Difference between revisions of "Intel Corporation patent applications published on November 30th, 2023"
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+ | '''Summary of the patent applications from Intel Corporation on November 30th, 2023''' | ||
+ | |||
+ | Intel Corporation has recently filed several patents related to various aspects of technology. These patents cover areas such as layer 1 (L1)/layer 2 (L2) triggered mobility (LTM) aspects, electronic device display interfaces for camera control, network interface devices with direct memory access (DMA) circuitry, secure connections over Remote Direct Memory Access (RDMA), software-based management of the physical layer (PHY) of a link, adapting secure sounding signals in communication devices, implementing high-speed Ethernet links using a hybrid PHY, gate-all-around integrated circuit structures with tightly spaced nanowires, and thin film transistors with double gates. | ||
+ | |||
+ | Notable applications of these patents include: | ||
+ | * Layer 1 (L1)/layer 2 (L2) triggered mobility (LTM) aspects, including inter-cell mobility, split architectures, dynamic cell group changes, activation, and deactivation. | ||
+ | * Electronic device display interfaces for controlling a camera and reviewing captured images, providing a simplified and user-friendly interface. | ||
+ | * Network interface devices with direct memory access (DMA) circuitry for processing packets and determining Extended Sequence Number (ESN) values. | ||
+ | * Secure connections over Remote Direct Memory Access (RDMA) with two network interface devices, acting as endpoints for Transport Layer Security (TLS) over RDMA connections. | ||
+ | * Software-based application for managing the physical layer (PHY) of a link using an application programming interface (API) to configure the physical layer through firmware. | ||
+ | * Adapting secure sounding signals in communication devices based on negotiated bandwidth for secure communication. | ||
+ | * Implementing high-speed Ethernet links using a hybrid PHY with non-interleaved or interleaved RS-FEC sublayers, determined during link training. | ||
+ | * Gate-all-around integrated circuit structures with tightly spaced nanowires and methods for fabricating them. | ||
+ | * Thin film transistors with double gates for improved control and performance. | ||
+ | |||
+ | In summary, Intel Corporation has filed patents covering a wide range of technological advancements, including mobility aspects, camera control interfaces, network interface devices, secure connections, software-based management of the physical layer, adaptive sounding signals, high-speed Ethernet links, integrated circuit structures, and thin film transistors. These patents demonstrate Intel's commitment to innovation and advancing technology in various fields. | ||
+ | |||
+ | |||
+ | |||
+ | |||
==Patent applications for Intel Corporation on November 30th, 2023== | ==Patent applications for Intel Corporation on November 30th, 2023== | ||
− | ===SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD ([[US Patent Application 17825558. SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD simplified abstract|17825558]])=== | + | ===SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD ([[US Patent Application 17825558. SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD simplified abstract (Intel Corporation)|17825558]])=== |
Line 9: | Line 29: | ||
− | ===SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS ([[US Patent Application 18449651. SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS simplified abstract|18449651]])=== | + | ===SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS ([[US Patent Application 18449651. SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS simplified abstract (Intel Corporation)|18449651]])=== |
Line 17: | Line 37: | ||
− | ===BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION ([[US Patent Application 18361128. BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION simplified abstract|18361128]])=== | + | ===BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION ([[US Patent Application 18361128. BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION simplified abstract (Intel Corporation)|18361128]])=== |
Line 25: | Line 45: | ||
− | ===SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM ([[US Patent Application 18326467. SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM simplified abstract|18326467]])=== | + | ===SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM ([[US Patent Application 18326467. SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM simplified abstract (Intel Corporation)|18326467]])=== |
Line 33: | Line 53: | ||
− | ===POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY ([[US Patent Application 18302999. POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY simplified abstract|18302999]])=== | + | ===POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY ([[US Patent Application 18302999. POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY simplified abstract (Intel Corporation)|18302999]])=== |
Line 41: | Line 61: | ||
− | ===ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE ([[US Patent Application 18232765. ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE simplified abstract|18232765]])=== | + | ===ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE ([[US Patent Application 18232765. ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE simplified abstract (Intel Corporation)|18232765]])=== |
Line 49: | Line 69: | ||
− | ===USB TYPE-C SUBSYSTEM ([[US Patent Application 17826933. USB TYPE-C SUBSYSTEM simplified abstract|17826933]])=== | + | ===USB TYPE-C SUBSYSTEM ([[US Patent Application 17826933. USB TYPE-C SUBSYSTEM simplified abstract (Intel Corporation)|17826933]])=== |
Line 57: | Line 77: | ||
− | ===MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS ([[US Patent Application 18250325. MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS simplified abstract|18250325]])=== | + | ===MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS ([[US Patent Application 18250325. MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS simplified abstract (Intel Corporation)|18250325]])=== |
Line 65: | Line 85: | ||
− | ===AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS ([[US Patent Application 18326772. AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS simplified abstract|18326772]])=== | + | ===AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS ([[US Patent Application 18326772. AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS simplified abstract (Intel Corporation)|18326772]])=== |
Line 73: | Line 93: | ||
− | ===MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS ([[US Patent Application 18323843. MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS simplified abstract|18323843]])=== | + | ===MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS ([[US Patent Application 18323843. MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS simplified abstract (Intel Corporation)|18323843]])=== |
Line 81: | Line 101: | ||
− | ===NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX ([[US Patent Application 18325348. NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX simplified abstract|18325348]])=== | + | ===NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX ([[US Patent Application 18325348. NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX simplified abstract (Intel Corporation)|18325348]])=== |
Line 89: | Line 109: | ||
− | ===APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING ([[US Patent Application 18231917. APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING simplified abstract|18231917]])=== | + | ===APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING ([[US Patent Application 18231917. APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING simplified abstract (Intel Corporation)|18231917]])=== |
Line 97: | Line 117: | ||
− | ===LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES ([[US Patent Application 17824372. LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES simplified abstract|17824372]])=== | + | ===LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES ([[US Patent Application 17824372. LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES simplified abstract (Intel Corporation)|17824372]])=== |
Line 105: | Line 125: | ||
− | ===INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION ([[US Patent Application 18031564. INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION simplified abstract|18031564]])=== | + | ===INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION ([[US Patent Application 18031564. INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION simplified abstract (Intel Corporation)|18031564]])=== |
Line 113: | Line 133: | ||
− | ===METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES ([[US Patent Application 18305175. METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES simplified abstract|18305175]])=== | + | ===METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES ([[US Patent Application 18305175. METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES simplified abstract (Intel Corporation)|18305175]])=== |
Line 121: | Line 141: | ||
− | ===FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING ([[US Patent Application 18305511. FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING simplified abstract|18305511]])=== | + | ===FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING ([[US Patent Application 18305511. FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING simplified abstract (Intel Corporation)|18305511]])=== |
Line 129: | Line 149: | ||
− | ===GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS ([[US Patent Application 18322665. GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS simplified abstract|18322665]])=== | + | ===GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS ([[US Patent Application 18322665. GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS simplified abstract (Intel Corporation)|18322665]])=== |
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− | ===REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION ([[US Patent Application 18213231. REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION simplified abstract|18213231]])=== | + | ===REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION ([[US Patent Application 18213231. REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION simplified abstract (Intel Corporation)|18213231]])=== |
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− | ===VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME ([[US Patent Application 17752941. VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME simplified abstract|17752941]])=== | + | ===VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME ([[US Patent Application 17752941. VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME simplified abstract (Intel Corporation)|17752941]])=== |
Line 153: | Line 173: | ||
− | ===INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN ([[US Patent Application 17825340. INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN simplified abstract|17825340]])=== | + | ===INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN ([[US Patent Application 17825340. INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN simplified abstract (Intel Corporation)|17825340]])=== |
Line 161: | Line 181: | ||
− | ===INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN ([[US Patent Application 17825350. INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN simplified abstract|17825350]])=== | + | ===INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN ([[US Patent Application 17825350. INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN simplified abstract (Intel Corporation)|17825350]])=== |
Line 169: | Line 189: | ||
− | ===WRAP-AROUND TRENCH CONTACT STRUCTURE AND METHODS OF FABRICATION ([[US Patent Application 18232670. WRAP-AROUND TRENCH CONTACT STRUCTURE AND METHODS OF FABRICATION simplified abstract|18232670]])=== | + | ===WRAP-AROUND TRENCH CONTACT STRUCTURE AND METHODS OF FABRICATION ([[US Patent Application 18232670. WRAP-AROUND TRENCH CONTACT STRUCTURE AND METHODS OF FABRICATION simplified abstract (Intel Corporation)|18232670]])=== |
Line 177: | Line 197: | ||
− | ===THIN FILM TRANSISTORS HAVING DOUBLE GATES ([[US Patent Application 18227233. THIN FILM TRANSISTORS HAVING DOUBLE GATES simplified abstract|18227233]])=== | + | ===THIN FILM TRANSISTORS HAVING DOUBLE GATES ([[US Patent Application 18227233. THIN FILM TRANSISTORS HAVING DOUBLE GATES simplified abstract (Intel Corporation)|18227233]])=== |
Line 185: | Line 205: | ||
− | ===GATE-ALL-AROUND INTEGRATED CIRCUIT STRUCTURES HAVING NANOWIRES WITH TIGHT VERTICAL SPACING ([[US Patent Application 18228139. GATE-ALL-AROUND INTEGRATED CIRCUIT STRUCTURES HAVING NANOWIRES WITH TIGHT VERTICAL SPACING simplified abstract|18228139]])=== | + | ===GATE-ALL-AROUND INTEGRATED CIRCUIT STRUCTURES HAVING NANOWIRES WITH TIGHT VERTICAL SPACING ([[US Patent Application 18228139. GATE-ALL-AROUND INTEGRATED CIRCUIT STRUCTURES HAVING NANOWIRES WITH TIGHT VERTICAL SPACING simplified abstract (Intel Corporation)|18228139]])=== |
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− | ===ANTENNA SWITCHING FOR IMPROVED IN-DEVICE CO-EXISTENCE PERFORMANCE ([[US Patent Application 18049651. ANTENNA SWITCHING FOR IMPROVED IN-DEVICE CO-EXISTENCE PERFORMANCE simplified abstract|18049651]])=== | + | ===ANTENNA SWITCHING FOR IMPROVED IN-DEVICE CO-EXISTENCE PERFORMANCE ([[US Patent Application 18049651. ANTENNA SWITCHING FOR IMPROVED IN-DEVICE CO-EXISTENCE PERFORMANCE simplified abstract (Intel Corporation)|18049651]])=== |
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− | ===HYBRID PHY WITH INTERLEAVED AND NON-INTERLEAVED RS-FEC AND FEC MODE DETERMINATION DURING ADAPTIVE LINK TRAINING PROTOCOL ([[US Patent Application 18199697. HYBRID PHY WITH INTERLEAVED AND NON-INTERLEAVED RS-FEC AND FEC MODE DETERMINATION DURING ADAPTIVE LINK TRAINING PROTOCOL simplified abstract|18199697]])=== | + | ===HYBRID PHY WITH INTERLEAVED AND NON-INTERLEAVED RS-FEC AND FEC MODE DETERMINATION DURING ADAPTIVE LINK TRAINING PROTOCOL ([[US Patent Application 18199697. HYBRID PHY WITH INTERLEAVED AND NON-INTERLEAVED RS-FEC AND FEC MODE DETERMINATION DURING ADAPTIVE LINK TRAINING PROTOCOL simplified abstract (Intel Corporation)|18199697]])=== |
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− | ===ADAPTATION OF SECURE SOUNDING SIGNAL TO BANDWIDTH VARIATION ([[US Patent Application 18190906. ADAPTATION OF SECURE SOUNDING SIGNAL TO BANDWIDTH VARIATION simplified abstract|18190906]])=== | + | ===ADAPTATION OF SECURE SOUNDING SIGNAL TO BANDWIDTH VARIATION ([[US Patent Application 18190906. ADAPTATION OF SECURE SOUNDING SIGNAL TO BANDWIDTH VARIATION simplified abstract (Intel Corporation)|18190906]])=== |
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− | ===SOFTWARE-BASED PHYSICAL LAYER CONFIGURATION ([[US Patent Application 18323812. SOFTWARE-BASED PHYSICAL LAYER CONFIGURATION simplified abstract|18323812]])=== | + | ===SOFTWARE-BASED PHYSICAL LAYER CONFIGURATION ([[US Patent Application 18323812. SOFTWARE-BASED PHYSICAL LAYER CONFIGURATION simplified abstract (Intel Corporation)|18323812]])=== |
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− | ===IN-NETWORK COMPUTE OPERATIONS UTILIZING ENCRYPTED COMMUNICATIONS ([[US Patent Application 18230588. IN-NETWORK COMPUTE OPERATIONS UTILIZING ENCRYPTED COMMUNICATIONS simplified abstract|18230588]])=== | + | ===IN-NETWORK COMPUTE OPERATIONS UTILIZING ENCRYPTED COMMUNICATIONS ([[US Patent Application 18230588. IN-NETWORK COMPUTE OPERATIONS UTILIZING ENCRYPTED COMMUNICATIONS simplified abstract (Intel Corporation)|18230588]])=== |
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− | ===ENCODING OF AN IMPLICIT PACKET SEQUENCE NUMBER IN A PACKET ([[US Patent Application 18231726. ENCODING OF AN IMPLICIT PACKET SEQUENCE NUMBER IN A PACKET simplified abstract|18231726]])=== | + | ===ENCODING OF AN IMPLICIT PACKET SEQUENCE NUMBER IN A PACKET ([[US Patent Application 18231726. ENCODING OF AN IMPLICIT PACKET SEQUENCE NUMBER IN A PACKET simplified abstract (Intel Corporation)|18231726]])=== |
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− | ===USER INTERFACES FOR ELECTRONIC DEVICES ([[US Patent Application 18189789. USER INTERFACES FOR ELECTRONIC DEVICES simplified abstract|18189789]])=== | + | ===USER INTERFACES FOR ELECTRONIC DEVICES ([[US Patent Application 18189789. USER INTERFACES FOR ELECTRONIC DEVICES simplified abstract (Intel Corporation)|18189789]])=== |
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− | ===MOBILITY FEATURES FOR NEXT GENERATION CELLULAR NETWORKS ([[US Patent Application 18352810. MOBILITY FEATURES FOR NEXT GENERATION CELLULAR NETWORKS simplified abstract|18352810]])=== | + | ===MOBILITY FEATURES FOR NEXT GENERATION CELLULAR NETWORKS ([[US Patent Application 18352810. MOBILITY FEATURES FOR NEXT GENERATION CELLULAR NETWORKS simplified abstract (Intel Corporation)|18352810]])=== |
Latest revision as of 06:37, 7 December 2023
Summary of the patent applications from Intel Corporation on November 30th, 2023
Intel Corporation has recently filed several patents related to various aspects of technology. These patents cover areas such as layer 1 (L1)/layer 2 (L2) triggered mobility (LTM) aspects, electronic device display interfaces for camera control, network interface devices with direct memory access (DMA) circuitry, secure connections over Remote Direct Memory Access (RDMA), software-based management of the physical layer (PHY) of a link, adapting secure sounding signals in communication devices, implementing high-speed Ethernet links using a hybrid PHY, gate-all-around integrated circuit structures with tightly spaced nanowires, and thin film transistors with double gates.
Notable applications of these patents include:
- Layer 1 (L1)/layer 2 (L2) triggered mobility (LTM) aspects, including inter-cell mobility, split architectures, dynamic cell group changes, activation, and deactivation.
- Electronic device display interfaces for controlling a camera and reviewing captured images, providing a simplified and user-friendly interface.
- Network interface devices with direct memory access (DMA) circuitry for processing packets and determining Extended Sequence Number (ESN) values.
- Secure connections over Remote Direct Memory Access (RDMA) with two network interface devices, acting as endpoints for Transport Layer Security (TLS) over RDMA connections.
- Software-based application for managing the physical layer (PHY) of a link using an application programming interface (API) to configure the physical layer through firmware.
- Adapting secure sounding signals in communication devices based on negotiated bandwidth for secure communication.
- Implementing high-speed Ethernet links using a hybrid PHY with non-interleaved or interleaved RS-FEC sublayers, determined during link training.
- Gate-all-around integrated circuit structures with tightly spaced nanowires and methods for fabricating them.
- Thin film transistors with double gates for improved control and performance.
In summary, Intel Corporation has filed patents covering a wide range of technological advancements, including mobility aspects, camera control interfaces, network interface devices, secure connections, software-based management of the physical layer, adaptive sounding signals, high-speed Ethernet links, integrated circuit structures, and thin film transistors. These patents demonstrate Intel's commitment to innovation and advancing technology in various fields.
Contents
- 1 Patent applications for Intel Corporation on November 30th, 2023
- 1.1 SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD (17825558)
- 1.2 SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS (18449651)
- 1.3 BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION (18361128)
- 1.4 SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM (18326467)
- 1.5 POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY (18302999)
- 1.6 ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE (18232765)
- 1.7 USB TYPE-C SUBSYSTEM (17826933)
- 1.8 MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS (18250325)
- 1.9 AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS (18326772)
- 1.10 MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS (18323843)
- 1.11 NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX (18325348)
- 1.12 APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING (18231917)
- 1.13 LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES (17824372)
- 1.14 INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION (18031564)
- 1.15 METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES (18305175)
- 1.16 FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING (18305511)
- 1.17 GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS (18322665)
- 1.18 REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION (18213231)
- 1.19 VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME (17752941)
- 1.20 INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN (17825340)
- 1.21 INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN (17825350)
- 1.22 WRAP-AROUND TRENCH CONTACT STRUCTURE AND METHODS OF FABRICATION (18232670)
- 1.23 THIN FILM TRANSISTORS HAVING DOUBLE GATES (18227233)
- 1.24 GATE-ALL-AROUND INTEGRATED CIRCUIT STRUCTURES HAVING NANOWIRES WITH TIGHT VERTICAL SPACING (18228139)
- 1.25 ANTENNA SWITCHING FOR IMPROVED IN-DEVICE CO-EXISTENCE PERFORMANCE (18049651)
- 1.26 HYBRID PHY WITH INTERLEAVED AND NON-INTERLEAVED RS-FEC AND FEC MODE DETERMINATION DURING ADAPTIVE LINK TRAINING PROTOCOL (18199697)
- 1.27 ADAPTATION OF SECURE SOUNDING SIGNAL TO BANDWIDTH VARIATION (18190906)
- 1.28 SOFTWARE-BASED PHYSICAL LAYER CONFIGURATION (18323812)
- 1.29 IN-NETWORK COMPUTE OPERATIONS UTILIZING ENCRYPTED COMMUNICATIONS (18230588)
- 1.30 ENCODING OF AN IMPLICIT PACKET SEQUENCE NUMBER IN A PACKET (18231726)
- 1.31 USER INTERFACES FOR ELECTRONIC DEVICES (18189789)
- 1.32 MOBILITY FEATURES FOR NEXT GENERATION CELLULAR NETWORKS (18352810)
Patent applications for Intel Corporation on November 30th, 2023
SOCKETED MEMORY ARCHITECTURE PACKAGE AND METHOD (17825558)
Main Inventor
Siva Prasad Jangili Ganga
SYSTEMS AND METHODS FOR COMPUTING DOT PRODUCTS OF NIBBLES IN TWO TILE OPERANDS (18449651)
Main Inventor
Raanan Sade
BOOT PROCESS FOR EARLY DISPLAY INITIALIZATION AND VISUALIZATION (18361128)
Main Inventor
Subrata Banik
SYSTEMS AND METHODS FOR IMPLEMENTING AN INTELLIGENT APPLICATION PROGRAM INTERFACE FOR AN INTELLIGENT OPTIMIZATION PLATFORM (18326467)
Main Inventor
Alexandra Johnson
POWER ERROR MONITORING AND REPORTING WITHIN A SYSTEM ON CHIP FOR FUNCTIONAL SAFETY (18302999)
Main Inventor
Prashant D. Chaudhari
ACCELERATED MEMORY TRAINING THROUGH IN-BAND CONFIGURATION REGISTER UPDATE MODE (18232765)
Main Inventor
Saravanan SETHURAMAN
USB TYPE-C SUBSYSTEM (17826933)
Main Inventor
Udaya Natarajan
MULTI-PORT MEMORY LINK EXPANDER TO SHARE DATA AMONG HOSTS (18250325)
Main Inventor
Zhuangzhi Li
AI-BASED COMPONENT PLACEMENT TECHNOLOGY FOR PCB CIRCUITS (18326772)
Main Inventor
Jianfang Zhu
MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS (18323843)
Main Inventor
GLEN J. ANDERSON
NEURAL NETWORK TRAINING AND INFERENCE WITH HIERARCHICAL ADJACENCY MATRIX (18325348)
Main Inventor
Emmanouil Ioannis Farsarakis
APPARATUS AND METHOD FOR SCALABLE QUBIT ADDRESSING (18231917)
Main Inventor
Xiang ZOU
LOSSY COMPRESSION TECHNOLOGY FOR SMALL IMAGE TILES (17824372)
Main Inventor
Sreenivas Kothandaraman
INCREMENTAL 2D-TO-3D POSE LIFTING FOR FAST AND ACCURATE HUMAN POSE ESTIMATION (18031564)
Main Inventor
Anbang YAO
METHOD AND APPARATUS FOR ENCODING BASED ON IMPORTANCE VALUES (18305175)
Main Inventor
Yejun Guo
FRAGMENT COMPRESSION FOR COARSE PIXEL SHADING (18305511)
Main Inventor
Prasoonkumar Surti
GLARE AND OCCLUDED VIEW COMPENSATION FOR AUTOMOTIVE AND OTHER APPLICATIONS (18322665)
Main Inventor
Arthur J. Runyan
REFRESH COMMAND CONTROL FOR HOST ASSIST OF ROW HAMMER MITIGATION (18213231)
Main Inventor
Bill NALE
VIA STRUCTURE FOR EMBEDDED COMPONENT AND METHOD FOR MAKING SAME (17752941)
Main Inventor
Kristof Darmawikarta
INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING INTEGRATED CIRCUIT DEVICES THEREIN (17825340)
Main Inventor
Kai-Chiang Wu
INTEGRATED CIRCUIT ASSEMBLIES HAVING INTERCONNECTION BRIDGES SPANNING RETICLE BOUNDARY / DICING STREETS OF MONOLITHIC STRUCTURES THEREIN (17825350)
Main Inventor
Debendra Mallik
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