A device for decoding encoded dynamic mesh data determines a set of quantized integer coefficient values for displacement vectors of the encoded dynamic mesh data; determines a quantization parameter based on one or more syntax elements included in a displacement sub-bitstream of the encoded dynamic mesh data; inverse quantizes, based on the quantization parameter, the set of quantized integer coefficient values to determine a set of fixed-point dequantized coefficient values; determines a set of fixed-point transformed coefficient values based on the set of fixed-point dequantized coefficient values; converts the set of fixed-point transformed coefficient values to a set of floating-point transformed coefficient values; inverse transforms the set of floating-point transformed coefficient values to determine a set of reconstructed displacement vectors; and determines a reconstructed deformed mesh based on the set of reconstructed displacement vectors.
H04N 19/33 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant des techniques hiérarchiques, p. ex. l'échelonnage dans le domaine spatial
In an aspect, a user equipment may receive assistance information for one or more index modulated sensing waveforms. The user equipment may receive index modulated sensing signals, the index modulated sensing signals based on the one or more index modulated sensing waveforms. The user equipment may process the index modulated sensing signals using at least some of the assistance information.
Systems and methods for in-system, self-recovery (ISSR) in a system-on-a-chip (SoC) are disclosed for detecting and recovering from a bit corruption event that has caused an SoC subsystem to crash. If a bit flip event is detected through observation of a subsystem crash, ISSR steps are taken in an attempt to correct the issue. If the ISSR steps are successful, then the system is not halted and mission mode operations continue. If the ISSR steps are unsuccessful, then the system is halted and an return material authorization (RMA) can then be issued for return of the failed part to the OEM. Crash events and self-recovery attempts preferably are logged by the ISSR system and provided to the OEM.
G06F 11/07 - Réaction à l'apparition d'un défaut, p. ex. tolérance de certains défauts
G06F 11/14 - Détection ou correction d'erreur dans les données par redondance dans les opérations, p. ex. en utilisant différentes séquences d'opérations aboutissant au même résultat
4.
SUPERPOSITION CODING FOR RATE CONTROL OF UPLINK CONTROL INFORMATION (UCI)
Aspects of the present disclosure relate to wireless communications, and more particularly, to techniques for communication uplink control information (UCI). One aspect provides a method for wireless communication. The method includes generating a physical uplink shared channel (PUSCH) having at least one resource element (RE) for communicating uplink control information (UCI), wherein at least a portion of the UCI is encoded and mapped to a first subset of bits of the at least one RE, and wherein a portion of data is encoded and mapped to a second subset of bits of the at least one RE; and transmitting the PUSCH including the data and the UCI.
H04W 72/1268 - Jumelage du trafic à la planification, p. ex. affectation planifiée ou multiplexage de flux de flux de données en liaison ascendante
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 1/1812 - Protocoles hybridesDemande de retransmission automatique hybride [HARQ]
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04W 72/21 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens ascendant de la liaison sans fil, c.-à-d. en direction du réseau
This disclosure provides methods and devices for introducing a power save protocol (for example, a lower power mode) for a multi-link devices (MLDs). Some aspects more specifically relate to reducing power consumption in an access point (AP) MLD, and more particularly, to a power save protocol (or a lower power mode) for an AP MLD. In some aspects, an AP MLD may initiate a lower power mode to save power for as long as possible while still maintaining minimal receive (RX) and transmit (TX) functionality. When requested by an associated station (STA), the AP MLD may then transition from the lower power mode to a higher power mode with full RX and TX functionality with a minimal delay. The described techniques may also account for trade-offs and constraints which arise due to different use cases and scenarios as well as different device configurations.
Disclosed are techniques for wireless sensing. In an aspect, a receiver sensing node receives, from a sensing entity, assistance data for sensing a set of target objects, wherein the assistance data includes data association (DA) information for each target object of the set of target objects, obtains a plurality of sensing measurements of one or more sensing reference signals transmitted by a transmitter sensing node and reflected from at least a subset of target objects of the set of target objects, and assigns one or more sensing measurements of the plurality of sensing measurements to each target object in the subset of target objects.
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may perform a set of synchronization signal block (SSB) measurements and select a serving UE beam and a set of candidate UE beams for measuring a channel state information (CSI) reference signal (CSI-RS) based on the set of SSB measurements. The UE may identify, or predict, time resources for the CSI-RS based on previous CSI-RS configurations. The UE may measure the CSI-RS based on the time resources using a candidate UE beam from the set of candidate UE beams. The UE may transmit, to an access network entity, a measurement report based on measuring the CSI-RS using the candidate UE beam or a last CSI-RS measurement on the serving UE beam.
This disclosure provides methods, components, devices and systems for error correction for increased reliability of packets. Various aspects generally relate how a receiving wireless device may recover one or more incorrect bits of a received packet. The receiving wireless device may replace the one or more incorrect bits with expected values of the one or more incorrect bits. In some aspects, the receiving wireless device may determine the expected values for the one or more incorrect bits from one or more previously received packets, by observing changes in values associated with the one or more incorrect bits over time, or by negotiating the expected values with a transmitting device.
H04L 41/16 - Dispositions pour la maintenance, l’administration ou la gestion des réseaux de commutation de données, p. ex. des réseaux de commutation de paquets en utilisant l'apprentissage automatique ou l'intelligence artificielle
Certain aspects of the present disclosure provides an example method performable at a wireless node, which may involve obtaining a first frame that includes an indication of whether or not a second wireless node is capable of supporting one or more of a plurality of coordinated communication schemes, establishing a session with the second wireless node by an exchange of information with the second wireless node, wherein the exchange of information is regarding one or more features of at least a first coordinated communication scheme of the plurality of coordinated communication schemes that is supported by both the first wireless node and the second wireless node, and participating in the session using at least the first coordinated communication scheme, said participation being based on one or more parameters associated with the exchange of information.
Certain aspects of the present disclosure provide eyewear having a multi-mode antenna structure. Example eyewear comprises a frame comprising a multi-mode antenna structure comprising antenna traces comprising a first antenna trace and a second antenna trace, a set of switches comprising a first switch and a second switch, wherein each switch of the switches is coupled to at least one of the antenna traces, and wherein the switches is configured to selectively switch among switching states, each of the switching states being associated with a corresponding antenna configuration of a plurality of antenna configurations formed by the antenna traces; a first antenna feed selectively coupled to the first antenna trace via the first switch; and a second antenna feed selectively coupled to the second antenna trace via the second switch. The frame further comprises one or more temple arms coupled to the frame.
H01Q 1/27 - Adaptation pour l'utilisation dans ou sur les corps mobiles
G02C 11/00 - Accessoires non optiquesFixation de ceux-ci
H01Q 1/22 - SupportsMoyens de montage par association structurale avec d'autres équipements ou objets
H01Q 21/30 - Combinaisons d'unités d'antennes séparées, fonctionnant sur des bandes d'ondes différentes et connectées à un système d'alimentation commun
A zero-power IoT reader, e.g., a UE, may be configured to broadcast, for other wireless devices, a first control information including a first scheduling information of a first resource pool including first time-frequency resources for zero-power IoT communication, and perform the zero-power IoT communication in the first resource pool associated with the first control information from one or more passive network entities. The zero-power IoT reader may also receive a second control information including a second scheduling information of a second resource pool including second time-frequency resources from a second UE among the other wireless devices, and determine the first resource pool including the first time-frequency resources for zero-power IoT communication based on the second control information.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a distributed unit (DU) may receive an indication that a radio unit (RU) supports a control plane (C-Plane) section size reduction format. The DU may transmit, based at least in part on receiving the indication, a C-Plane message that uses the C-Plane section size reduction format, the C-Plane message indicating a resource allocation for an interleaved physical downlink control channel (PDCCH) control resource set (CORESET) 0. Numerous other aspects are described.
This disclosure provides systems, methods, and devices for enhancing data communication and computation efficiency in Systems on a Chip (SoC). In one aspect, a system is provided that uses a network on a chip (NOC) to route communications between chip components using a plurality of network interfaces linked by shared data connections. The system may be configured to route communications via multiple virtual channels along the shared connections, with credit restrictions for the channels. Additionally, the system may support mechanisms for maintaining both private and shared credit balances for these virtual channels. Additional aspects are also discussed.
Systems and methods for virtual machine to co-processor passthrough. In one embodiment, a system includes a host, a guest virtual machine (GVM), and co-processor. The host operates a hypervisor, the GVM communicates with the host via a paravirtualized interface, and the co-processor communicates with the host via a link layer transport. The host allocates a hardware transport resource for the GVM and the co-processor, sends an address of the hardware transport resource and an identifier of the co-processor to the GVM via the paravirtualized interface, and sends the address of the hardware transport resource and an identifier of the GVM to the co-processor via the link layer transport. The GVM and the co-processor establish a communication channel based on the address of the hardware transport resource and received identifiers, and transmit data over the communication channel directly between the GVM and the co-processor without intervention by the host.
G06F 9/455 - ÉmulationInterprétationSimulation de logiciel, p. ex. virtualisation ou émulation des moteurs d’exécution d’applications ou de systèmes d’exploitation
G06F 11/07 - Réaction à l'apparition d'un défaut, p. ex. tolérance de certains défauts
G06F 13/28 - Gestion de demandes d'interconnexion ou de transfert pour l'accès au bus d'entrée/sortie utilisant le transfert par rafale, p. ex. acces direct à la mémoire, vol de cycle
15.
INSTRUCTION SET ARCHITECTURE PUSH WITH FRAME POINTER INSTRUCTION
A method for executing an instruction set architecture (ISA) push with frame pointer instruction is described. The method includes utilizing a frame pointer. The method also includes decoding the ISA push with frame pointer instruction. The method further includes executing the decoded ISA push with frame pointer instruction. The method also includes performing, during the executing of the decoded ISA push with frame pointer instruction, a multiple register push operation on a stack while preserving a value of a stack pointer register and a value of a frame pointer register prior to executing the decoded ISA push with frame pointer instruction.
Aspects for MAC CE configurations for beam failure recovery operations are disclosed. In one aspect, a method of wireless communication comprising: determining, by a user equipment (UE), a beam failure recovery for a serving cell; transmitting, by the UE, a beam failure recovery request for the serving cell; and transmitting, by the UE, a MAC CE including new beam information and including serving cell identification information multiple serving cells, including the serving cell, wherein the serving cell identification information identifies the multiple serving cells. In another aspect, the MAC CE may include bandwidth part information. Other aspects and features are also claimed and described.
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
In a video headset, a video display inside an extended reality (XR) device is controlled by electronic circuits that generate heat while executing software applications for displaying content on the video display. The XR device includes heat dissipation technology to dissipate heat generated by the electronic circuits. The video headset includes a fluid-based cooling system comprising a closed loop conduit through which fluid moves from the XR device in the frontal portion of the harness to a thermal control mechanism in a rear portion of the harness, adjacent to the back of a user's head and then back to the XR device. In this regard, heat dissipation elements may be relocated from the XR device to the thermal control mechanism. to redirect heat to the rear portion, shift some of the noise and vibration to the rear portion and improve the weight distribution of the video headset.
Certain aspects of the present disclosure are directed towards a power supply circuit. The power supply circuit generally includes: a switched-mode power supply (SMPS); a detector circuit coupled to the SMPS and configured to detect a presence of one or more circuit elements of the SMPS; and a controller coupled to the detector circuit and configured to configure the SMPS to operate with a number of converter phases based on a number of the one or more circuit elements that are present.
H02M 3/158 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande utilisant des dispositifs du type triode ou transistor exigeant l'application continue d'un signal de commande utilisant uniquement des dispositifs à semi-conducteurs avec commande automatique de la tension ou du courant de sortie, p. ex. régulateurs à commutation comprenant plusieurs dispositifs à semi-conducteurs comme dispositifs de commande finale pour une charge unique
H02M 1/32 - Moyens pour protéger les convertisseurs autrement que par mise hors circuit automatique
19.
USER EQUIPMENT INFORMATION FOR ENHANCING MULTI-CARRIER COMMUNICATIONS
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit at least one of first information associated with splitting a data volume across a first cell group and a second cell group, or second information associated with sharing UE resources across the first cell group and the second cell group. The UE may communicate via the first cell group and the second cell group in accordance with at least one of a split of the data volume across the first cell group and the second cell group based at least in part on the first information, or an allocation of the UE resources across the first cell group and the second cell group based at least in part on the second information. Numerous other aspects are described.
H04W 72/52 - Critères d’affectation ou de planification des ressources sans fil sur la base des charges
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
20.
INTEGRATED CIRCUITS (ICs) HAVING SEPARATE SIGNAL AND POWER DISTRIBUTION NETWORK (PDN) INTERCONNECT STRUCTURES FOR REDUCED POWER SIGNAL ROUTING CONGESTION AND PATH LENGTHS, AND RELATED THREE-DIMENSIONAL (3D) ICs (3DICs) AND FABRICATION METHODS
Integrated circuits (ICs) having a separate signal and power distribution network (PDN) interconnect structures for reduced power signal routing congestion and path lengths, and related three-dimensional (3D) ICs (3DICs) and fabrication methods. The IC includes a separate signal interconnect structure providing input/output (I/O) signal routing, and a PDN interconnect structure for providing power distribution signal routing. The signal interconnect structure is disposed on a first side of a semiconductor layer in the IC, and the PDN interconnect structure is disposed on a second side of the semiconductor layer opposite of the first side. In this manner, performance of semiconductor devices in the semiconductor layer can be improved, because power distribution signals do not have to be routed in a shared interconnect structure that is also used for routing I/O signals, which could otherwise congest and increase power distribution signal routing path lengths in the IC.
H01L 23/528 - Configuration de la structure d'interconnexion
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
H01L 23/48 - Dispositions pour conduire le courant électrique vers le ou hors du corps à l'état solide pendant son fonctionnement, p. ex. fils de connexion ou bornes
H01L 23/522 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées
H01L 25/065 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
21.
INTEGRATED DEVICE COMPRISING EXTENDED METALLIZATION REGION FOR PILLAR INTERCONNECTS
An integrated device comprising a die substrate; a die interconnection portion coupled to the die substrate, wherein the die interconnection portion comprises: at least one die dielectric layer; and a plurality of die interconnects, wherein the die interconnection portion comprises: an inner die interconnection portion; and a periphery die interconnection portion, wherein the periphery die interconnect portion is free of the plurality of die interconnects; a plurality of pad interconnects coupled to the die interconnection portion; a plurality of metallization interconnects coupled to the plurality of pad interconnects, wherein at least one metallization interconnect from the plurality of metallization interconnects, vertically overlaps with the periphery die interconnection portion, and a plurality of pillar interconnects coupled to the plurality of metallization interconnects.
Methods, systems, and devices for wireless communications are described. A UE may transmit one or more uplink messages according to an orthogonal cover code (OCC) and an OCC scheme indicated by a network entity. The UE may receive control signaling scheduling one or more uplink messages for transmission. The control signaling may also indicate one or more OCC parameters for the one or more uplink messages. The UE may receive second control signaling that indicates that an OCC scheme for uplink messages is enabled. The control signaling may indicate a row within a time domain resource allocation (TDRA) table or a row within an OCC table. In either case, the row may correspond to the one or more OCC parameters. The UE may transmit the one or more uplink messages using an OCC in accordance with the one or more OCC parameters, the OCC scheme, or both.
H04W 72/1268 - Jumelage du trafic à la planification, p. ex. affectation planifiée ou multiplexage de flux de flux de données en liaison ascendante
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c.-à-d. en direction du terminal
23.
REPORTING MUTUAL INFORMATION FOR MULTI-BEAM OPERATIONS
Methods, systems, and devices for wireless communications are described. The described techniques may enable a user equipment (UE) to account for receive beam correlation while selecting a pair of receive beams. For example, a network entity may configure the UE with multiple channel state information reference signal (CSI-RS) resource configurations. In some examples, the network entity may configure the UE with a report configuration for each of the CSI-RS resource configurations, and may select a CSI-RS resource configuration for the UE to report mutual information (MI). In some examples, the network entity may configure the UE with a single report configuration, and the UE may select a CSI-RS resource configuration to report MI. In some examples, the network entity may configure the UE with two CSI-RS resource configurations, and the UE may report an MI metric for a single CSI-RS resource in each CSI-RS resource configuration.
An apparatus that is one of a wireless device (or a network node) may be configured to receive (or transmit), via a first frequency range, a first synchronization signal block (SSB) indicating information regarding a second frequency range associated with a second SSB; receive (or transmit), via the second frequency range indicated by the first SSB, the second SSB, where the second frequency range includes frequencies in a higher frequency band than a lower frequency band comprising the first frequency range; and communicate with a transmitting (or receiving) device via a beam based on the second SSB.
H04W 72/044 - Affectation de ressources sans fil sur la base du type de ressources affectées
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
Techniques and apparatus for supplying power with offset voltage generation are provided. One example power supply circuit generally includes a first transistor including a source coupled to an input voltage (Vin) node and a drain coupled to an output voltage (Vout) node, a second transistor including a drain coupled to a gate of the first transistor, a third transistor including a drain coupled to the drain of the second transistor and to the gate of the first transistor, where a source of the third transistor is coupled to a reference potential node of the power supply circuit, an amplifier including a first input coupled to a reference voltage (Vref) node and an output coupled to a gate of the third transistor, and a voltage offset circuit coupled between the gate of the first transistor and a gate of the second transistor.
G05F 1/575 - Régulation de la tension ou de l'intensité là où la variable effectivement régulée par le dispositif de réglage final est du type continu utilisant des dispositifs à semi-conducteurs en série avec la charge comme dispositifs de réglage final caractérisé par le circuit de rétroaction
Methods, systems, and devices for wireless communication are described. A user equipment (UE) may receive an indication of a first set of downlink carriers and a second set of downlink carriers including multiple subsets. The UE may receive a message from a network entity via a first subset, and may transmit a feedback message to a second network entity via an anchor carrier of the first set for relaying to the network entity. The UE may also receive one or more second messages via a second subset, and may apply a second feedback scheme, where a feedback process duration associated with the second feedback scheme may be less than that of the first feedback scheme. Applying the second feedback scheme may involve monitoring for one or more retransmissions of the second message, or transmitting one or more feedback messages via an anchor carrier of the second set.
An example optimizer system for processing extended reality (XR) media data is configured to: determine a first set of XR media data rendering tasks of an XR session to be performed by at least one server device and a second set of XR media data rendering tasks of the XR session to be performed by a first user equipment (UE) device; send a first set of instructions to the at least one server device representative of the first set of XR media data rendering tasks to cause the at least one server device to perform the first set of XR media data rendering tasks of the XR session; and send a second set of instructions to the first UE device representative of the second set of XR media data rendering tasks to cause the first UE device to perform the second set of XR media data rendering tasks.
A chip includes one or more first channels extending in a first direction, a first epitaxial (epi) layer coupled to the one or more first channels, one or more second channels extending in the first direction, a second epi layer coupled to the one or more second channels, and a dielectric wall disposed between the first epi layer and the second epi layer.
H01L 23/528 - Configuration de la structure d'interconnexion
H01L 27/088 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des éléments de circuit passif intégrés avec au moins une barrière de potentiel ou une barrière de surface le substrat étant un corps semi-conducteur comprenant uniquement des composants semi-conducteurs d'un seul type comprenant uniquement des composants à effet de champ les composants étant des transistors à effet de champ à porte isolée
H01L 29/06 - Corps semi-conducteurs caractérisés par les formes, les dimensions relatives, ou les dispositions des régions semi-conductrices
H01L 29/417 - Electrodes caractérisées par leur forme, leurs dimensions relatives ou leur disposition relative transportant le courant à redresser, à amplifier ou à commuter
H01L 29/423 - Electrodes caractérisées par leur forme, leurs dimensions relatives ou leur disposition relative ne transportant pas le courant à redresser, à amplifier ou à commuter
H01L 29/775 - Transistors à effet de champ avec un canal à gaz de porteurs de charge à une dimension, p.ex. FET à fil quantique
Methods, systems, and devices for wireless communications are described. A wireless device may receive scheduling information that schedules temporally overlapping transmissions by the wireless device of a data signal and an additional signal, where the additional signal includes an artificial noise signal, an energy signal associated with an energy-harvesting device, or both. The wireless device may then align a starting symbol of the additional signal with a starting symbol of the data signal based on the data signal and the additional signal being scheduled to temporally overlap, and may transmit the data signal and the additional signal based on the aligning.
This disclosure provides methods, devices, and techniques to indicate operations by extremely high throughput (EHT) devices on an operating bandwidth, including devices in a basic service set (BSS) supporting the use of a 320 MHz channel. In some aspects, the supported functionality may include extensions to flexibility and support rules, structures, and signaling using legacy fields, frames, and features. In addition, the supported functionality may include channel sensing and reporting, such as per-channel network allocation vectors (NAVs) for the sub-channels of the operating bandwidth. A device may identify an operating mode for an operating bandwidth and determine a value for a bandwidth query report (BQR) or a target wake time (TWT) element. The device may check multiple NAVs for sub-channels of the operating bandwidth. The operating bandwidth may span concurrent operations on traditional Wi-Fi frequency bands including the 2.4 and 5 GHz bands as well as the 6 GHz band.
H04W 72/51 - Critères d’affectation ou de planification des ressources sans fil sur la base des propriétés du terminal ou du dispositif
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c.-à-d. en direction du terminal
H04W 84/12 - Réseaux locaux sans fil [WLAN Wireless Local Area Network]
31.
PREVENTING ATTACKS IN A MIXED WPA2 AND WPA3 ENVIRONMENT
This disclosure provides methods, devices and systems for improving security in wireless communication networks. An example method includes scanning a wireless medium for a presence of access points (APs) in a wireless communication range of the first wireless STA, identifying, based on the scanning, two or more APs each having a same first Service Set Identifier (SSID), the two or more APs including a first AP that supports a Wi-Fi Protected Access (WPA) 3 wireless security protocol and a WPA 2 wireless security protocol and including a second AP that supports the WPA 2 wireless security protocol but does not support the WPA 3 wireless security protocol, selecting a first simultaneous authentication of equals (SAE) authentication type for a first group of APs that includes the first AP based on at least one AP of the first group of APs supporting the WPA 3 wireless security protocol, and authenticating with the first AP based at least in part on the same first SSID and the first SAE authentication type.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a wireless communication device may identify a first medium access control (MAC) transport block (TB) carrying a MAC control element (CE) or a communication having a threshold priority. The wireless communication device may transmit the first MAC TB including a first configuration of modulation and coding scheme (MCS) parameters, wherein MAC TBs associated with MAC CEs or communications having the threshold priority are associated with the first configuration of MCS parameters. The wireless communication device may identify a second MAC TB that does not carry any MAC CE or communication having the threshold priority. The wireless communication device may transmit the second MAC TB including one of the first configuration of MCS parameters or a second configuration of MCS parameters. Numerous other aspects are described.
A method for wireless communication at a UE and related apparatus are provided. In the method, the UE receives a configuration of single application time for different types of TCI state updates for the UE. The different types of TCI state updates include a first type of TCI state update from a same TRP to which the TCI state update is to be applied and a cross-TRP TCI state update. The UE then receives DCI in a CORESET associated with a first CORESET pool index associated with a first TRP and including a TCI state associated with a second CORESET pool index associated with a second TRP; transmits ACK/NACK feedback to one or more TRPs based on a feedback mode configured for the UE; and applies the TCI state indicated in the DCI following the ACK/NACK feedback based on the single application time.
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c.-à-d. en direction du terminal
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
34.
RADIO FREQUENCY (RF) SENSING PROCEDURES WITH DIGITAL TWINS
In an aspect, a digital twin (DT) entity may transmit, to a sensing entity, a request for an RF map, wherein the RF map is a characterization of a wireless environment determined based on one or more sensing sessions. The DT entity may receive, from the sensing entity, the RF map. In an aspect, a sensing entity may transmit, to a DT entity, a request to provide channel characteristics for one or more wireless links within a wireless environment modeled by a digital twin at the DT entity. The sensing entity may receive, from the DT entity, the channel characteristics.
G01S 5/02 - Localisation par coordination de plusieurs déterminations de direction ou de ligne de positionLocalisation par coordination de plusieurs déterminations de distance utilisant les ondes radioélectriques
Techniques are provided for obtaining global navigation satellite system (GNSS) measurements utilizing shared resources in a wireless node, such as an access point in a wireless wide area network (WLAN). An example method for obtaining a position estimate with an access point includes receiving, with one or more receive chains in the access point, radio frequency signals associated with a wireless network transmitted from a plurality of user equipment, determining a positioning opportunity, receiving, with at least one of the one or more receive chains, radio frequency signals transmitted from a satellite vehicle based at least in part on determining the positioning opportunity, and estimating a position of the access point based at least in part on the radio frequency signals transmitted from the satellite vehicle.
This disclosure provides systems, methods, and devices for memory systems that support enhanced exclusive read and write operations and scalable exclusive monitor architectures. In one aspect, device includes a processing system that includes one or more shared memory devices and one or more request nodes. The processing system also includes one or more network interface units (NIUs), each NIU of the one or more NIUs including an exclusive monitor configured to monitor exclusive accesses to shared memory addresses for a corresponding request node. The processing system includes one or more home nodes coupled to a corresponding shared memory device of the one or more shared memory devices. The processing system further includes an interconnect coupled to each NIU and to each home node and configured to couple the one or more request nodes to the one or more shared memory devices. Other aspects and features are also claimed and described.
Methods, systems, and devices for wireless communications are described in which a first wireless device, such as a user equipment (UE), may select a set of different groups of antenna elements that are preferred for use in millimeter wave communications at the first wireless device. The first wireless device may provide one or more parameters to a second wireless device that indicates a number of antenna elements of one or more of the groups of antenna elements that is used to determine one or more transmission control parameters. The second wireless device may determine one or more transmission control parameters based on the indicated parameters and number of antenna elements, which may be used for communications with the first wireless device.
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04W 52/14 - Analyse séparée de la liaison montante ou de la liaison descendante
A partially depleted silicon-on-insulator circuit is provided that includes a first transistor having a well-defined source and drain and a second transistor not having a well-defined source or drain. A doped region forms an ohmic contact to a body of the first transistor and the second transistor. Should the first transistor and the second transistor each comprises an NMOS transistor, a silicide layer couples the doped region to the source contact of the first transistor. Conversely, a silicide layer couples the doped region to a drain contact of the first transistor if the first transistor and the second transistor each comprise a PMOS transistor.
H01L 27/12 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des éléments de circuit passif intégrés avec au moins une barrière de potentiel ou une barrière de surface le substrat étant autre qu'un corps semi-conducteur, p.ex. un corps isolant
H01L 27/02 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des éléments de circuit passif intégrés avec au moins une barrière de potentiel ou une barrière de surface
H01L 29/10 - Corps semi-conducteurs caractérisés par les formes, les dimensions relatives, ou les dispositions des régions semi-conductrices avec des régions semi-conductrices connectées à une électrode ne transportant pas le courant à redresser, amplifier ou commuter, cette électrode faisant partie d'un dispositif à semi-conducteur qui comporte trois électrodes ou plus
H10B 10/00 - Mémoires statiques à accès aléatoire [SRAM]
39.
UPLINK CONTROL INFORMATION PACKING AND PRIORITIZATION FOR CHANNEL STATE INFORMATION
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network node, an indication of an uplink resource associated with reporting channel state information (CSI). The UE may transmit, to the network node and using the uplink resource, uplink control information (UCI) including a CSI report that indicates precoding matrix indicator (PMI) values, based at least in part on prioritizing groups of information associated with the CSI report, at least one group, of the groups, being associated with time domain basis index values and non-zero coefficients of a coefficient matrix of a codebook associated with the CSI report. Numerous other aspects are provided.
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04W 72/044 - Affectation de ressources sans fil sur la base du type de ressources affectées
40.
POWER/THERMAL VIA FOR THREE-DIMENSIONAL (3D) CHIP STACKING
A three-dimensional (3D) stacked chip is described. The 3D stacked chip includes a first die having a front-side surface and a backside surface, opposite the front-side surface. The backside surface on a front-side surface of a first redistribution layer (RDL). The 3D stacked chip also includes a second die having a front-side surface on the front-side surface of the first die and a backside surface being distal from the first RDL. The 3D stacked chip further includes a via extending from the backside surface of the second die to a back-end-of-line (BEOL) layer of the second die.
H01L 23/522 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
H01L 23/367 - Refroidissement facilité par la forme du dispositif
H01L 23/498 - Connexions électriques sur des substrats isolants
H01L 23/528 - Configuration de la structure d'interconnexion
H01L 25/065 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
41.
DYNAMIC IMAGE SENSOR CONFIGURATION FOR IMPROVED IMAGE STABILIZATION IN AN IMAGE CAPTURE DEVICE
This disclosure provides systems, methods, and devices for image processing that support improved image quality. In a first aspect, a method of image processing includes determining a scene condition for an image sensor of an image capture device; receiving motion data regarding movement of the image capture device; configuring the image sensor of the image capture device with a first image sensor configuration determined based on the motion data and the scene condition; receiving image data from the image sensor captured with the first image sensor configuration; and determining a video sequence by processing the image data based on the motion data and the scene condition. Other aspects and features are also claimed and described.
H04N 23/68 - Commande des caméras ou des modules de caméras pour une prise de vue stable de la scène, p. ex. en compensant les vibrations du boîtier de l'appareil photo
Aspects of the present disclosure provide for managing random access channel (RACH) procedures in wireless communication systems. In some examples, a UE includes a processor, a transceiver communicatively coupled to the processor and configured to communicate with a scheduling entity in the wireless communication network, and a memory communicatively coupled to the processor. The processor is configured to receive a signal from a base station at the beginning of a fixed frame period during a two-step random access procedure, determine whether a resource for a transmission occasion overlaps one or more symbols located at an edge of the fixed frame period, and discard the resource for the transmission occasion at the UE when the resource overlaps the one or more symbols located at the edge of the fixed frame period.
A video decoder is configured to determine, from the encoded video data, a block of a picture; apply a neural network (NN)-based filter to the block to generate a filtered block, wherein applying the NN-based filter comprises transforming the block of the picture with a transform block, wherein transforming the block of the picture with the transform block comprises rounding a floating point value to a nearest integer; determine a decoded version of the block based on the filtered block; and output a decoded version of the picture comprising the decoded version of the block.
H04N 19/635 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant un codage par transformée utilisant une transformée en sous-bandes, p. ex. ondelettes caractérisé par la définition du filtre ou les détails de mise en œuvre
44.
INTEGRATED DEVICE COMPRISING METALLIZATION PORTION WITH STEP PAD INTERCONNECTS
An integrated device comprising a die substrate; a die interconnection coupled to the die substrate; an encapsulation layer coupled to a side surface of the die substrate and a side surface of the die interconnection; a plurality of pad interconnects coupled to the die interconnection; a passivation layer coupled to the die interconnection; and a plurality of metallization interconnects, wherein one or more metallization interconnects from the plurality of metallization interconnects is coupled to one or more pad interconnects from the plurality of pad interconnects, wherein the plurality of metallization interconnects comprise a first step pad interconnect structure.
H01L 23/00 - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
H01L 23/48 - Dispositions pour conduire le courant électrique vers le ou hors du corps à l'état solide pendant son fonctionnement, p. ex. fils de connexion ou bornes
H01L 23/522 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées
H01L 23/528 - Configuration de la structure d'interconnexion
An example method for estimating depth includes obtaining first depth data from a first depth data source, wherein the first depth data is associated with a first field of view (FOV), obtaining second depth data from a second depth data source, wherein the second depth data is associated with a second FOV, the second FOV being different from the first FOV, generating FOV adjusted depth data based on the second depth data associated with the second FOV, generating a fused depth seed based on the FOV adjusted depth data and at least one of the first depth data or an additional FOV adjusted depth data, and determining a depth map based on the fused depth seed. The FOV adjusted depth data is associated with a target FOV, the target FOV being different from the second FOV. The fused depth seed is associated with the target FOV.
An example device includes one or more memories and one or more processors. The one or more processors are configured to receive video data indicative of a picture, reconstruct a block of the video data to generate a reconstructed block, and perform a neural network (NN)-based filter process on the reconstructed block. The NN-based filter process includes applying an NN-based filter including a constrained head block. The constrained head block includes a plurality of input channels. The constrained head block is configured to independently extract, for each of the plurality of input channels, a respective number of output channels. The constrained head block is configured to fuse outputs associated with each of the plurality of input channels into a single output. A sum of the respective number of output channels is less than or equal to a number of fused output channels of the single output.
H04N 19/117 - Filtres, p. ex. pour le pré-traitement ou le post-traitement
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant un bloc, p. ex. un macrobloc
H04N 19/80 - Détails des opérations de filtrage spécialement adaptées à la compression vidéo, p. ex. pour l'interpolation de pixels
47.
UPLINK COLLISION WITH DYNAMICALLY ADAPTED SYNCHRONIZATION SIGNAL BLOCK (SSB)
Certain aspects of the present disclosure provide techniques for resolving uplink collision with dynamically adapted synchronization signal blocks (SSBs). An example method, performed at a user equipment (UE), generally includes receiving first signaling configuring the UE with resources for synchronization signal block (SSB) reception, receiving second signaling dynamically adapting the resources for SSB reception, and processing at least one scheduled uplink transmission based on the second signaling.
Methods, systems, and devices for wireless communications are described. A device may obtain information bits and perform a two-stage encoding operation using the information bits. As part of the two-stage encoding procedure, the device may determine an interval corresponding to an energy threshold for a set of symbol sequences. In a first stage of the two-stage encoding operation, the device may determine a composition of a symbol sequence of the set of symbol sequences based on the information bits. In a second stage of the two-stage encoding operation, the device may generate the symbol sequence based on the information bits and the composition. The device may transmit the symbol sequence to another device using a wireless medium.
A video coder is configured to determine a first set of transform sets and a second set of transform sets, determine, for a current block of video data coded using a non-directional intra mode, a list of intra prediction directions determined from a decoder-side intra mode derivation (DIMD) process applied to prediction block samples of the current block, determine, for the current block, a transform set from the second set of transform sets based on a second highest intra prediction direction in the list of intra prediction directions, and encode or decode the current block using a transform in the transform set.
H04N 19/12 - Sélection parmi plusieurs transformées ou standards, p. ex. sélection entre une transformée en cosinus discrète [TCD] et une transformée en sous-bandes ou sélection entre H.263 et H.264
H04N 19/11 - Sélection du mode de codage ou du mode de prédiction parmi plusieurs modes de codage prédictif spatial
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant un bloc, p. ex. un macrobloc
50.
RANDOM ACCESS CHANNEL OCCASIONS CONFIGURED ON SUB-BAND FULL DUPLEX SYMBOLS
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a sub-band full duplex (SBFD) time configuration that configures one or more SBFD symbols on one or more downlink or flexible symbols, an SBFD frequency configuration that configures one or more downlink sub-bands in the one or more SBFD symbols and one or more uplink sub-bands in the one or more SBFD symbols, and a random access channel (RACH) configuration that configures one or more RACH occasions (ROs) in the one or more SBFD symbols. The UE may transmit, on an uplink sub-band of the one or more uplink sub-bands, a RACH message on a valid RO of the one or more ROs, the valid RO being associated with a subset of a set of SBFD-aware UEs or one or more RACH triggering events. Numerous other aspects are described.
Methods, systems, and devices for wireless communication are described. A wireless device may receive a configuration including a first set of one or more parameters for an automatic repeat request (ARQ) procedure associated with a radio link control (RLC) entity of the wireless device. At least one parameter of the first set of one or more parameters is associated with a plurality of values. The wireless device may select a value of the plurality of values for the ARQ procedure based on a second set of one or more parameters. The wireless device may receive at least one negative acknowledgment (NACK) for at least one protocol data unit (PDU) of a set of one or more PDUs, and perform one or more operations based on the at least one NACK and the selected value of the plurality of values for the ARQ procedure.
Systems and techniques are provided for wireless communications. For example, a process can include receiving, by a wireless communication device, a plurality of backscatter signals from a Radio Frequency Identification (RFID) tag, wherein each backscatter signal comprises a reflection of a respective RFID ranging signal. An estimated distance from the wireless communication device to the RFID tag can be determined, using a respective RFID measurement associated with each backscatter signal of the plurality of backscatter signals. The estimated distance can be compared to a configured threshold distance that is indicative of a volume associated with a container. A container content item inventory indicative of one or more items included within the volume associated with the container can be determined, wherein an item associated with the RFID tag is included in the container content item inventory based on the estimated distance being less than or equal to the configured threshold distance.
G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
G06K 19/07 - Supports d'enregistrement avec des marques conductrices, des circuits imprimés ou des éléments de circuit à semi-conducteurs, p. ex. cartes d'identité ou cartes de crédit avec des puces à circuit intégré
53.
PROVIDING CONTEXTUAL INFORMATION FOR PASSIVE DEVICES
Techniques are described for wireless communications. For example, a device can transmit, to passive devices, a transmit signal with a first phase. The device can receive, from each passive device, a respective response signal based on the transmit signal and determine, based on a difference between the first phase and a respective phase of each respective response signal, distances for the passive devices. The device can determine a respective confidence level for each respective distance of each passive device to the device based on a variance of the respective phase of each respective response signal. The device can compare the respective distance of each passive device with each other distance to determine a passive device with a smallest distance. The device can output contextual information based on the passive devices first having the smallest distance, with a confidence level determined for a distance from the passive device to the device.
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation électromagnétique, p. ex. lecture optiqueMéthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
54.
CORE NETWORK VISIBLE QUALITY OF EXPERIENCE (QOE) MEASUREMENTS
Certain aspects of the present disclosure provide a method for wireless communications at a user equipment (UE). The UE may transmit capability information of the UE to a gNodeB (gNB). The capability information may indicate an ability of the UE to directly transmit quality of experience (QoE) measurements to a core network entity. The UE may measure and transmit first QoE measurements to the core network entity, in accordance with the capability information. The core network entity may determine and perform some actions (e.g., an update of quality of service (QOS) policy associated with the UE) based on the first QoE measurements.
A method for scene flow estimation includes receiving multimodal data having at least a first modality and a second modality, wherein the multimodal data represents a plurality of points in a scene. The method also includes extracting a first set of features from the first modality and extracting a second set of features from the second modality; and projecting the first set of features and the second set of features into a shared latent space to generate a first latent representation. Additionally, the method includes estimating a flow of the plurality of points of the scene based on one or more relationships between the first set of features and the second set of features by using a model trained to learn the one or more relationships between the first set of features and the second set of features based on the first latent representation and the second latent representation.
G06V 10/44 - Extraction de caractéristiques locales par analyse des parties du motif, p. ex. par détection d’arêtes, de contours, de boucles, d’angles, de barres ou d’intersectionsAnalyse de connectivité, p. ex. de composantes connectées
G01S 17/89 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour la cartographie ou l'imagerie
G06V 10/80 - Fusion, c.-à-d. combinaison des données de diverses sources au niveau du capteur, du prétraitement, de l’extraction des caractéristiques ou de la classification
Disclosed are techniques for a structure of a package substrate. In an aspect, a package substrate includes a core dielectric that includes a first surface, a second surface, and a first cavity through the core dielectric. The EPS structure includes a first metallization structure on the first surface of the core dielectric and a second metallization structure on the second surface of the core dielectric. The first metallization structure includes a first plurality of dielectric layers, and the second metallization structure includes a second plurality of dielectric layers. The EPS structure further includes a first embedded component disposed in the first cavity and through at least the core dielectric, one of the first plurality of dielectric layers immediately adjacent the first surface of the core dielectric, and one of the second plurality of dielectric layers immediately adjacent the second surface of the core dielectric.
H01L 23/498 - Connexions électriques sur des substrats isolants
H01L 21/48 - Fabrication ou traitement de parties, p. ex. de conteneurs, avant l'assemblage des dispositifs, en utilisant des procédés non couverts par l'un uniquement des groupes ou
H01L 23/522 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées
H01L 23/528 - Configuration de la structure d'interconnexion
57.
DERIVATION PROCESS FOR CHAINED MOTION VECTOR PREDICTION IN VIDEO CODING
An example video coder is configured to determine to decode a current block of the video data using a bilateral matching merge mode. The video coder is configured to determine a first chained motion vector prediction (CMVP) candidate based on a first source candidate and determine that the first source candidate satisfies one or more bilateral matching conditions. The video coder is configured to insert the first CMVP candidate into a bilateral matching merge list. The video coder is configured to determine a second CMVP candidate based on a second source candidate and determine that the second source candidate does not satisfy the one or more bilateral matching conditions. The video coder is configured to insert the second CMVP candidate into a second list. The video coder is configured to decode the current block using at least one of the bilateral matching merge list or the second list.
H04N 19/139 - Analyse des vecteurs de mouvement, p. ex. leur amplitude, leur direction, leur variance ou leur précision
H04N 19/105 - Sélection de l’unité de référence pour la prédiction dans un mode de codage ou de prédiction choisi, p. ex. choix adaptatif de la position et du nombre de pixels utilisés pour la prédiction
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant un bloc, p. ex. un macrobloc
H04N 19/577 - Compensation de mouvement avec interpolation de trame bidirectionnelle, p. ex. utilisation d’images B
An electronic device having at least two adjacent logic cells is disclosed. The electronic device includes at least one pair of back-to-back vias, wherein a first via of the pair of back-to-back vias is associated with a first logic cell of the at least two adjacent logic cells and a second via of the pair of back-to-back vias is associated with a second logic cell of the at least two adjacent logic cells; and a spacer disposed between and separating the first via and the second via.
H01L 27/02 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des éléments de circuit passif intégrés avec au moins une barrière de potentiel ou une barrière de surface
H01L 27/088 - Dispositifs consistant en une pluralité de composants semi-conducteurs ou d'autres composants à l'état solide formés dans ou sur un substrat commun comprenant des éléments de circuit passif intégrés avec au moins une barrière de potentiel ou une barrière de surface le substrat étant un corps semi-conducteur comprenant uniquement des composants semi-conducteurs d'un seul type comprenant uniquement des composants à effet de champ les composants étant des transistors à effet de champ à porte isolée
A method of supplemental UWB ranging packet transmission includes: obtaining a UWB transmission schedule including at least two scheduled transmission durations and at least one available transmission duration; transmitting, from a first UWB device, at least one first UWB ranging packet during one of the at least two scheduled transmission durations; receiving, at the first UWB device from a second UWB device, a request for supplemental UWB ranging packet transmission by the first UWB device; and transmitting, from the first UWB device and in response to receiving the request for supplemental UWB ranging packet transmission by the first UWB device, at least one second UWB ranging packet in one of the at least one available transmission duration.
In an aspect, a substrate includes a core having a cavity; a first set of one or more metallization layers disposed at an upper portion of the core; and a stacked electronic component structure disposed in the cavity, wherein the stacked electronic component structure comprises a first electronic component including an upper surface having a second set of one or more metallization layers and a first set of via structures electrically coupling the first electronic component with the first set of one or more metallization layers, and a second electronic component over the first electronic, the second electronic component including an upper surface having a third set of one or more metallization layers electrically coupling the second electronic component with the first set of one or more first metallization layers.
H01L 25/065 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
H01L 23/00 - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
H01L 23/48 - Dispositions pour conduire le courant électrique vers le ou hors du corps à l'état solide pendant son fonctionnement, p. ex. fils de connexion ou bornes
H01L 23/498 - Connexions électriques sur des substrats isolants
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first network node may receive information that indicates an expected unavailability of a second network node or a network interface between the first network node and the second network node. The first network node may determine, in accordance with the received information, that a state of the second network node or the network interface between the first network node and the second network node is an unavailable state. The first network node may maintain an application layer configuration associated with the second network node or the network interface while the state of the second network node or the network interface is the unavailable state. Numerous other aspects are described.
H04W 80/10 - Protocoles de couche supérieure adaptés à la gestion de sessions, p. ex. protocole d'initiation de session [SIP Session Initiation Protocol]
Methods, systems, and devices for wireless communication are described. A wireless device may receive a configuration including a first set of one or more parameters for an automatic repeat request (ARQ) procedure associated with a radio link control (RLC) entity of the wireless device. At least one parameter of the first set of one or more parameters is associated with a plurality of values. The wireless device may select a value of the plurality of values based at least in part on a second set of one or more parameters. The wireless device may transmit a negative acknowledgment (NACK) for a protocol data unit (PDU) of a set of one or more PDUs, and drop the PDU based at least in part on the at least one NACK and the selected value of the plurality of values for the ARQ procedure.
A method of scheduling a UWB (Ultra-Wideband) ranging session includes: obtaining a first signal transmission schedule of first available signal transmission times of first wireless signals; and transmitting, from a first UWB device to a second UWB device, a ranging control message indicating a second signal transmission schedule including second available signal transmission times for second wireless signals that comprise UWB signals, wherein the second available signal transmission times are based on the first available signal transmission times.
Methods, systems, and devices for wireless communications are described for beam measurement and selection using separate synchronization signal block (SSB) bursts for wide beams and narrow beams, where a periodicity of SSB bursts of narrow beams may be longer than a periodicity of SSB bursts with wide beams. A user equipment (UE) may predict narrow beam measurements (such as using an artificial intelligence or machine learning (AI/ML) model) at occasions of the wide beam SSBs that do not include the narrow beam SSBs. The UE may identify control resource set or remaining minimum system information resources, or random access channel resources for a random access transmission, based on the measured and predicted measurements.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit one or more indications, wherein at least one of the one or more indications indicates a latency associated with switching a spatial direction of an antenna. The UE may receive a configuration. The UE may transmit or receive a communication in accordance with the configuration and the one or more indications. Numerous other aspects are described.
H04B 7/02 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes
H04W 28/08 - Équilibrage ou répartition des charges
H04W 72/542 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité en utilisant la qualité mesurée ou perçue
This disclosure provides methods, components, devices and systems for short response feedback. Some aspects more specifically relate to communicating feedback from multiple wireless stations (STAs) to a wireless access point (AP) using fewer resources than conventional techniques. A STA may transmit a feedback packet according to a feedback packet format in response to receiving a trigger packet. The feedback packet format may include a data portion that is free of one or more medium access control fields, begin with training fields that are immediately followed by the data portion, or both. The trigger packet may trigger the transmission of the feedback packet via techniques which may be backwards compatible, reduce an overhead associated with the triggering of feedback from multiple STAs, or both. For example, a STA may transmit the feedback packet in accordance with a value of an uplink length frame of the trigger packet.
A method of processing video data includes receiving, with a neural network in-loop filter (NN-ILF), a current block of video data of a current picture; and filtering, with the NN-ILF, the current block of video data to generate a filtered current block of video data, wherein filtering the current block of video data comprises: generating, with an attention block of the NN-ILF, an attention map indicative of a correlation between elements of features of the current block of video data; modifying, with the attention block of the NN-ILF, the attention map based on a size of blocks used for training the NN-ILF to generate a modified attention map; generating, with the attention block of NN-ILF, feature data based on the modified attention map; and filtering, with the NN-ILF, the current block of video data based on the feature data to generate the filtered current block of video data.
H04N 19/117 - Filtres, p. ex. pour le pré-traitement ou le post-traitement
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant un bloc, p. ex. un macrobloc
H04N 19/82 - Détails des opérations de filtrage spécialement adaptées à la compression vidéo, p. ex. pour l'interpolation de pixels mettant en œuvre le filtrage dans une boucle de prédiction
A device comprising a board; a first package coupled to the board through a plurality of solder interconnects, wherein the first package comprises: a first substrate; a first integrated device coupled to the first substrate; a heat pipe coupled to the first integrated device through a thermal interface material; a second package coupled to the first substrate through a through a plurality of inter substrate interconnects; and an encapsulation layer located between the first substrate and the second package.
H01L 23/367 - Refroidissement facilité par la forme du dispositif
H01L 23/00 - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
H01L 23/31 - Encapsulations, p. ex. couches d’encapsulation, revêtements caractérisées par leur disposition
H01L 25/065 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
69.
BANDWIDTH PART CONFIGURATION FOR FULL-DUPLEX COMMUNICATIONS
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may be capable of communicating in various different duplexing modes, such as a half-duplex mode, a full-duplex mode, or both. For instance, a UE may communicate one or more first messages in accordance with a half-duplex mode in a time division duplexing (TDD) band, and then may switch from the half-duplex mode to a full-duplex mode. To support efficient uplink and downlink communications for the full-duplex mode and to utilize the available uplink and downlink resources of the TDD band more effectively, the UE may communicate one or more second messages in accordance with the full-duplex mode in an uplink bandwidth part (BWP) and a downlink BWP of the TDD band, where the uplink BWP and the downlink BWP are unaligned in center frequency for the full-duplex mode.
Methods, systems, and devices for wireless communication are described. A wireless device may receive a configuration including a first set of one or more parameters for an automatic repeat request (ARQ) procedure associated with a radio link control (RLC) entity of the wireless device. At least one parameter of the first set of one or more parameters is associated with a plurality of values. The wireless device may select a value of the plurality of values for the ARQ procedure based on a second set of one or more parameters. The wireless device may receive at least one negative acknowledgment (NACK) for at least one protocol data unit (PDU) of a set of one or more PDUs, and perform one or more operations based on the at least one NACK and the selected value of the plurality of values for the ARQ procedure.
A method of processing video data includes receiving, with a neural network in-loop filter (NN-ILF), a current block of video data of a current picture; and filtering, with the NN-ILF, the current block of video data to generate a filtered current block of video data, wherein filtering the current block of video data comprises: generating, with an attention block of the NN-ILF, an attention map indicative of a correlation between elements of features of the current block of video data; modifying, with the attention block of the NN-ILF, the attention map based on a size of blocks used for training the NN-ILF to generate a modified attention map; generating, with the attention block of NN-ILF, feature data based on the modified attention map; and filtering, with the NN-ILF, the current block of video data based on the feature data to generate the filtered current block of video data.
H04N 19/117 - Filtres, p. ex. pour le pré-traitement ou le post-traitement
H04N 19/46 - Inclusion d’information supplémentaire dans le signal vidéo pendant le processus de compression
H04N 19/70 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques caractérisés par des aspects de syntaxe liés au codage vidéo, p. ex. liés aux standards de compression
H04N 19/85 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le pré-traitement ou le post-traitement spécialement adaptés pour la compression vidéo
G06N 3/084 - Rétropropagation, p. ex. suivant l’algorithme du gradient
H04N 19/136 - Caractéristiques ou propriétés du signal vidéo entrant
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant un bloc, p. ex. un macrobloc
H04N 19/82 - Détails des opérations de filtrage spécialement adaptées à la compression vidéo, p. ex. pour l'interpolation de pixels mettant en œuvre le filtrage dans une boucle de prédiction
H04N 19/86 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le pré-traitement ou le post-traitement spécialement adaptés pour la compression vidéo mettant en œuvre la diminution des artéfacts de codage, p. ex. d'artéfacts de blocs
72.
ARTIFICIAL INTELLIGENCE OR MACHINE LEARNING OCCUPATION FOR APERIODIC CHANNEL STATE INFORMATION BASED TEMPORAL BEAM PREDICTION FEEDBACK
Some aspects of this disclosure provide approaches for identifying whether an artificial intelligence or machine learning (AI/ML) functionality should be considered active in the context of aperiodic channel state information (CSI) reporting for beam prediction. Some aspects more specifically provide identification of whether an AI/ML functionality should be considered active before an aperiodic CSI report is triggered. In some examples, a UE identifies whether the AI/ML functionality associated with the CSI report is considered active during a time interval during which a CPU associated with the CSI report is not considered to be occupied. For example, this may be based on a UE capability or preference. As another example, this may be based on a characteristic such as an AI/ML functionality identifier or a configuration.
This disclosure provides methods, components, devices and systems for error correction for increased reliability of packets. Various aspects generally relate how a receiving wireless device may recover one or more incorrect bits of a received packet. The receiving wireless device may replace the one or more incorrect bits with expected values of the one or more incorrect bits. In some aspects, the receiving wireless device may determine the expected values for the one or more incorrect bits from one or more previously received packets, by observing changes in values associated with the one or more incorrect bits over time, or by negotiating the expected values with a transmitting device.
Dynamic frozen polar codes for probabilistic shaping are described. An apparatus is configured to map transmission bits to an EC-polar code. The transmission bits include first data bits, second data bits, EC bits, and shaping bits. The first data bits correspond to frozen bit locations of the EC-polar code, the shaping bits correspond to information bit locations of the EC-polar code, and the EC bits and the second bits both correspond to remaining locations of the EC-polar code. The apparatus is configured to shape the transmission bits to shaped transmission bits based on the mapping, the EC-polar code, and an addition operation on the transmission bits including the EC bits and the second data bits. The apparatus is configured to transmit, to a receiver network device, the shaped transmission bits.
H04L 25/49 - Circuits d'émissionCircuits de réception à conversion de code au transmetteurCircuits d'émissionCircuits de réception à pré-distorsionCircuits d'émissionCircuits de réception à insertion d'intervalles morts pour obtenir un spectre de fréquence désiréCircuits d'émissionCircuits de réception à au moins trois niveaux d'amplitude
75.
DERIVATION PROCESS FOR CHAINED MOTION VECTOR PREDICTION IN VIDEO CODING
An example video coder is configured to determine to decode a current block of the video data using a bilateral matching merge mode. The video coder is configured to determine a first chained motion vector prediction (CMVP) candidate based on a first source candidate and determine that the first source candidate satisfies one or more bilateral matching conditions. The video coder is configured to insert the first CMVP candidate into a bilateral matching merge list. The video coder is configured to determine a second CMVP candidate based on a second source candidate and determine that the second source candidate does not satisfy the one or more bilateral matching conditions. The video coder is configured to insert the second CMVP candidate into a second list. The video coder is configured to decode the current block using at least one of the bilateral matching merge list or the second list.
A chip includes one or more first channels extending in a first direction, a first epitaxial (epi) layer coupled to the one or more first channels, one or more second channels extending in the first direction, a second epi layer coupled to the one or more second channels, and a dielectric wall disposed between the first epi layer and the second epi layer.
H10D 30/43 - Transistors FET ayant des canaux à gaz de porteurs de charge de dimension nulle [0D], à une dimension [1D] ou à deux dimensions [2D] ayant des canaux à gaz de porteurs de charge à une dimension, p. ex. transistors FET à fil quantique ou transistors ayant des canaux à confinement quantique à une dimension
H10D 84/03 - Fabrication ou traitement caractérisés par l'utilisation de technologies basées sur les matériaux utilisant une technologie du groupe IV, p. ex. technologie au silicium ou au carbure de silicium [SiC]
77.
MULTI-SIDED MILLIMETER WAVE ANTENNA ARRAY MODULE AND ASSOCIATED RADIO FREQUENCY (RF) INTEGRATED CIRCUIT (IC) BUMP PLACEMENT
Aspects described herein include a first antenna array disposed on a first surface of a first substrate in a first plane, where the first antenna array comprises a plurality of antenna elements in a first configuration and a second antenna array disposed on a second substrate in a second plane, where the second plane is different than and nonparallel with the first plane, one or more solder bump connections disposed on the first substrate, a millimeter wave (mmW) circuitry connected to the one or more solder bump connections, and a connector physically coupling the second substrate to the first substrate, wherein the mmW circuitry is coupled via the one or more solder bump connections to the first antenna array, the connector, and the second antenna array.
H01Q 21/24 - Combinaisons d'unités d'antennes polarisées dans des directions différentes pour émettre ou recevoir des ondes polarisées circulairement ou elliptiquement ou des ondes polarisées linéairement dans n'importe quelle direction
H01Q 21/28 - Combinaisons d'unités ou systèmes d'antennes sensiblement indépendants et n’interagissant pas entre eux
H01Q 25/00 - Antennes ou systèmes d'antennes fournissant au moins deux diagrammes de rayonnement
H01Q 1/22 - SupportsMoyens de montage par association structurale avec d'autres équipements ou objets
Disclosed are techniques for wireless communication. In an aspect, a user equipment (UE) may receive a sidelink (SL) resource pool configuration comprising a resource pool for positioning (RP-P). In some cases, the RP-P comprises SL positioning reference signal (SL-PRS) resources. The UE may transmit or receive SL-PRS transmissions using an interlacing scheme associated with one or more physical resource blocks (PRBs) of the RP-P. In an aspect, a UE may receive a SL resource pool configuration comprising resources for SL control information and an indication to use an interlacing scheme for transmissions of the resources for SL control information. The UE may transmit or receive SL control information transmissions using the interlacing scheme associated with one or more PRBs of a physical sidelink control channel (PSCCH) based on the SL resource pool configuration.
A method for wireless communication at a user equipment (UE) and related apparatus are provided. In the method, the UE transmits, for a second device over a sidelink, wake up monitor information for monitoring a first wake up signal for waking up the UE based on the physical downlink control channel (PDCCH). The UE then receives, from the second device over the sidelink, a second wake up signal, where the second wake up signal is based on a reception of the first wake up signal on the second device; and performs a wake up procedure based on the second wake up signal.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a repeater node may receive, from a network node, sub-band full-duplex (SBFD) configuration information associated with the network node, wherein the SBFD configuration information indicates one or more SBFD symbols and indicates a forwarding direction for the repeater node in the one or more SBFD symbols. The repeater node may forward communications that are received in the one or more SBFD symbols in the forwarding direction indicated in the SBFD configuration information. Numerous other aspects are described.
Systems and techniques are provided for wireless communications. For example, a process can include receiving, by a wireless communication device, a plurality of backscatter signals from a Radio Frequency Identification (RFID) tag, wherein each backscatter signal comprises a reflection of a respective RFID ranging signal. An estimated distance from the wireless communication device to the RFID tag can be determined, using a respective RFID measurement associated with each backscatter signal of the plurality of backscatter signals. The estimated distance can be compared to a configured threshold distance that is indicative of a volume associated with a container. A container content item inventory indicative of one or more items included within the volume associated with the container can be determined, wherein an item associated with the RFID tag is included in the container content item inventory based on the estimated distance being less than or equal to the configured threshold distance.
G01S 13/75 - Systèmes utilisant la reradiation d'ondes radio, p. ex. du type radar secondaireSystèmes analogues utilisant des transpondeurs alimentés par les ondes reçues, p. ex. utilisant des transpondeurs passifs
G01S 13/84 - Systèmes utilisant la reradiation d'ondes radio, p. ex. du type radar secondaireSystèmes analogues dans lesquels des signaux de type continu sont transmis pour la détermination de distance par mesure de phase
G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
Methods, systems, and devices for wireless communications are described. A UE may transmit one or more uplink messages according to an orthogonal cover code (OCC) and an OCC scheme indicated by a network entity. The UE may receive control signaling scheduling one or more uplink messages for transmission. The control signaling may also indicate one or more OCC parameters for the one or more uplink messages. The UE may receive second control signaling that indicates that an OCC scheme for uplink messages is enabled. The control signaling may indicate a row within a time domain resource allocation (TDRA) table or a row within an OCC table. In either case, the row may correspond to the one or more OCC parameters. The UE may transmit the one or more uplink messages using an OCC in accordance with the one or more OCC parameters, the OCC scheme, or both.
A method of synchronization using samplers includes receiving a digital control code, converting the digital control code into control signals, inputting each of the control signals to a respective one of the samplers, detecting at least one bit transition in the digital control code, generating a synchronization pulse in response to detecting the at least one bit transition in the digital control code, and inputting the synchronization pulse to clock inputs of the samplers.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a transmitting wireless device may polar encode a bits using a polar code to generate a set of polar encoded bits, the set of polar encoded bits including subsets of polar encoded bits that each comprise a first quantity of polar encoded bits, where each subset of the first quantity of subsets of polar encoded bits are associated with a respective bit-channel of the polar code. The transmitting wireless device may perform a first type of rate matching operation to rate match the subsets of polar encoded bits and may perform a second type of rate matching operation to rate match the second quantity of polar encoded bits within each subset of polar encoded bits. Numerous other aspects are described.
H04L 1/00 - Dispositions pour détecter ou empêcher les erreurs dans l'information reçue
H03M 13/00 - Codage, décodage ou conversion de code pour détecter ou corriger des erreursHypothèses de base sur la théorie du codageLimites de codageMéthodes d'évaluation de la probabilité d'erreurModèles de canauxSimulation ou test des codes
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may identify a set of top-K resources, of a first set of resources, based at least in part on one or more measurements associated with a second set of resources. The UE may determine whether confidence/probability information, associated with a given resource in the set of top-K resources, is to be included in reporting information based at least in part on whether a measured channel characteristic associated with the given resource is to be included in the reporting information, or whether a predicted channel characteristic associated with the given resource is to be included in the reporting information. The UE may transmit the reporting information that selectively includes the confidence/probability information. Numerous other aspects are described.
Methods, systems, and devices for wireless communications are described. A reader device may receive a first control signal from a network entity. The first control signal may indicate for the reader device to wake up one or more wireless devices, such as one or more ambient Internet of Things (AIoT) devices. The reader device may transmit a second control signal to the one or more wireless devices. The second control signal may include identification information associated with the one or more wireless devices. The reader device may subsequently transmit a response message to the network entity.
H04W 4/80 - Services utilisant la communication de courte portée, p. ex. la communication en champ proche, l'identification par radiofréquence ou la communication à faible consommation d’énergie
H04B 5/00 - Systèmes de transmission en champ proche, p. ex. systèmes à transmission capacitive ou inductive
87.
SPARSE SENSING ANTENNA ELEMENT ARRAY IN HYBRID RECONFIGURABLE INTELLIGENT SURFACE (H-RIS)
Disclosed are techniques for wireless sensing. In an aspect, a hybrid reconfigurable intelligent surface (H-RIS) receives a configuration of a sparse sensing antenna array pattern to apply to a surface of the H-RIS, wherein the surface comprises a two-dimensional array of antenna elements, wherein the configuration of the sparse sensing antenna array pattern indicates (1) a horizontal subset of antenna elements of one or more rows of antenna elements along a horizontal edge of the surface to activate as a horizontal set of sparse sensing antenna elements and (2) a vertical subset of antenna elements of one or more columns of antenna elements along a vertical edge of the surface to activate as a vertical set of sparse sensing antenna elements. The H-RIS may perform one or more sensing operations using the sparse sensing antenna array pattern.
H01Q 15/00 - Dispositifs pour la réflexion, la réfraction, la diffraction ou la polarisation des ondes rayonnées par une antenne, p. ex. dispositifs quasi optiques
88.
INTEGRATED DEVICE COMPRISING EXTENDED METALLIZATION REGION FOR PILLAR INTERCONNECTS
An integrated device comprising a die substrate; a die interconnection portion coupled to the die substrate, wherein the die interconnection portion comprises: at least one die dielectric layer; and a plurality of die interconnects, wherein the die interconnection portion comprises: an inner die interconnection portion; and a periphery die interconnection portion, wherein the periphery die interconnect portion is free of the plurality of die interconnects; a plurality of pad interconnects coupled to the die interconnection portion; a plurality of metallization interconnects coupled to the plurality of pad interconnects, wherein at least one metallization interconnect from the plurality of metallization interconnects, vertically overlaps with the periphery die interconnection portion, and a plurality of pillar interconnects coupled to the plurality of metallization interconnects.
Techniques and apparatus for supplying power with offset voltage generation are provided. One example power supply circuit generally includes a first transistor including a source coupled to an input voltage (Vin) node and a drain coupled to an output voltage (Vout) node, a second transistor including a drain coupled to a gate of the first transistor, a third transistor including a drain coupled to the drain of the second transistor and to the gate of the first transistor, where a source of the third transistor is coupled to a reference potential node of the power supply circuit, an amplifier including a first input coupled to a reference voltage (Vref) node and an output coupled to a gate of the third transistor, and a voltage offset circuit coupled between the gate of the first transistor and a gate of the second transistor.
G05F 1/575 - Régulation de la tension ou de l'intensité là où la variable effectivement régulée par le dispositif de réglage final est du type continu utilisant des dispositifs à semi-conducteurs en série avec la charge comme dispositifs de réglage final caractérisé par le circuit de rétroaction
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit a configured grant physical uplink shared channel (CG-PUSCH) transmission, wherein the CG-PUSCH transmission is associated with unused transmission occasion uplink control information (UTO-UCI) that indicates that a future CG-PUSCH occasion is to be skipped by the UE. The UE may receive downlink feedback information (DFI) for the CG-PUSCH transmission, wherein the DFI indicates an acknowledgement (ACK) or a negative acknowledgement (NACK) for the CG-PUSCH transmission. The UE may transmit a retransmission of the CG-PUSCH transmission using the future CG-PUSCH occasion based at least in part on the NACK. Numerous other aspects are described.
Certain aspects of the present disclosure provide techniques for wireless communications. A method includes receiving one or more reference signals on a set of communication resources associated with a first set of beams; and sending, based on one or more criteria being satisfied, a report indicating predicted channel characteristic information associated with a set of predicted channel characteristics for a set of virtual communication resources associated with a second set of beams, wherein: the set of predicted channel characteristics are based on a set of channel characteristics for the set of communication resources, the set of channel characteristics based on the received one or more reference signals; and the one or more criteria comprise a first criteria comprising at least one predicted channel characteristic of the set of predicted channel characteristics satisfying a threshold difference from a first channel characteristic of the set of channel characteristics.
H04B 17/373 - Prédiction des paramètres de qualité d’un canal
H04B 7/06 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversitéSystèmes à plusieurs antennes, c.-à-d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
92.
PACKAGE SUBSTRATE HAVING STACKED ELECTRONIC COMPONENT STRUCTURE DISPOSED IN A CAVITY OF A CORE
In an aspect, a substrate includes a core having a cavity; a first set of one or more metallization layers disposed at an upper portion of the core; and a stacked electronic component structure disposed in the cavity, wherein the stacked electronic component structure comprises a first electronic component including an upper surface having a second set of one or more metallization layers and a first set of via structures electrically coupling the first electronic component with the first set of one or more metallization layers, and a second electronic component over the first electronic, the second electronic component including an upper surface having a third set of one or more metallization layers electrically coupling the second electronic component with the first set of one or more first metallization layers.
H01L 23/50 - Dispositions pour conduire le courant électrique vers le ou hors du corps à l'état solide pendant son fonctionnement, p. ex. fils de connexion ou bornes pour des dispositifs à circuit intégré
93.
INTEGRATED DEVICE COMPRISING METALLIZATION PORTION WITH STEP PAD INTERCONNECTS
An integrated device comprising a die substrate; a die interconnection coupled to the die substrate; an encapsulation layer coupled to a side surface of the die substrate and a side surface of the die interconnection; a plurality of pad interconnects coupled to the die interconnection; a passivation layer coupled to the die interconnection; and a plurality of metallization interconnects, wherein one or more metallization interconnects from the plurality of metallization interconnects is coupled to one or more pad interconnects from the plurality of pad interconnects, wherein the plurality of metallization interconnects comprise a first step pad interconnect structure.
An example method for estimating depth includes obtaining first depth data from a first depth data source, wherein the first depth data is associated with a first field of view (FOV), obtaining second depth data from a second depth data source, wherein the second depth data is associated with a second FOV, the second FOV being different from the first FOV, generating FOV adjusted depth data based on the second depth data associated with the second FOV, generating a fused depth seed based on the FOV adjusted depth data and at least one of the first depth data or an additional FOV adjusted depth data, and determining a depth map based on the fused depth seed. The FOV adjusted depth data is associated with a target FOV, the target FOV being different from the second FOV. The fused depth seed is associated with the target FOV.
This disclosure provides systems, methods, and devices for enhancing data communication and computation efficiency in Systems on a Chip (SoC). In one aspect, a system is provided that uses a network on a chip (NOC) to route communications between chip components using a plurality of network interfaces linked by shared data connections. The system may be configured to route communications via multiple virtual channels along the shared connections, with credit restrictions for the channels. Additionally, the system may support mechanisms for maintaining both private and shared credit balances for these virtual channels. Additional aspects are also discussed.
A sliced graphics processing unit (GPU) architecture in processor-based devices is disclosed. In some aspects, a GPU based on a sliced GPU architecture includes multiple hardware slices. The GPU further includes a sliced low-resolution Z buffer (LRZ) that is communicatively coupled to each hardware slice of the plurality of hardware slices, and that comprises a plurality of LRZ regions. Each hardware slice is configured to store, in an LRZ region corresponding exclusively to the hardware slice among the plurality of LRZ regions, a pixel tile assigned to the hardware slice.
G06F 12/0875 - Adressage d’un niveau de mémoire dans lequel l’accès aux données ou aux blocs de données désirés nécessite des moyens d’adressage associatif, p. ex. mémoires cache avec mémoire cache dédiée, p. ex. instruction ou pile
G09G 5/36 - Dispositions ou circuits de commande de l'affichage communs à l'affichage utilisant des tubes à rayons cathodiques et à l'affichage utilisant d'autres moyens de visualisation caractérisés par l'affichage de dessins graphiques individuels en utilisant une mémoire à mappage binaire
97.
METHOD AND APPARATUS FOR SCALABLE EXCLUSIVE ACCESS MANAGEMENT IN MEMORY SYSTEMS
This disclosure provides systems, methods, and devices for memory systems that support enhanced exclusive read and write operations and scalable exclusive monitor architectures. In one aspect, device includes a processing system that includes one or more shared memory devices and one or more request nodes. The processing system also includes one or more network interface units (NIUs), each NIU of the one or more NIUs including an exclusive monitor configured to monitor exclusive accesses to shared memory addresses for a corresponding request node. The processing system includes one or more home nodes coupled to a corresponding shared memory device of the one or more shared memory devices. The processing system further includes an interconnect coupled to each NIU and to each home node and configured to couple the one or more request nodes to the one or more shared memory devices. Other aspects and features are also claimed and described.
Methods, systems, and devices for wireless communication are described. A user equipment (UE) may receive an indication of a first set of downlink carriers and a second set of downlink carriers including multiple subsets. The UE may receive a message from a network entity via a first subset, and may transmit a feedback message to a second network entity via an anchor carrier of the first set for relaying to the network entity. The UE may also receive one or more second messages via a second subset, and may apply a second feedback scheme, where a feedback process duration associated with the second feedback scheme may be less than that of the first feedback scheme. Applying the second feedback scheme may involve monitoring for one or more retransmissions of the second message, or transmitting one or more feedback messages via an anchor carrier of the second set.
Techniques are provided for calibrating a crystal oscillator (XOs) in a global navigation satellite system (GNSS) receiver. An example method for generating XO calibration information includes receiving radio frequency signals from a wireless node, wherein the radio frequency signals include an indication of oscillator temperature information, determining a frequency offset value based at least in part on the radio frequency signals, determining a local oscillator temperature value, determining a frequency correction value based at least in part on the local oscillator temperature value, the frequency offset value, and the indication of oscillator temperature information, and transmitting a calibration report to the wireless node.
A three-dimensional (3D) stacked chip is described. The 3D stacked chip includes a first die having a front-side surface and a backside surface, opposite the front-side surface. The backside surface on a front-side surface of a first redistribution layer (RDL). The 3D stacked chip also includes a second die having a front-side surface on the front-side surface of the first die and a backside surface being distal from the first RDL. The 3D stacked chip further includes a via extending from the backside surface of the second die to a back-end-of-line (BEOL) layer of the second die.
H01L 23/31 - Encapsulations, p. ex. couches d’encapsulation, revêtements caractérisées par leur disposition
H01L 25/065 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
H01L 25/00 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
H01L 23/522 - Dispositions pour conduire le courant électrique à l'intérieur du dispositif pendant son fonctionnement, d'un composant à un autre comprenant des interconnexions externes formées d'une structure multicouche de couches conductrices et isolantes inséparables du corps semi-conducteur sur lequel elles ont été déposées
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
