In accordance with example implementations, a process includes associating a secondary computer system with a primary computer system. The secondary computer system includes a first virtual machine, which is hosted by a secondary set of physical computer nodes. The primary computer system has a primary role, and the primary role corresponds to a minimum physical resource allocation. The secondary computer system is associated with a secondary role, and the second computer system is provisioned with a second physical resource allocation, which is less than the minimum physical resource allocation. The process includes, responsive to the primary computer system failing and without rebooting the secondary computer system, preparing the secondary computer system to take over the primary role. The preparation includes adding at least one physical computer node to the secondary set of physical computer nodes to cause the second physical resource allocation to meet or exceed the minimum physical resource allocation. The process includes, responsive to the primary computer system failing and without rebooting the secondary computer system, causing the secondary computer system to take over the primary role.
G06F 11/20 - Détection ou correction d'erreur dans une donnée par redondance dans le matériel en utilisant un masquage actif du défaut, p.ex. en déconnectant les éléments défaillants ou en insérant des éléments de rechange
G06F 9/50 - Allocation de ressources, p.ex. de l'unité centrale de traitement [UCT]
G06F 9/455 - Dispositions pour exécuter des programmes spécifiques Émulation; Interprétation; Simulation de logiciel, p.ex. virtualisation ou émulation des moteurs d’exécution d’applications ou de systèmes d’exploitation
2.
RETRIEVAL, MODEL-DRIVEN, AND ARTIFICIAL INTELLIGENCE-ENABLED SEARCH
Systems and methods disclosed herein may include a plurality of operators to search and retrieve various types of data in a result set, simultaneously. The operators may include a retrieval operator, user defined function (UDF) operator, and artificial intelligence (AI) operator in communication with an interface layer and multiple shards of a database for generating the result set.
A technique includes receiving information relating to wear of computer nodes. Based on the information relating to the wear, the technique includes ranking the computer nodes according to respective expected remaining lifetimes of the computer nodes. The technique includes, responsive to an event that corresponds to at least one of a spare computer node being added to the system or a given computer node being removed from the system, reconfiguring the system based on the ranking.
Systems and methods are provided for defining basic service set (BSS) colors and spatial reuse groups (SRGs) for multiple basic service set identifier (MBSSID) sets. The systems and methods can set a first BSS color for a first MBSSID set and a second BSS color for a second MBSSID set, the MBSSID sets pertaining to a first access point. For a second access point, the system can set a third BSS color for a third MBSSID set and a fourth BSS color for a fourth MBSSID set. A SRG can be defined for the first MBSSID set, wherein the first spatial reuse group advertises the first BSS color and any BSS colors associated with the second access point.
The present disclosure describes examples of the mechanism of a Supplemental Beacon. The Supplemental Beacon may be used as an additional beacon to an original main beacon in a Wi-Fi system. The Supplemental Beacon may be transmitted in a Short Interframe Space (SIFS) interval preceding the transmittance of the main beacon. Establishing set times of the Supplemental Beacon transmittance before the main beacon may allow client devices to wake up at consistent time intervals to receive data, and allow client devices to only remain awake for a short duration between the Supplemental Beacon transmittance and the main beacon transmittance before going back to sleep. The support of a Supplemental Beacon to the main beacon at fixed times of short duration before the main beacon that may allow the conservation of power of client devices and network devices in the Wi-Fi system, and increase productivity in the transmission of data.
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
H04W 84/12 - Réseaux locaux sans fil [WLAN Wireless Local Area Network]
H04W 88/06 - Dispositifs terminaux adapté au fonctionnement dans des réseaux multiples, p.ex. terminaux multi-mode
Systems and methods are provided for specifying a link recommendation. Such a link recommendation can recommend a particular multi-link operation (MLO) link between an access point (AP) multi-link device (AP MLD) and a non-AP MLD, such as a client device or station for use when exchanging data frames. Conventional usage of MLO can result in non-AP MLDs attempting to associate to a particular AP MLD over the same link, which can result in overloading of that link. This is because the implementation of MLO elevates the context of AP-client device/station association to a higher level, i.e., the device/MLD level, and the link on which data frames are sent or received between an AP MLD and a non-AP MLD s no longer a consideration/relevant. However, the transmission of link recommendations indicating links to use (or to avoid), avoids or lessens the risk that multiple non-AP MLDs attempting to associate to an AP MLD will overload or overuse the same link.
In some examples, based on the information relating to the wear of physical memories in computer nodes of the distributed system, a system initiates a migration of a memory page from a first physical memory in a first computer node to a second physical memory in a second computer node. As part of the migration, the system updates a mapping between a first address space accessible by programs in the distributed system and a physical address space comprising memory locations in the physical memories.
Systems and methods are provided for transmitting low latency traffic in next generation wireless local area networks. A new Media Access Control (MAC) layer frame can be transmitted by an AP to establish a reserved time period during which interference from/collisions with other stations transmitting non-high priority data is avoided. Stations with non-high priority data queued for transmission can defer accessing a channel on which to effectuate the transmission until the reserved time period expires.
Systems and methods are provided for encryption enhancement for a multi-link operation. Various subsets of addresses (or all addresses) associated with the frame are set to a determined known value, allowing encryption of the mac protocol data unit (MPDU) at a controller without knowledge of which particular link the frames will be sent. The multi-link devices (MLDs) used in the above communication may conduct communications in compliance with the IEEE 802.11be standard.
H04L 9/06 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p.ex. système DES
H04W 12/03 - Protection de la confidentialité, p.ex. par chiffrement
H04W 76/15 - Gestion de la connexion Établissement de la connexion Établissement de connexions à liens multiples sans fil
10.
SYSTEMS AND METHODS FOR LOW LATENCY TRAFFIC IN NEXT GENERATION WLAN NETWORKS
Systems and methods are provided for transmitting low latency traffic in next generation wireless local area networks. A new Media Access Control (MAC) layer frame can be transmitted by an AP to establish a reserved time period during which interference from/collisions with other stations transmitting non-high priority data is avoided. Stations with non-high priority data queued for transmission can defer accessing a channel on which to effectuate the transmission until the reserved time period expires.
A system for processing gather and scatter instructions can implement a front-end subsystem, a back-end subsystem, or both. The front-end subsystem includes a prediction unit configured to determine a predicted quantity of coalesced memory access operations required by an instruction. A decode unit converts the instruction into a plurality of access operations based on the predicted quantity, and transmits the plurality of access operations and an indication of the predicted quantity to an issue queue. The back-end subsystem includes a load-store unit that receives a plurality of access operations corresponding to an instruction, determines a subset of the plurality of access operations that can be coalesced, and forms a coalesced memory access operation from the subset. A queue stores multiple memory addresses for a given load-store entry to provide for execution of coalesced memory accesses.
Systems and methods are provided for implementing swarm learning while using blockchain technology and election/voting mechanisms to ensure data privacy. Nodes may train local instances of a machine learning model using local data, from which parameters are derived or extracted. Those parameters may be encrypted and persisted until a merge leader is elected that can merge the parameters using a public key generated by an external key manager. A decryptor that is not the merge leader can be elected to decrypt the merged parameter using a corresponding private key, and the decrypted merged parameter can then be shared amongst the nodes, and applied to their local models. This process can be repeated until a desired level of learning has been achieved. The public and private keys are never revealed to the same node, and may be permanently discarded after use to further ensure privacy.
Systems and methods are provided for leveraging blockchain technology in a swarm learning context, where nodes of a blockchain network that contribute data to training a machine learning model using their own local data can be rewarded. In order to conduct such data monetization in a fair and accurate manner, the systems and methods rely on various phases in which Merkle trees are used and corresponding Merkle roots are registered in a blockchain ledger. Moreover, any claims for a reward are challenged by peer nodes before the reward is distributed.
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
H04L 9/06 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p.ex. système DES
A system, includes a plurality of sub-queues. Each sub-queue is assigned to an age class of a sequence of age classes. A set of age thresholds divides the sub-queues. A queue manager places a received transaction into a sub-queue based on a comparison of an age of the received transaction to the set of age thresholds.
Systems, methods, and computer readable mediums for a TWT based multi-connection mechanism include sending, by a station, a first request for a first Target Wake Time (TWT) session with a first access point, wherein the first TWT session is established, determining, by the station and based on the first TWT session, a timing for a second TWT session such that a plurality of service periods of the first TWT session do not overlap with a plurality of service periods of the second TWT session, sending, by the station, a second request for the second Target Wake Time (TWT) session with a second access point, and wherein the second TWT session is established, and receiving, by the station, data from the first AP during a service period of the first TWT session and data from the second AP during a service period of the second TWT session.
Systems, methods, and computer readable mediums for persistent TWT sessions include establishing, by an access point, a plurality of sessions with a plurality of stations, wherein one or more of the plurality of sessions comprise a target wake time (TWT), determining, by the access point, that a downtime event will occur before a TWT of a particular station of the plurality of stations, in response to the downtime event occurring during the TWT of the particular station, sending, by the access point, information associated with the plurality of sessions to a secondary device, after the downtime event, retrieving, by the access point, the information associated with the plurality of sessions from the secondary device, and reestablishing, by the access point using the information, the plurality of sessions.
A circuit board cooling apparatus is disclosed having a heat spreader device to be thermally coupled with a surface of the circuit board to be cooled. Also, a conforming heat transfer device is disclosed that is thermally and physically coupled with the heat spreader device to conform to a surface contour of the heat spreader device on a first side of the heat transfer device. The cooling apparatus also includes a heat transport device physically attached and thermally coupled with a second side of the heat transfer device.
G06F 21/71 - Protection de composants spécifiques internes ou périphériques, où la protection d'un composant mène à la protection de tout le calculateur pour assurer la sécurité du calcul ou du traitement de l’information
In example implementations, an apparatus is provided. The apparatus includes an optical transmission component and an optical reception component. The optical transmission component includes a plurality of lasers and a transmit filter. The plurality of lasers each emit a different wavelength of light. The transmit filter includes a plurality of different regions that correspond to one of the different wavelengths of light emitted by the plurality of lasers. The optical reception component includes a plurality of photodiodes and a complementary reverse order (CRO) filter. The CRO filter includes a same plurality of different regions as the transmit filter in a reverse order.
A network infrastructure device (e.g., network switch), that integrates solid-state drive (SSD) storage, using Non-volatile Memory Express (NVMe) data transfer protocol, for use by remote application hosts is provided. High availability configurations of network switches using direct rate control (RC) feedback for a plurality of submission queues mapped to SSD storage is provided. NVMe over fabric (NVMe-oF) is an implementation of NVMe protocol over a network fabric. Access to SSDs over network fabrics may be controlled using a direct RC feedback signal between an egress queue congestion accounting (associated with a single egress output) and a source node receiving input/output commands from remote hosts for the integrated SSD devices. In some implementations, direct RC feedback signals use hardware based signals. In some implementations, direct RC feedback signals are implemented in the hardware logic (silicon chip logic) within an internal switch fabric of the network switch.
Non-volatile memory express (NVMe) is a data transfer protocol used to enable high-speed data transfer between a host computer system and a solid-state drive (SSD). NVMe may be implemented over network fabrics and referred to as NVMe over fabrics (NVMe-oF). Access to SSD storage over network fabrics via NVMe-oF allows software defined storage to scale to allow access to a number of NVMe devices and extend distances between devices within a datacenter over which NVMe devices may be accessed. A network device is provided to automatically detect, prioritize, and route NVMe network packets in a network that includes multiple data communication protocols. For example, the network device may obtain network packets, analyze network packets to identify packet type and protocol, and redirect the network packets based on the analysis and detection. Thus, a processing priority may be provided for NVMe packets to assist in lossless communication implementations for storage across a network.
Examples described herein provide wake-up of a network device. Examples include receiving, by a network interface of a first network device having a first Media Access Control (MAC) address, a request to wake-up a second network device having a second MAC address that is assigned to a same subnet as the first MAC address, and in response to the request, generating, by the first network device, a first wake-up frame having a destination address of the second MAC address and configured to cause the second network device to transition from operating in the first power mode to operating in the second power mode. Examples include transmitting, by the network interface of the first network device, the first wake-up frame to the second MAC address of the second network device.
Examples described herein provide multi-band directional scanning. Examples may include receiving, by a first radio of a first network device operating at a first frequency band below the millimeter-wave (mmWave), a probe request from a second network device indicating a protocol and a particular sector receiving direction of the second network device, and in response to the protocol indicated by the probe request, transmitting, by a second radio of the first network device operating at a second frequency band within the mmWave, a probe response in each of one or more sector transmitting directions, wherein the second network device receives one or more probe responses in the particular sector receiving direction.
A resource of a network device may be assigned from a first tenant to a second tenant of the network device. Resources of the network device may include an assignment right, an access right, and a configuration right. By assigning the resource to the second tenant, the second tenant may be granted an access right to the assigned resource. Responsive to the assignment of the resource, an access right to the assigned resource may be removed from the first tenant such that the first tenant is isolated from the resource.
Examples described herein provide multi-band channel scanning. Examples may include transmitting, by a first radio of a first network device operating at a first frequency band below the millimeter-wave (mmWave), a beacon frame indicating a particular scanning channel of a second frequency band within the mmWave, receiving, by a second radio of the first network device operating the second frequency band, a probe request from a second network device via the particular scanning channel, wherein the probe request is in response to the beacon frame received by the second network device, and in response to the probe request, transmitting, by the second radio of the first network device, a probe response in each of one or more sector transmitting directions via the particular scanning channel.
An example network orchestrator includes processing circuitry and a memory. The memory includes instructions that cause the network orchestrator to receive network probe information including delay times of network probes associated with a set of flows between devices. The instructions further cause the network orchestrator to generate a correlation matrix including correlations representing shared congested links between pairs of flows. The instructions further cause the network orchestrator to for each flow of the set of flows, determine a routing solution optimized for the each flow and select a total minimum cost solution from the determined routing solutions.
H04L 12/721 - Procédures de routage, p.ex. routage par le chemin le plus court, routage par la source, routage à état de lien ou routage par vecteur de distance
H04L 12/715 - Routage hiérarchique, p.ex. réseaux en grappe ou routage inter-domaine
H04L 12/801 - Commande de flux ou commande de congestion
H04L 12/24 - Dispositions pour la maintenance ou la gestion
An example branch gateway (BG) of a local area network (LAN) includes processing circuitry and a memory. The memory includes instructions that cause the BG to determine that a network traffic load of the BG is greater than that of another BG. The instructions further cause the BG to determine that a first network traffic load skew between the BG and the other BG is greater than a first threshold. The instructions further cause the BG to select a first virtual local area network (VLAN) of a set of VLANs of the LAN, wherein network traffic of client devices of the first VLAN is routed through the BG based on a master role of the first VLAN being assigned to the BG. The instructions further cause the BG to transmit a message to the other BG that assigns the master role of the first VLAN to the other BG.
Decentralized machine learning to build models is performed at nodes where local training datasets are generated. A blockchain platform may be used to coordinate decentralized machine learning (ML) over a series of iterations. For each iteration, a distributed ledger may be used to coordinate the nodes communicating via a blockchain network. A node can include self-healing features to recover from a fault condition within the blockchain network in manner that does not negatively impact the overall learning ability of the decentralized ML system. During self-healing, the node can determine that a local ML state is not consistent with the global ML state and trigger a corrective action to recover the local ML state. Thereafter, the node can generate a blockchain transaction indicating that it is in-sync with the most recent iteration of training, and informing other nodes to reintegrate the node into ML.
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
G06F 11/16 - Détection ou correction d'erreur dans une donnée par redondance dans le matériel
An electronic component enclosure includes a plurality of wall structures defining outer walls of the enclosure. Each wall structure has an internal fluid channel for circulation of cooling fluid. The enclosure further includes at least one partition structure disposed within the outer walls and having an internal fluid channel in sealed fluid communication with the internal fluid channel of at least one of the plurality of wall structures. The internal fluid channel of at least one of the plurality of wall structures and the internal fluid channel of the at least one partition structure defines a continuous fluid circulation path between a fluid inflow port and a fluid outflow port.
Systems and methods are provided for monitoring a connection state between a primary DHCP server and a secondary DHCP server, determining that a connection between the primary DHCP server and the secondary DHCP server has not been established within a first timeframe, establishing a partner-down operation state at one or more of the primary DHCP server and secondary DHCP server, and, during an established partner-down operation state, issuing/allocating short-term network address leases from one of the primary DHCP servers or secondary DHCP servers. Short-term network leases of the present disclosure may have a duration of between 1 second and 5 minutes.
A method for securing a plurality of compute nodes includes authenticating a hardware architecture of each of a plurality of components of the compute nodes. The method also includes authenticating a firmware of each of the plurality of components. Further, the method includes generating an authentication database comprising a plurality of authentication descriptions that are based on the authenticated hardware architecture and the authenticated firmware. Additionally, a policy for securing a specified subset of the plurality of compute nodes is implemented by using the authentication database.
G06F 21/57 - Certification ou préservation de plates-formes informatiques fiables, p.ex. démarrages ou arrêts sécurisés, suivis de version, contrôles de logiciel système, mises à jour sécurisées ou évaluation de vulnérabilité
G06F 21/70 - Protection de composants spécifiques internes ou périphériques, où la protection d'un composant mène à la protection de tout le calculateur
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
H04L 9/06 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p.ex. système DES
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
32.
THERMAL INTERFACE APPARATUS FOR PCI EXPRESS M.2 PRINTED CIRCUIT ASSEMBLIES
In some embodiments, an apparatus comprises an integrated circuit module comprising two layers of thermal interface material, a printed circuit assembly disposed between the two layers of thermal interface material and comprising a plurality of integrated circuits disposed on both sides of a circuit board, wherein at least one of the integrated circuits is thermally coupled with one of the layers of thermal interface material, and two heat spreaders adapted to removably retain one another, and when retaining one another to enclose and become thermally coupled with the two layers of thermal interface material; and a printed circuit board having a connector disposed thereon, wherein a connector edge of the printed circuit assembly is disposed within the connector. In other embodiments, a frame is adapted to retain the two heat spreaders.
Software defined wide area network uplink selection for a cloud service can include a network controller to periodically update a list of cloud servers that provide a cloud service. The network controller can select a preferred cloud server from the updated list of cloud servers. Upon receiving a client device request to use the cloud service, the network controller can send identifying information of the selected preferred cloud server to the client device.
In some examples, a first virtual network function (VNF) that is part of a collection of interconnected VNFs detects a service interruption in a network that includes the collection interconnected VNFs. In response to detecting the service interruption, the first VNF sends control information to a target entity, the control information specifying an action to take to change a communication flow through the collection of interconnected VNFs.
H04L 12/851 - Actions liées au type de trafic, p.ex. qualité de service ou priorité
H04L 12/801 - Commande de flux ou commande de congestion
H04L 12/825 - Commande adaptative, à la source ou aux nœuds intermédiaires, sur réception d'avis de congestion, p.ex. X-on X-off
H04L 12/805 - Détermination de la taille optimum des paquets, p.ex. unité de transmission maximum [MTU]
H04L 12/911 - Contrôle d’admission au réseau et allocation de ressources, p.ex. allocation de bande passante ou renégociation en cours de communication
A memory access system may include a first memory address translator, a second memory address translator and a mapping entry invalidator. The first memory address translator translates a first virtual address in a first protocol of a memory access request to a second virtual address in a second protocol and tracks memory access request completions. The second memory address translator is to translate the second virtual address to a physical address of a memory. The mapping entry invalidator requests invalidation of a first mapping entry of the first mapping address translator requests invalidation of a second mapping entry of the second memory address translator corresponding to the first mapping entry following invalidation of the first mapping entry and based upon the tracked memory access request completions.
G06F 12/1036 - Traduction d'adresses utilisant des moyens de traduction d’adresse associatifs ou pseudo-associatifs, p.ex. un répertoire de pages actives [TLB] pour espaces adresse virtuels multiples, p.ex. segmentation
G06F 13/42 - Protocole de transfert pour bus, p.ex. liaison; Synchronisation
36.
MASTERLESS RAID FOR BYTE-ADDRESSABLE NON-VOLATILE MEMORY
A system includes byte-addressable non-volatile memory (NVM) modules. The system includes media controllers communicatively connected to one another over a memory semantic fabric. Each media controller is responsible for a corresponding NVM module to which the media controller is attached. The media controllers cooperatively provide redundant array of independent disks (RAID) functionality at a granularity at which the NVM modules are byte-addressable without employing a master RAID controller.
G06F 11/10 - Détection ou correction d'erreur par introduction de redondance dans la représentation des données, p.ex. en utilisant des codes de contrôle en ajoutant des chiffres binaires ou des symboles particuliers aux données exprimées suivant un code, p.ex. contrôle de parité, exclusion des 9 ou des 11
G06F 3/06 - Entrée numérique à partir de, ou sortie numérique vers des supports d'enregistrement
A ternary content addressable memory (TCAM) semiconductor device includes a first and second data storage portions each connected to a bit line. The first data storage portion is connected to a first word line, and to a first and third group of in series transistors. The second data storage portion is connected to a second word line, and to a second and fourth group of in series transistors. The first group and second group of in series transistors are each connected to a first match line. The first group is connected to a first search line bar, and the second group is connected to a first search line. A third and fourth group of in series transistors are each connected to a second match line. The third group is connected to a second search line, and the fourth group is connected to a second search line bar.
G11C 15/04 - Mémoires numériques dans lesquelles l'information, comportant une ou plusieurs parties caractéristiques, est écrite dans la mémoire et dans lesquelles l'information est lue au moyen de la recherche de l'une ou plusieurs de ces parties caractéristique utilisant des éléments semi-conducteurs
G11C 11/413 - Circuits auxiliaires, p.ex. pour l'adressage, le décodage, la commande, l'écriture, la lecture, la synchronisation ou la réduction de la consommation
G11C 11/417 - Circuits auxiliaires, p.ex. pour l'adressage, le décodage, la commande, l'écriture, la lecture, la synchronisation ou la réduction de la consommation pour des cellules de mémoire du type à effet de champ
38.
SOFTWARE DEFINED WIDE AREA NETWORK UPLINK SELECTION WITH A VIRTUAL IP ADDRESS FOR A CLOUD SERVICE
Software defined wide area network uplink selection with a virtual IP address for a cloud service can include a network controller to select from a list of cloud servers that provide the cloud service, a first preferred cloud server and map the virtual IP address of the cloud service to an IP address of the first preferred cloud server. The network controller can select a second preferred cloud server from the list of cloud servers and remap the virtual IP address of the cloud service to an IP address of the second preferred cloud server.
In some examples, a system monitors a network that includes a collection of interconnected virtual network functions (VNFs), the monitoring comprising receiving control information from a VNF of the VNFs, the control information specifying an action to take to address an issue detected by the VNF. Responsive to the monitoring, the system modifies an allocation of resources to the VNF.
Systems and methods are provided for available network bandwidth estimation using a one]way]delay noise filter with bump detection. The method includes receiving oneway delay measurements for each probe packet in a probe train sent over the telecommunications path; grouping the probe packets into a plurality of pairs based on the one]way delay measurements; for each pair, computing a respective noise threshold based on the one]way delay measurements of all the probe packets transmitted after a latertransmitted probe packet of the pair; selecting one of the pairs according to the noise thresholds and the one]way delay measurements for the probe packets of the pairs; and estimating the available bandwidth on the telecommunications path based on transmission times of the probe packets in the selected pair.
An example hierarchical switching device may include sub-switches that form a fully interconnected all-to-all network, wherein the sub-switches comprise external output ports, internal input ports and internal output ports to exchange packets with other sub-switches within the fully interconnected all-to-all network. The switching device may further include a deadlockable storage, a storage partition and a switch controller. The deadlockable storage space is exclusively assigned to an internal input port of the internal input ports of the sub-switch including the deadlockable storage. The storage partition is exclusively assigned to an external output port of the external output ports and exclusively assigned to the internal input port. The switch controller is to route a packet destined for an external output port of a sub-switch through the internal input port of the sub-switch to the deadlockable storage or if the packet corresponds to the external output port, to the storage partition.
Determination of an inflection point in congestion in a network path can include determining packet congestion on a network path using an inflection point mechanism (IPDM), detecting a potential inflection point in response to a one-way delay (OWD) of a first packet being lesser than an OWD of a second packet by a quantity greater than a function of a difference of inter departure time (IDT) between the first packet and the second packet, and determining an inflection point in congestion of the network path based on the potential inflection point.
Example implementations relate to generating virtualized network functions by identifying mappable elements and unmappable elements of a virtualized network function template based on a network function virtualization model. The mappable elements may be mapped to the network function virtualization model. The mappable elements may be translated based on the mapping. The unmappable elements are filtered based on a black-white list. The translated virtualized network function definition comprising the translated elements and the filtered elements is generated. The virtualized network function is generated based on the translated virtualized network function definition.
H04L 12/24 - Dispositions pour la maintenance ou la gestion
H04L 29/06 - Commande de la communication; Traitement de la communication caractérisés par un protocole
G06F 9/455 - Dispositions pour exécuter des programmes spécifiques Émulation; Interprétation; Simulation de logiciel, p.ex. virtualisation ou émulation des moteurs d’exécution d’applications ou de systèmes d’exploitation
44.
3D CROSS-BAR ARRAY OF NON-VOLATILE RESISTIVE MEMORY DEVICES AND AN OPERATING METHOD OF THE SAME
A 3D cross-bar array of non-volatile resistive memory devices includes an array of pillar electrodes, an array of word lines, a plurality of memristor cells, and a plurality of insulation walls. The array of pillar electrodes is arranged in a first direction and a second direction, and each of the pillar electrodes extends in a third direction. The array of word lines is arranged in the first direction and the third direction, and each of the word lines extends in the second direction. The plurality of memristor cells is formed at cross points of the pillar electrodes and the word lines around the pillar electrodes. The plurality of insulation walls is arranged in the first direction and electrically insulating a plurality of word lines arranged in the first direction from each other, and each of the insulation walls extends in the second and third directions.
A charge metering circuit for a memristor includes a switch connected between a stimulus voltage and the memristor. The switch is pulsed on to apply the stimulus voltage to the memristor. The circuit includes a current mirror connected between a low-rail voltage and the memristor and having a primary leg and a secondary leg, and a capacitor connected between a capacitor voltage and the secondary leg. The primary leg pulls a voltage at the memristor to a virtual ground voltage upon pulsing on of the switch, and the secondary leg pulls a current through the capacitor from the capacitor voltage.
An arbiter may include a plurality of cells, mapping logic, a fixed priority arbiter, and unmapping logic. Each cell may be associated with a corresponding client and configured to store a priority for the corresponding client. The mapping logic may be connected to the plurality of cells to order requests received from the clients according to the priorities stored in the cells. The fixed priority arbiter may receive the ordered requests and generate a grant for a winning request of the requests. The unmapping logic may use the stored priorities to yield the grant back to the winning client that sent the winning request.
G06F 13/364 - Gestion de demandes d'interconnexion ou de transfert pour l'accès au bus ou au système à bus communs avec commande d'accès centralisée utilisant des signaux indépendants de demande ou d'autorisation, p.ex. utilisant des lignes séparées de demande et d'autorisation
47.
SENDING DATA USING A PLURALITY OF CREDIT POOLS AT THE RECEIVERS
Examples relate to methods for sending data between a senders and receivers coupled by a link. These methods comprise allocating a plurality of credit pools in a buffer on the receiver. These credits represent a portion of memory space in the buffer to store data received from the sender. Then, the sender allocates a number of credits from a plurality of credits to each virtual channel. A number of virtual channels from the plurality of virtual channels is mapped to the credit pools. The sender sends a data block to the receiver through a particular virtual channel when there are enough credits available in at least one of the particular virtual channel and the data pool to which the particular virtual channel is mapped. The sender decrements a credit counter associated with the corresponding at least one of the particular virtual channel and the data pool.
An example non-transitory memory resource including instructions executable by the processing resource to monitor device information for a plurality of devices, wherein the plurality of devices comprise at least one device of an unknown device type, identify behavior attributes for the plurality of devices based on the monitored device information, cluster the plurality of devices into groups based on the behavior attributes, identify a device type for the plurality of devices based on the group of the plurality of devices; and present identifiers for each of the plurality of devices, based on the device type of the plurality of devices.
The present application discloses a network device, a method for security and a computer readable storage medium. The example network device may include a processor to perform: acquiring data to be processed from a downstream device, and transmitting it to a trusted platform module (TPM); and after the TPM encrypts the data to be processed using a cloud key stored therein, receiving the encrypted data for subsequent usage. The processor is further to perform: sending a request to a remote server to acquire the cloud key; and forwarding the acquired cloud key to the TPM for storage.
A verification framework is decentralized by implementing a database of Known Good States through a blockchain and smart contracts. In this manner, the system may provide an open platform to attest the integrity of various components, which may originate from different vendors. As such, the system supports attestation for multi-vendor infrastructures. In some instances, the system may leverage crypto-economics to monetize the platform. For instance, verifiers may be rewarded according to terms of a smart contract implemented on the blockchain network. Moreover, in some instances, the components may be delivered via an immutable file system, such as the InterPlanetary File System ("IPFS"). The IPFS is a decentralized file system based on a peer-to-peer protocol, improving file distribution efficiency. Components stored using IPFS each are assigned a unique identifier, which is a hash digest composition over the files blocks. Thus, any modifications to the components may be detected via hash comparisons.
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
H04L 9/06 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p.ex. système DES
51.
DEVICE FOR ORCHESTRATING DISTRIBUTED APPLICATION DEPLOYMENT WITH END-TO-END PERFORMANCE GUARANTEE
A method for receiving, in an application orchestrator, a request for executing an application. The method includes identifying a function sequence to complete the application, each function in the function sequence is executed in one instance, and identifying an instance chain of the functions to complete the application, wherein the instance chain includes an instance for each function in the function sequence. The method includes tracking a performance of each instance for each function in the chain, and selecting an application execution route based on the performance that includes the instance chain of the functions to complete the application. The method includes allocating a server resource to each instance for each function and modifying the application execution route based on a performance and a performance policy. A system and a computer readable medium storing instructions to perform the above method are also provided.
A co-packaged, multiplane network includes: an enclosure; a portion of a first network plane disposed within the enclosure and comprising a first plurality of interconnected switches; a portion of a second network plane disposed within the enclosure and comprising a second plurality of interconnected switches, the second network plane being independent of the first network plane and having the same topology as the first network plane; and a plurality of connectors, each connector being communicatively coupled to a respective port of each of the first plurality of interconnected switches and the second plurality of interconnected switches.
A secondary ternary content-addressable memory (TCAM) is programmed with a new regular expression to be added to a regular expression pattern set. Incoming data strings are processed against a primary TCAM programmed with the regular expression pattern set and against the secondary TCAM in parallel. While the incoming data strings are processed against the primary TCAM and against the secondary TCAM in parallel, the regular expression pattern set is updated to add the new regular expression.
A convolutional neural network system includes a first part of the convolutional neural network comprising an initial processor configured to process an input data set and store a weight factor set in the first part of the convolutional neural network; and a second part of the convolutional neural network comprising a main computing system configured to process an export data set provided from the first part of the convolutional neural network.
In some examples, a device includes a first processing core comprising a resistive memory array to perform an analog computation, and a digital processing core comprising a digital memory programmable with different values to perform different computations responsive to respective different conditions. The device further includes a controller to selectively apply input data to the first processing core and the digital processing core.
A crossbar array includes a number of memory elements. An analog-to-digital converter (ADC) is electronically coupled to the vector output register. A digital-to-analog converter (DAC) is electronically coupled to the vector input register. A processor is electronically coupled to the ADC and to the DAC. The processor may be configured to determine whether division of input vector data by output vector data from the crossbar array is within a threshold value, and if not within the threshold value, determine changed data values as between the output vector data and the input vector data, and write the changed data values to the memory elements of the crossbar array.
A bridge adapter that includes a first end and a second end. The bridge adapter further including a first ferrule connection on the first end and a second ferrule connection on the second end. The bridge adapter also including an optical path optically connecting the first ferrule connection and the second ferrule connection. Also, a method of connection optical cable having multiple pitches, the method including connecting a first optical cable having a first fiber pitch to a bridge adapter and connection having a second fiber pitch to the bridge adapter. The method further including directing an optical signal through the first optical cable, the bridge adapter, and the second optical cable, wherein the directing includes sending the optical signal through an optical wave bridge in the bridge adapter and having the first fiber pitch on a first end and the second fiber pitch on the second end.
An example first network device comprising: a memory to store a seed image, wherein the seed image includes instructions to communicate with devices of a predetermined device type, and wherein the seed image excludes instructions to provision the first network device to be fully operational in a network environment; and a processor to boot the first network device in the network environment for a first time, to detect if a second network device of the predetermined device type exists in the network environment, to download a full version of a product image from the second network device in response to the second network device of the predetermined device type existing in the network environment, wherein the full version of the product image uniquely corresponds to network devices deployed in the network environment that includes at least one device of the predetermined device type, to replace the seed image with the full version of the product image, and to provision the first network device to a particular device type corresponding to the network environment that includes the at least one device of the predetermined device type using the full version of the product image.
H04L 12/28 - Réseaux de données à commutation caractérisés par la configuration des liaisons, p.ex. réseaux locaux [LAN Local Area Networks] ou réseaux étendus [WAN Wide Area Networks]
Examples relate to edge device disablement. In some examples, edge device disablement includes an edge device including a processing resource in communication with a memory resource including instructions executable to receive an indication of a disablement trigger associated with the edge device and responsive to the indication, reprogram a printed circuit assembly (PCA) of the edge device to render mechanisms of the PCA inoperable.
An example method is described for monitoring a network. The method includes detecting that a network attribute has been updated at a network device. The method further includes selecting, based in part on the updated network attribute, a set of network functionality tests from a group of network functionality tests. The method further includes executing the set of network functionality tests. The method further includes receiving information describing functionality of the network during the set of network functionality tests at the network device. The method further includes determining results of the set of network functionality tests based on the information describing functionality of the network. The method further includes calculating a network functionality score based, in part, on the results of the set of network functionality tests.
A device comprises a substrate, a sacrificial material layer over the substrate, a first solid-state material layer over the sacrificial layer, a dielectric layer over solid-state material layer, and a second solid-state material layer over the dielectric layer. The sacrificial material layer may have an airgap, the solid-state material layer may comprise a structure over the airgap and may be separated from a bulk portion of the first material layer by trenches, where the trenches extend to the airgap.
H01L 21/768 - Fixation d'interconnexions servant à conduire le courant entre des composants distincts à l'intérieur du dispositif
H01L 21/18 - Fabrication ou traitement des dispositifs à semi-conducteurs ou de leurs parties constitutives les dispositifs présentant au moins une barrière de potentiel ou une barrière de surface, p.ex. une jonction PN, une région d'appauvrissement, ou une région de concentration de porteurs de charges les dispositifs ayant des corps semi-conducteurs comprenant des éléments du groupe IV de la classification périodique, ou des composés AIIIBV, avec ou sans impuretés, p.ex. des matériaux de dopage
A device, including a switch configured to couple a current source with an output terminal upon receipt of a data signal, is provided. The device also includes a first variable capacitor coupled in parallel to the current source at a common node on a source terminal of the switch, wherein the first variable capacitor comprises multiple capacitive elements coupled in parallel and configured to be activated by a programmable signal, and wherein the programmable signal is selected to increase a charge transfer rate from an output terminal coupled to a load, when the switch is turned on. A system and a serial interface including the above device are also provided.
H03K 17/78 - Commutation ou ouverture de porte électronique, c. à d. par d'autres moyens que la fermeture et l'ouverture de contacts caractérisée par l'utilisation de composants spécifiés par l'utilisation, comme éléments actifs, de dispositifs opto-électroniques, c. à d. des dispositifs émetteurs de lumière et des dispositifs photo-électriques couplés électriquement ou optiquement
H03K 17/94 - Commutation ou ouverture de porte électronique, c. à d. par d'autres moyens que la fermeture et l'ouverture de contacts caractérisée par la manière dont sont produits les signaux de commande
An adapter retention mechanism including an adapter body having a first end and a second end, the first and second ends accepting first and second sets of ganged ferrules in use; a first pair of closure members pivotably connected to the first end of the adapter body, the first pair of closure members comprising first and second locking mechanisms, the first pair of closure members being configured to engage the first set of ganged ferrules; and a second pair of closure members pivotably connected to the second end of the adapter body, the second pair of closure members comprising third and fourth locking mechanisms, the second pair of closure members being configured to engage the second set of ganged ferrules.
A system for hot swapping a network switch without disconnecting the network switch connectors is provided. The system disaggregates the switch faceplate network cable connectors from the internal components of the network switch so that the internal switch components may be removed from the switch without disconnecting the switch network cables.
Devices and methods are provided. In one aspect, a device for driving a memristor array includes a substrate including a well having a bottom layer, a first wall and a second wall. The substrate is formed of a strained layer of a first semiconductor material. A vertical JFET is formed in the well. The vertical JFET includes a vertical gate region formed in a middle portion of the well with a gate region height less than a depth of the well. A channel region is formed of an epitaxial layer of a second semiconductor wrapped around the vertical gate region. Vertical source regions are formed on both sides of a first end of the vertical gate region, and vertical drain regions are formed on both sides of a second end of the vertical gate region.
Systems and methods are provided for processing an optical signal. An example system may include a source disposed on a substrate and capable of emitting the optical signal. A first waveguide is formed in the substrate to receive the optical signal. A first coupler is disposed on the substrate to receive a reflected portion of the optical signal. A second waveguide is formed in the substrate to receive the reflected portion from the first coupler. A second coupler is formed in the substrate to mix the optical signal and the reflected portion to form a mixed signal. Photodetectors are formed in the substrate to convert the mixed signal to an electrical signal. A processor is electrically coupled to the substrate and programmed to convert the electrical signal from a time domain to a frequency domain to determine a phase difference between the optical signal and the reflected portion.
A bottom-emitting vertical-cavity surface-emitting laser (VCSEL) structure includes a first substrate permitting the passage of light therethrough, an n-doped distributed Bragg reflector (nDBR), a p-doped distributed Bragg reflector (pDBR), one or more active layers, at least one of a high contrast grating mirror and a dielectric-enhanced metal mirror, and a plurality of layers, where the VCSEL structure is configured to be flip chipped to a second substrate. The pDBR and the nDBR define a laser cavity extending vertically therebetween and containing the one or more active layers. The at least one of a high contrast grating mirror and a dielectric-enhanced metal mirror may be disposed over the pDBR. The plurality of layers may be disposed over the at least one of the high contrast grating mirror and the dielectric-enhanced metal mirror to optically and hermetically seal the laser cavity.
H01S 5/183 - Lasers à émission de surface [lasers SE], p.ex. comportant à la fois des cavités horizontales et verticales comportant uniquement des cavités verticales, p.ex. lasers à émission de surface à cavité verticale [VCSEL]
H01S 5/187 - Lasers à émission de surface [lasers SE], p.ex. comportant à la fois des cavités horizontales et verticales comportant uniquement des cavités horizontales, p.ex. lasers à émission de surface à cavité horizontale [HCSEL] à réflexion de Bragg
H01S 5/024 - Dispositions pour la gestion thermique
An optical assembly is provided that includes a base sub-assembly a mounting point for an optical socket connector. The optical assembly further comprises a cover sub-assembly to be coupled to the base sub-assembly and a carrier to receive an optical fiber ferrule and permit opto-mechanical coupling between the optical fiber ferrule and the optical socket connector when the base-sub assembly is coupled to the cover sub-assembly.
Examples relate to hierarchical switching devices comprising a plurality of sub-switches forming a fully interconnected ail-to-ail network. The sub-switches comprise internal input ports and internal output ports to exchange packets with other sub-switches within the fully interconnected ail- to-ail network. The internal input ports of the sub-switches have exclusive access to a queue partition for each external output port of the respective sub-switch. A switch controller receives a packet at a first sub-switch of the plurality of sub-switches that is to be routed to a particular external output port of a second sub-switch of the plurality of sub-switches. The switch controller routes the packet directly from the first sub-switch to the second sub-switch using an internal output port of the first sub-switch and a queue partition of the second sub-switch that is for the particular external output port of the second sub- switch.
An integrated circuit (IC) exposes hardware blocks thereof via an addressable control space defining fields at corresponding global addresses. The addressable control space is shared across the hardware blocks. Each hardware block has implemented fields; the implemented fields of a hardware block are mapped to a subset of the fields of the addressable control space. One or more implemented fields of more than one hardware block are each mapped to the same field of the addressable control space. A hardware block internally compresses the fields of the addressable control space in accordance with its implemented fields to perform a write operation. A hardware block internally expands the implemented fields to the fields of the addressable control space to perform a read operation.
An example delay circuit is described that includes an input node to receive a first signal, a first circuit path, a second circuit path, an output buffer, and an output node. The first circuit path includes at least one first buffer and a first array of switches. The second circuit path includes at least one second buffer and a second array of switches. The output buffer receives a mixed output of the first circuit path and the second circuit path. The output node transmits a second signal equivalent to the first signal with a programmed delay.
H03K 5/134 - Dispositions ayant une sortie unique et transformant les signaux d'entrée en impulsions délivrées à des intervalles de temps désirés utilisant une chaîne de dispositifs actifs de retard avec des transistors à effet de champ
H03K 5/00 - Transformation d'impulsions non couvertes par l'un des autres groupes principaux de la présente sous-classe
In some examples, a secure compliance protocol may include a virtual computing instance (VCI) deployed on a hypervisor and may be provisioned with hardware computing resources. In some examples the VCI may also include a cryptoprocessor to provide cryptoprocessing to securely communicate with a plurality of nodes, and a plurality of agents to generate a plurality of compliance proofs; the VCI may communicate with a server corresponding to a node of the plurality of nodes; and receive a time stamp corresponding to at least one compliance proof based on a metric of a connected device.
H04L 29/06 - Commande de la communication; Traitement de la communication caractérisés par un protocole
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
According to examples, an apparatus may include a field effect transistor (FET), a driver to receive an input signal and to output a driver output signal, and a gate to receive the input signal. The apparatus may also include a delay element to receive the driver output signal and to output a delayed signal to the gate after a delay from receipt of the driver output signal, in which the gate is to output a gate output signal to the FET in response to receipt of the input signal and the delayed signal, and in which receipt of the gate output signal by the FET drives the FET to provide a boost to the driver output signal.
Example implementations relate to congestion management across a network fabric. An example implementation includes setting an uncongested sequence length threshold to a first value. A completed transaction received count may also be set to an initial value. The completed transaction received count may be incremented in response to a completion of a transaction request. In response to a detected congestion event, the injection rate may be decreased. A second value for the uncongested sequence length threshold may be determined from the CTR count, and the uncongested sequence length threshold may be set to the second value. Furthermore, in response to the CTR count being greater than or equal to the uncongested sequence length threshold, the injection rate may be increased.
An example device may include a processor to cause a plurality of radio chains of a network device to provide a first service; receive a request for a second service to be provided by the network device; split the plurality of radio chains into at least a first subset and a second subset, wherein the first subset provides the first service, wherein the second subset provides the second service, and wherein the first subset and the second subset are non-overlapping.
An example access point may comprise a processing resource; and a memory resource storing machine-readable instructions to cause the processing resource to: perform a management system search using a dynamic host configuration protocol (DHCP); determine, in view of the management system search, whether a management system discovered is a controller; and select one of a first role within a centralized local area network and a second role within a distributed local area network based on determining whether the management system is the controller, wherein the first role within the centralized local area network is selected when the management system is the controller.
In some examples, with respect to memory structure based coherency directory cache implementation, a hardware sequencer may include hardware to identify, for a coherency directory cache that includes information related to a plurality of cache lines, adjacent cache lines. A state associated with each of the adjacent cache lines may be determined. Based on a determination that the state associated with one of the adjacent cache lines is identical to the state associated with remaining active adjacent cache lines, the adjacent cache lines may be grouped. The hardware sequencer may utilize, for the coherency directory cache, an entry in a memory structure to identify the grouped cache lines. Data associated with the entry in the memory structure may include greater than two possible memory states.
G06F 12/0817 - Protocoles de cohérence de mémoire cache à l’aide de méthodes de répertoire
G06F 12/0893 - Mémoires cache caractérisées par leur organisation ou leur structure
G11C 15/00 - Mémoires numériques dans lesquelles l'information, comportant une ou plusieurs parties caractéristiques, est écrite dans la mémoire et dans lesquelles l'information est lue au moyen de la recherche de l'une ou plusieurs de ces parties caractéristique
Example implementations relate to hybrid arbitration of requests for access to a shared pool of resources. An example implementation includes receiving a set of requests for access to the shared pool of resources. The requests may each be from any number of traffic classes. A traffic class may be selected according to turn-based arbitration logic. Additionally, a request from each traffic class of a subset of received requests may be selected. A request selected by the age-based arbitration logic and of the selected traffic class may be granted access to the shared pool of resources.
H04L 12/911 - Contrôle d’admission au réseau et allocation de ressources, p.ex. allocation de bande passante ou renégociation en cours de communication
H04L 12/927 - Allocation de ressources en fonction du type de trafic, qualité de service ou priorité
H04L 12/863 - Ordonnancement de file d’attente, p.ex. ordonnancement circulaire
G06F 13/366 - Gestion de demandes d'interconnexion ou de transfert pour l'accès au bus ou au système à bus communs avec commande d'accès centralisée utilisant un arbitre d'interrogation centralisé
G06F 13/20 - Gestion de demandes d'interconnexion ou de transfert pour l'accès au bus d'entrée/sortie
79.
METHODS AND APPARATUS TO GENERATE A CIRCUIT PROTECTION VOLTAGE
Apparatus, methods and systems to produce a protection voltage are disclosed. The apparatus includes circuitry to deliver a first supply voltage to a plurality of circuits, where the first supply voltage has a first magnitude, circuitry to deliver a second supply voltage to a part of the plurality of circuits, where the second supply voltage has a second magnitude, and circuitry to deliver a protection voltage to the part of the plurality of circuits when the second supply voltage is LOW and the first supply voltage is HIGH. The protection voltage has a magnitude that is a fraction of the magnitude of the first supply voltage. The apparatus includes circuitry that causes the delivery of the second supply voltage to the part of the plurality of circuits when the second supply voltage is turned HIGH subsequent to the second supply voltage being LOW when the first supply voltage is HIGH.
Examples described herein relate to an optical switching device wherein a racetrack resonant structure is positioned to determine a frequency passband by coupling. In some examples, a first waveguide receives an input light signal. A second waveguide is positioned to enable the input light signal to couple between the first waveguide and the second waveguide through a first coupling gap. The racetrack resonant structure is positioned adjacent to the first coupling gap to enable the input light signal to couple between one of the first waveguide and the second waveguide and the racetrack resonant structure through a second coupling gap. Thus, the racetrack resonant structure is to determine the frequency passband such that a first portion of the input light signal that coincides with the frequency passband is output by the first waveguide, and a second portion of the input light signal that does not coincide with the frequency passband is output by the second waveguide.
Example implementations relate to calculating a weighted efficiency index. An example implementation includes fetching a public resource utilization metric and a public cloud resources cost. A private resource utilization metric is collected and a private cloud resources cost is calculated. A weighted efficiency index is calculated from the public cloud resources cost, the private cloud resources cost, or any combination thereof, and a weighted deviation from an ideal resource utilization percentage. The weighted efficiency index may be displayed on a user interface.
G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projets; Planification d’entreprise ou d’organisation; Modélisation d’entreprise ou d’organisation
G06Q 10/04 - Prévision ou optimisation spécialement adaptées à des fins administratives ou de gestion, p. ex. programmation linéaire ou "problème d’optimisation des stocks"
Examples provided herein describe a method for reducing recovery time for an application. For example, a first physical processor of a computing device may monitor, based on a first application instance of the application running in a first mode, for failure detection of the first application instance running on a first computing device. The first physical processor may determine that the first application instance is to be changed from the first mode to a second mode. Based on the determination, the first physical processor may validate that a second application instance can run in the first mode by performing a data integrity compliance check. Responsive to validating that the second application instance can run in the first mode, the first physical processor may facilitate running of the second application instance in the first mode.
G06F 11/20 - Détection ou correction d'erreur dans une donnée par redondance dans le matériel en utilisant un masquage actif du défaut, p.ex. en déconnectant les éléments défaillants ou en insérant des éléments de rechange
In one example in accordance with the present disclosure, a device may include a processor to detect a distance between a first location of the device and a second location of a peer device, automatically select one value for GI from at least two available values based on the detected distance, and update the value of GI using the selected value. A method may include detecting a distance between a first location of the AP and a second location of a peer device, selecting one value for GI from at least two available values based on the detected distance, and updating the value of GI using the selected value.
An example device comprising: a monitor to detect cellular signals; and a processor to: calculate frequencies of interferences produced due to the detected cellular signals; estimate energy levels of the interferences at the calculated frequencies; and determine available frequencies based on the calculated frequencies and the estimated energy levels to avoid transmissions on a plurality of frequency bands associated with a second order harmonic distortion, a third order harmonic distortion, a second order inter-modulation distortion (IMD 2), or a third order inter-modulation distortion (IMD 3).
An example wireless device, comprising: a radio system including an antenna, to receive receiver feedback information, the receiver feedback information being information collected by a receiver relating to receiving status of the receiver; a memory; and a processor executing instructions stored on the memory to: determine whether a level of noises and interferences associated with the receiver exceeds a predefined threshold based on the receiver feedback information; in response to determining that the level of noises and interferences associated with the receiver does not exceed the predefined threshold, obtain a revised data error ratio based on an original data error ratio and the receiver feedback information, the original data error ratio being a data error ratio collected by the wireless device; and adjust the data rate associated with the receiver based on the revised data error ratio.
In some examples, in response to a request from a client device for information relating to a transaction stored by a blockchain, a system identifies, using information stored in a distributed storage system that stores data for the blockchain, multiple data owner entities from which permissions are to be obtained for access of the information, and determines an authorization requirement for the information based on a smart contract. The system sends authorization information based on the authorization requirement to trigger a retrieval of authorization tokens from the identified data owner entities for access of the information, and sends the information to the client device in response to receiving the authorization tokens.
In some examples, in an authentication session for authenticating an entity associated with a client device to access a service, a server system is to receive, from the client device, identification information associated with the client device, and verify, using a blockchain network, an existence of the identification information. The server system is to send, to the client device, payment information regarding payment for the service, and receive, from the client device, a token as payment for the service.
G06Q 20/06 - Circuits privés de paiement, p.ex. impliquant de la monnaie électronique utilisée uniquement entre les participants à un programme commun de paiement
G06Q 20/38 - Architectures, schémas ou protocoles de paiement - leurs détails
G06Q 20/36 - Architectures, schémas ou protocoles de paiement caractérisés par l'emploi de dispositifs spécifiques utilisant des portefeuilles électroniques ou coffres-forts électroniques
In some examples, an electronic device includes a non-transitory storage medium storing blockchain information, a processor to compute a secure representation of the blockchain information based on applying a cryptographic function to the blockchain information, and a transmitter to transmit a beacon comprising the secure representation of the blockchain information.
H04L 9/06 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité l'appareil de chiffrement utilisant des registres à décalage ou des mémoires pour le codage par blocs, p.ex. système DES
G06Q 20/06 - Circuits privés de paiement, p.ex. impliquant de la monnaie électronique utilisée uniquement entre les participants à un programme commun de paiement
G06Q 20/36 - Architectures, schémas ou protocoles de paiement caractérisés par l'emploi de dispositifs spécifiques utilisant des portefeuilles électroniques ou coffres-forts électroniques
In some examples, a system is to receive, from a client device, a query comprising a representation of blockchain information of an entity associated with an electronic device that advertised the representation. The system is to further determine whether a client entity associated with the client device has a privilege to access response information that is responsive to the query, and in response to determining that the client entity has the privilege to access the response information, send, to a blockchain network, a request containing the blockchain information to obtain the response information.
H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison
H04L 29/06 - Commande de la communication; Traitement de la communication caractérisés par un protocole
G06Q 20/06 - Circuits privés de paiement, p.ex. impliquant de la monnaie électronique utilisée uniquement entre les participants à un programme commun de paiement
90.
SPLIT WIRELESS RADIO CHAINS TO SERVICE RANGING MEASUREMENT
An example system may include a plurality of wireless radio chains of a radio operating at a channel in a wireless network and a processor to receive a ranging measurement request for a client device not associated with the wireless network, split a subset of wireless radio chains from the plurality of the wireless radio chains, and use the subset of wireless radio chains to service the ranging measurement request.
H04W 60/04 - Rattachement à un réseau, p.ex. enregistrement; Suppression du rattachement à un réseau, p.ex. annulation de l'enregistrement utilisant des événements déclenchés
An example system for multi-wavelength optical signal splitting is disclosed. The example disclosed herein comprises a first splitter, a second splitter, and a modulator. The system receives a multi-wavelength optical signal and an electrical signal, wherein the multi-wavelength optical signal comprises a plurality of optical wavelengths and has a power level. The first splitter is to split the plurality of optical wavelengths into a plurality of optical wavelength groups. The second splitter is to split the multi-wavelength optical signal or the plurality of optical wavelength groups into a plurality of lower power signal groups. The modulator is to encode the electrical signal into the plurality of optical wavelength groups, the plurality of lower power signal groups, or a combination thereof.
H04J 14/02 - Systèmes multiplex à division de longueur d'onde
H04B 10/50 - Systèmes de transmission utilisant des ondes électromagnétiques autres que les ondes hertziennes, p.ex. les infrarouges, la lumière visible ou ultraviolette, ou utilisant des radiations corpusculaires, p.ex. les communications quantiques Émetteurs
A semiconductor laser includes a traveling wave laser cavity in which laser pulses travel around the cavity in a direction of propagation. The semiconductor laser further includes an active section, a pulse stretcher, and a pulse compressor. The active section comprises a semiconductor optical amplifier, and a saturatable absorber. The pulse stretcher is coupled to the waveguide before the active section and the pulse compressor are coupled to the waveguide after the active section.
H01S 5/06 - Dispositions pour commander les paramètres de sortie du laser, p.ex. en agissant sur le milieu actif
H01S 5/125 - Lasers à réflecteurs de Bragg répartis [lasers DBR]
H01S 5/02 - Lasers à semi-conducteurs - Détails ou composants structurels non essentiels au fonctionnement laser
H01S 5/34 - Structure ou forme de la région active; Matériaux pour la région active comprenant des structures à puits quantiques ou à superréseaux, p.ex. lasers à puits quantique unique [SQW], lasers à plusieurs puits quantiques [MQW] ou lasers à hétérostructure de confinement séparée ayant un indice progressif [GRINSCH]
93.
ATTRIBUTE INDICATING A HOME COMPONENT OF A SUBSCRIBER
Examples herein redirect a message intended for a subscriber from a non-registered component to a home component. Examples disclose receiving, by the non-registered component, a message intended for the subscriber. The non-registered component is a component at which the subscriber did not register to gain network access. The non- registered component processes a data attribute within a profile corresponding to that subscriber. The data attribute indicates a home component at which the subscriber is registered to gain network access. The non-registered component redirects the message intended for the subscriber to the home component based on the data attribute.
An example system may include a first vertical cavity surface emitting laser (VCSEL) that includes a first integrated polarization locking structure to produce a polarized optical data signal. The system may also comprise a second VCSEL that includes a second integrated polarization locking structure, the second integrated polarization locking structure orthogonal to the first integrated polarization locking structure, to produce an orthogonally polarized optical data signal. Lenses may be disposed on the substrate opposite the first VCSEL, to collimate the polarized optical data signal, and opposite the second VCSEL to collimate the orthogonally polarized optical data signal. A polarization division multiplexer may combine the first collimated polarized optical data signal and the second collimated orthogonally polarized optical data signal.
H01S 5/183 - Lasers à émission de surface [lasers SE], p.ex. comportant à la fois des cavités horizontales et verticales comportant uniquement des cavités verticales, p.ex. lasers à émission de surface à cavité verticale [VCSEL]
An example access point may include a first radio operating at a channel in a wireless local area network (WLAN); and a processor to detect a wireless transmission based on a different network protocol than a WLAN protocol on the channel, wherein the wireless transmission is received from a second radio; tune a set of Enhanced Distributed Channel Access (EDCA) values of the first radio in response to detecting the wireless transmission; apply a tuned set of EDCA values to a beacon frame; transmit the beacon frame; and notify clients associated with the access point to update EDCA values with the tuned EDCA values to promote channel access fairness.
According to one example of the present disclosure, an access point (AP) comprises a wired interface and a wireless interface. External wireless client devices may associate with the AP and the AP may forward traffic received from the wireless clients. The AP includes a virtual client which is to simulate a wireless client device.
An optical system includes an optical transmitter having optical transmission channels and an optical receiver having optical reception channels. The optical transmission channels are successively tuned to resonant wavelengths at which lowest transmission channel input currents result in transmission channel output current peaks greater than a threshold. The optical reception channels are tuned to the resonant wavelengths after the optical transmission channels are tuned. Each resonant wavelength has the optical reception channel tuned thereto that has a highest reception channel output current peak at a lowest reception channel input current when the optical transmission channel tuned to the resonant wavelength is temporarily detuned.
A file server receives a request for data from a user device. The data is represented at the file server by a virtual cluster descriptor. The file server queries an identifier map using an identifier of the virtual cluster descriptor. Responsive to the identifier map indicating that the requested data is stored at a location remote from the file server, the file server accesses a cold tier translation table that stores a mapping between an identifier of each of a plurality of virtual cluster descriptors and a storage location of data associated with the respective virtual cluster descriptor. The cold tier translation table is queried using the identifier of the virtual cluster descriptor to identify a storage location of the requested data, and the data is loaded to the file server from the identified storage location.
A cooling system for blades of a high performance computer thermally couples blade electronics to the computers liquid cooling system through one or more heat pipes, without requiring a liquid conduit on, or liquid coupling to, the blade. Moreover, illustrative embodiments allow a blade to be installed in a high performance computer and engage the cooling system without making a liquid connection, and to disengage from the cooling system and be removed from the high performance computer without breaking a liquid connection.
Example implementations relate to partitioning a radio into chains to scan channels. In some examples, anetwork device may comprise a processing resource and a memory resource storing machine-readable instructions to partition a default radio of the network device into a service chain and a scan chain in response to a scan request, scan a particular channel with the scan chain to discover devices operating on the particular channel of a network, and combine the service chain and the scan chain into the default radio.
H04B 7/04 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées
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