether the data access test is successful, selectively stopping the any calibration operation.

Abstract: The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Embodiments of the present disclosure disclose a method for CSI reporting at a UE and the corresponding UE.

Abstract: An antenna structure includes a ground element, a feeding radiation element, a first radiation element, a second radiation element, a first coupling branch, and a dielectric substrate. The feeding radiation element has a feeding point. The first radiation element is coupled to the feeding radiation element. The second radiation element is coupled to the feeding radiation element. The second radiation element and the first radiation element substantially extend in opposite directions. The first coupling branch is coupled to a first grounding point on the ground element. The first coupling branch extends across the first radiation element. The first coupling branch includes a first coil portion and a first connection portion.

Abstract: An antenna structure includes a ground element, a feeding radiation element, a first radiation element, a second radiation element, a first coupling branch, an inductive element, and a dielectric substrate. The feeding radiation element has a feeding point. The first radiation element is coupled to the feeding radiation element. The second radiation element is coupled to the feeding radiation element. The second radiation element and the first radiation element substantially extend in opposite directions. The first coupling branch is coupled through the inductive element to a first grounding point on the ground element. The first coupling branch includes an elevated portion extending across the first radiation element. The ground element, the feeding radiation element, the first radiation element, the second radiation element, the inductive element, and the first coupling branch are disposed on the same surface of the dielectric substrate.

Abstract: An immersion fluid recovery system and an immersion fluid recovery method using said system.

Abstract: An apparatus and method for manufacturing a semiconductor package structure are provided. The method includes: providing a process line comprising a first semiconductor manufacturing portion configured to provide a first operation including a first process step, and a second semiconductor manufacturing portion configured to provide a second operation including a second process step; passing a packaging structure through the second semiconductor manufacturing portion, wherein the second semiconductor manufacturing portion applies the second process step to the packaging structure; passing the packaging structure through the first semiconductor manufacturing portion, wherein the first semiconductor manufacturing portion applies the first process step to the packaging structure; and passing the packaging structure through the second semiconductor manufacturing portion again without applying the second process step thereon.

Abstract: An electronic device includes a fuel cell, a first switch, a rechargeable battery, a second switch, and a relay. The fuel cell provides a fuel voltage. The first switch provides the fuel voltage to a first node according to a first control signal. The rechargeable battery provides a battery voltage. The second switch is coupled to the first node and charges the rechargeable battery with the fuel voltage according to a second control signal. The relay provides a voltage of the first node to the load according to the third control signal.

Abstract: Example method and apparatus, systems, and articles of manufacture for immersion cooling systems are disclosed herein. An example apparatus disclosed herein includes a tank to hold a coolant, an overflow chamber to direct the coolant toward an outlet, and a plate within the overflow chamber, the plate including a plurality of openings, the coolant to pass through at least one of the plurality of openings before reaching the outlet.

Abstract: Various embodiments of the present disclosure are directed towards an integrated chip including a capacitor over a substrate. The capacitor includes a plurality of conductive layers and a plurality of dielectric layers. The plurality of conductive layers and dielectric layers define a base structure and a first protrusion structure extending downward from the base structure towards a bottom surface of the substrate. The first protrusion structure comprises one or more surfaces defining a first cavity. A top of the first cavity is disposed below the base structure.

Abstract: The present disclosure provides a method performed by a user terminal UE, a method performed by a base station, a user terminal and a base station. The method performed by a user terminal UE comprises: receiving information related to whether a hybrid automatic repeat request HARQ feedback function is disabled or not; based on the information, receiving downlink control information and a shared channel scheduled by the downlink control information.

Abstract: A fiber optic tracking sensor includes an outer tube, a plurality of optical fibers within the outer tube and including a central optical fiber and a plurality of additional optical fibers, and one or more structural members within the outer tube and configured to provide a spacing between the plurality of optical fibers such that the central optical fiber is positioned along a central longitudinal axis of the outer tube and the plurality of additional optical fibers are spaced apart from one another and from the central optical fiber.

Abstract: The present disclosure relates to a pre-5th generation (5G) or 5G communication system to be provided for supporting higher data rates beyond 4th generation (4G) communication system such as long term evolution (LTE). The application provides an energy-saving method and a device in a Sidelink system, the method includes: acquiring discontinuous transmission DTX configuration from a network node; determining a first time range and/or a second time range according to the acquired DTX configuration; staying awake in the first time range, or entering into a sleep state in the second time range.