HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP patent applications on May 1st, 2025
Patent Applications by HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP on May 1st, 2025
HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP: 26 patent applications
HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP has applied for patents in the areas of G06F1/18 (2), H05K7/14 (2), H05K7/20 (2), G06F9/451 (2), H04W48/16 (2) G06F1/183 (1), H01Q1/50 (1), H04W48/20 (1), H04W48/16 (1), H04W12/0431 (1)
With keywords such as: device, network, information, comprises, process, based, message, multicast, time, and determining in patent application abstracts.
Patent Applications by HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP
Inventor(s): Shou-Jen Yang of New Taipei City TW for hewlett packard enterprise development lp
IPC Code(s): G06F1/18, G06F1/20, H05K7/14, H05K7/20
CPC Code(s): G06F1/183
Abstract: an m.2 adapter/heatsink comprises a heat spreader clip configured to receive m.2 modules having multiple m.2 module lengths. the m.2 adapter/heatsink also comprises an adapter fastener and a spacer. the adapter fastener can be attached to the heat spreader clip at any one of a plurality of attachment locations corresponding respectively to the different m.2 module lengths. when an m.2 module is received in the clip, the adapter fastener is attached to clip at the attachment location which corresponds to the length of the m.2 module. the adapter fastener engages with the m.2 mount of the m.2 module, thus attaching the m.2 module to the clip. the spacer is attached to the heat spreader clip and located such that a replica m.2 mount of the spacer can be connected to pca by a fastener. thus, the spacer attaches the clip, and hence also the m.2 module (indirectly), to the pca.
Inventor(s): Vance Brey Murakami of Los Gatos CA US for hewlett packard enterprise development lp, Paul Wesley Stelter of San Bruno CA US for hewlett packard enterprise development lp
IPC Code(s): G06F1/18, H05K7/14
CPC Code(s): G06F1/187
Abstract: a hot-swappable drive cage is removably installable in an information processing device. the drive cage has multiple bays to carry multiple media drives. the drive cage and the media drives carried thereon can be removably inserted, together as a unit, into a drive cage receptacle of the information processing device, and when the drive cage reaches an installed position in the receptacle, the media drives are all electrically connecting to the information processing device. the drive cage and the media drives carried thereon can also be removed, together as a unit, from the drive cage receptacle, resulting in the media drives all being disconnected from the information processing device. the drive cage may comprise injector/ejectors to convert actuation forces supplied thereto into insertion forces and ejection forces that force the drive cage to translate relative to the chassis into or out of the installed position, depending on the actuation direction.
Inventor(s): Gil Barash of Tel Aviv IL for hewlett packard enterprise development lp, Shlomi Apel of Herzliya IL for hewlett packard enterprise development lp
IPC Code(s): G06F3/06
CPC Code(s): G06F3/064
Abstract: example implementations relate to data storage. an example includes inspecting a block level input/output (i/o) request to be executed by a block-based storage device, and in response to a determination that the block level i/o request includes a filesystem operation, generating a copy of the block level i/o request. the example also includes parsing the copy of the block level i/o request to extract a plurality of attributes of the filesystem operation, where the parsing is asynchronous to an execution of the block level i/o request by the block-based storage device. the example also includes storing the extracted plurality of attributes of the filesystem operation in an entry of a filesystem operation database, where each entry of the filesystem operation database is associated with a different filesystem operation in a filesystem stored on the block-based storage device.
Inventor(s): Chivukula Koundinya of Bangalore IN for hewlett packard enterprise development lp, Balaji Sankaran of Bangalore IN for hewlett packard enterprise development lp, Sivakumar Murugan of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F8/656
CPC Code(s): G06F8/656
Abstract: in certain embodiments, a method includes stopping platform daemons of a standalone network device; creating an issu cache; storing forwarding information in the issu cache to freeze the forwarding information; installing an updated state database; storing the forwarding information from the issu cache in the updated state database; generating a warm boot file for a line card daemon; installing an updated line card daemon; recovering an internal state of a line card to the updated line card daemon using the warm boot file; connecting the updated line card daemon to the updated state database; syncing the updated state database to a non-updated state database; unfreezing the forwarding information by allowing the updated line card daemon to update the forwarding information of the line card using information from the updated state database; updating control plane daemons of the standalone network device; and updating the platform daemons of the standalone network device.
Inventor(s): Scott J. Hinchley of Spring TX US for hewlett packard enterprise development lp, David S. Brookshire of Spring TX US for hewlett packard enterprise development lp, Aalap Tripathy of Spring TX US for hewlett packard enterprise development lp, Donald M. Bahls of Bloomington MN US for hewlett packard enterprise development lp, Alan D. Mutschelknaus of Bloomington MN US for hewlett packard enterprise development lp
IPC Code(s): G06F9/451, G06N5/04, G06N20/00, H04L9/32
CPC Code(s): G06F9/451
Abstract: a process includes hosting, on an edge computing system that is external to a high-performance computing system, a user interface instance. the process includes providing, by the user interface instance, a cryptographic authentication token to the high-performance computing system to form a connection between the high-performance computing system and an endpoint instance of the high-performance computing system. the process includes, responsive to providing the cryptographic authentication token, forming a connection between the user interface instance and the endpoint instance. the process includes mounting a first file system of the edge computing system to a second file system of the high-performance computing system to provide an extended first file system. the process includes exchanging a user environment of the edge computing system with a user environment of the high-performance computing system. the exchanging includes, responsive to a request that is received by the user interface instance from the connection, accessing, by the user interface instance, the extended file system to transfer data between the edge computing system and the high-performance computing system.
Inventor(s): Michael Karl Forsberg of Austin TX US for hewlett packard enterprise development lp
IPC Code(s): G06F9/451, G06F40/51
CPC Code(s): G06F9/454
Abstract: in certain embodiments, a method includes obtaining a cloud-based application; extracting native language files and internationalization keys that correspond to the native language files from the cloud-based application; storing the native language files and the keys in a translation data repository accessible by a translation service; detecting non-native language files corresponding to the native language files in the translation data repository; performing an initial check on the non-native language files; generating, when the initial check passes, a test build of the cloud-based application; deploying the test build to a test environment in a cloud infrastructure to have a first validation performed by the translation service and a second validation performed by a cloud-based application provider; and generating, when the first validation and the second validation pass, a production build of the cloud-based application comprising the non-native language files.
Inventor(s): Renganathan Meenakshisundaram of Bangalore IN for hewlett packard enterprise development lp, Lavanya Munivenkatappa of Bangalore IN for hewlett packard enterprise development lp, Pawan Kumar of Bangalore IN for hewlett packard enterprise development lp, Rupa Ramakrishna of Bangalore IN for hewlett packard enterprise development lp, Mohan Parthasarathy of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F11/16, G06F11/07, G06F11/10
CPC Code(s): G06F11/1658
Abstract: one aspect of the instant application can provide a system and method for replacing a faulty or failing memory device during runtime. during operation, a host device of a plurality of coupled memory devices can detect an error-containing memory device and select, from a pool of standby memory devices, a replacement memory device. the host device can migrate data from the error-containing memory device to the replacement memory device during runtime of applications executing on the host device, replicate host physical address (hpa) address-mapping from the error-containing memory device to the replacement memory device, and replace the error-containing memory device with the replacement memory device.
Inventor(s): Hiro Rameshlal Lalwani of Bangalore IN for hewlett packard enterprise development lp, Rachit Gupta of Bangalore IN for hewlett packard enterprise development lp, Sherine Jacob of Bangalore IN for hewlett packard enterprise development lp, Kumar Gaurav of Bangalore IN for hewlett packard enterprise development lp, Anand Andaneppa Ganjihal of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F11/263
CPC Code(s): G06F11/263
Abstract: in certain embodiments, a method includes receiving, at a framework controller executing, a test execution request comprising test parameters and an expected test outcome, wherein the test execution request comprises a request for testing a microservice architecture implemented in a cloud infrastructure; providing, by the framework controller, the test execution request and the test parameters to a framework injector executing on the one or more processors; providing, by the framework controller, the expected test outcome to a framework monitor executing on the one or more processors; executing, by the framework injector, a test corresponding to the test execution request using a test injector of a plurality of test injectors implemented by the framework injector; monitoring, by the framework monitor, a response of the microservice architecture of the cloud infrastructure to the test; and providing, by the framework controller and from the framework monitor, a test result based on the response.
Inventor(s): Harish KUTTAN of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F13/16, G06F12/02
CPC Code(s): G06F13/1668
Abstract: in a computer network, communication connections may be established between host devices of a domain object and compute devices of the computer network to allow data transfers. to establish a connection between the domain object and the network, a set of cpu core connections in the network may be determined. a set of transmit and receive contexts for the domain object may be generated, with each set of transmit and receive contexts being aligned with one of the set of cpu core connections. a scalable end point (sep) for the domain object may be generated. the sep may be used to map the set of transmit and receive contexts to the set of cpu core connections and the domain object, which can be used to transfer data throughout the network.
Inventor(s): Gopal Gupta of Bangalore IN for hewlett packard enterprise development lp, Satishwar Chandrashekar of Bangalore IN for hewlett packard enterprise development lp, Amreesh Agrawal of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F16/25, G06F16/2455, G06F16/2458, H04L41/0893
CPC Code(s): G06F16/256
Abstract: a process includes, responsive to a migration of a network device deployment from a first network management system cluster to a second network management system cluster, retaining first data in the first network management system cluster for a retention period. the data represents information about the network device deployment. the process includes receiving, by a federation layer engine of the second network management system cluster, a given query directed to information associated with the network device deployment. the process includes determining, by the federation layer engine, whether a query time that is associated with the given query is within the retention period and processing, by the federation layer engine, the given query responsive to the determination of whether the query time is within the retention period.
Inventor(s): Manisha Manjunath of Bangalore IN for hewlett packard enterprise development lp, Suhas Shivanna of Houston TX US for hewlett packard enterprise development lp, Anusha Yerranagula of Bangalore IN for hewlett packard enterprise development lp, Supriya Kamthania of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06F21/57
CPC Code(s): G06F21/577
Abstract: a process includes determining, by a recommendation engine, a security risk profile for a container environment. the container environment includes a plurality of pods that are to be deployed on an infrastructure that includes a plurality of nodes. determining the security risk profile includes determining an infrastructure context characterizing the infrastructure and determining a workload context characterizing a workload associated with the container environment. the process includes determining, by the recommendation engine, a recommendation of a security policy for the container environment based on the security risk profile. the security policy includes a security control. the process includes deploying an agent to the infrastructure to manage compliance of the container environment with the security control.
Inventor(s): Stanley CHEUNG of Milpitas CA US for hewlett packard enterprise development lp, Bassem TOSSOUN of Santa Barbara CA US for hewlett packard enterprise development lp, Yuan YUAN of Milpitas CA US for hewlett packard enterprise development lp, Yiwei PENG of Milpitas CA US for hewlett packard enterprise development lp, Geza KURCZVEIL of Santa Barbara CA US for hewlett packard enterprise development lp
IPC Code(s): G06N3/067, G06F17/14, G06N3/0464
CPC Code(s): G06N3/0675
Abstract: systems and methods are provided for monolithic photonic integrated devices for implementing convolutional neural network (cnn). examples provide for photonic devices comprising a first optical transform device configured to perform a first transform on input optical signals to output a plurality of intermediate optical signals, a plurality of optical modulation devices configured to perform a convolution on the intermediate optical signals, and second transform device configured to perform a second transform of the plurality of intermediate optical signals and output a plurality of output optical signals. each of the modulation devices comprises an amplitude modulator and a phase modulator. the photonic device, including an optical source that generates an input optical signal, can be formed monolithically on a common substrate to provide a convolutional optical neural network (conn) integrated onto a single chip.
Inventor(s): Satish Kumar Mopur of Bangalore IN for hewlett packard enterprise development lp, Vijaya Sharvani Hindnavis of Bangalore IN for hewlett packard enterprise development lp, Sridhar Balachandriah of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): G06V10/44, G06T7/11, G06V10/26, G06V10/762
CPC Code(s): G06V10/44
Abstract: systems and methods are provided for feature extraction from visual inputs. examples include calculating entropy information for a plurality of regions of the visual input and computing a hyperparameter for a clustering algorithm based on the entropy information. the hyperparameter is then used by a clustering algorithm to segment the visual input into a plurality of clusters. a feature set of the visual input is extracted based on the plurality of clusters.
Inventor(s): Marco A. Torres of San José CR for hewlett packard enterprise development lp
IPC Code(s): G08B5/36
CPC Code(s): G08B5/36
Abstract: a method, network device, and non-transitory computer-readable storage medium are provided for facilitating displaying an internet protocol (ip) address of a network device. during operation, the system detects an activation of an ip light-emitting diode (led) mode on the network device, wherein the network device includes a set of numbered ports each with a corresponding led indicator. responsive to detecting the activation, the system initiates a sequence which indicates an ip address of the network device by: for each digit of the ip address, turning on and off the led indicator for one of the numbered ports, the number of which corresponds to the value of the digit; and for each dot of the ip address, turning off all the led indicators. responsive to determining that the sequence is complete, the system returns to a default led mode on the network device.
Inventor(s): Kuanyue Li of Beijing CN for hewlett packard enterprise development lp, Aijun Liu of Beijing CN for hewlett packard enterprise development lp, Hailong Bai of Beijing CN for hewlett packard enterprise development lp, Jiguang Zheng of Beijing CN for hewlett packard enterprise development lp
IPC Code(s): H01Q1/50, H04W88/08
CPC Code(s): H01Q1/50
Abstract: implementations of the present disclosure relate to radio frequency (rf) connection. in the implementations, an access point (ap) comprises an antenna module, a separation plate, a main board, and a connector. the antenna module is fixed on the first surface of the separation plate. the connector comprises an inner conductor and an outer conductor passing through a hole in the separation plate and connects the trace of the antenna module with the electronic components in the main board. the inner conductor and the outer conductor are retractable along a direction perpendicular to the main board. in this way, by directly connecting the antenna with the main board by a retractable connector, additional cables can be spared without sacrificing the mechanical performance of the connection structure.
Inventor(s): Bo Wang of Beijing CN for hewlett packard enterprise development lp, Jiguang Zheng of Beijing CN for hewlett packard enterprise development lp, Kuanyue Li of Beijing CN for hewlett packard enterprise development lp
IPC Code(s): H04B1/7073, H04L7/033
CPC Code(s): H04B1/7073
Abstract: a method for time synchronization for wireless device. the method comprises receiving a modulated signal from a second wireless device, the modulated signal indicating information of a first pps signal for time synchronization, and the first pps signal being received by the second wireless device via a network protocol for time synchronization or a gnss receiver. the method further comprises obtaining a second pps signal by demodulating the received modulated signal. the method further comprises determining a delay offset between the first pps signal and the second pps signal. furthermore, the method further comprises recovering the first pps signal for time synchronization based on the second pps signal and the delay offset. in this manner, the accuracy of the time synchronization can be improved, and the cost for the entire network can be reduced.
Inventor(s): Tathagata Nandy of Bangalore IN for hewlett packard enterprise development lp, Chethan Chavadibagilu Radhakrishnabhat of Bangalore IN for hewlett packard enterprise development lp, Venkatachalam Swaminathan of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): H04J3/06
CPC Code(s): H04J3/0673
Abstract: in some examples, a first network device including a first time clock sends, over a first network path, a first timing message of a time synchronization process to synchronize the first time clock and a second time clock that is connected to a second network device. the first network device receives an indication associated with a second timing message of the time synchronization process, where the second timing message is to be sent from the second time clock. based on receiving the indication, the first network device sends a first join message to a first intermediate network device that is part of the first network path, and a second join message to a second intermediate network device that is part of a second network path different from the first network path. the first network device receives, over the first network path, the second timing message sent by the second time clock, the second timing message communicated over the first network path based on the forwarding information built in the first intermediate network device and the second network device.
Inventor(s): Xiaoyang Fu of Beijing CN for hewlett packard enterprise development lp, Xuguang Jia of Beijing CN for hewlett packard enterprise development lp, Qiang Zhou of Sunnyvale CA US for hewlett packard enterprise development lp
IPC Code(s): H04L5/00
CPC Code(s): H04L5/0091
Abstract: implementations of the present disclosure relate to recovery from bss color collision. the method comprises determining a first basic service set (bss) color of a bss for communications between the first ap and a client device. the method further comprises determining a second bss color of the bss for communications between the first ap and a second ap. in this case, the second bss color is different from the first bss color. the method further comprises detecting that the first bss color is used by a neighboring bss. lastly, the method further comprises changing the first color of the bss to a third color for communications between the first ap and the client device. in this way, by sparing the bss color switch time between the aps, the recovery from the bss color collision event for the entire bss is facilitated.
Inventor(s): Chinlin Chen of Cupertino CA US for hewlett packard enterprise development lp, Uyen T. Chau of Roseville CA US for hewlett packard enterprise development lp, Faraz Ahmed of Santa Clara CA US for hewlett packard enterprise development lp, Lianjie Cao of San Jose CA US for hewlett packard enterprise development lp
IPC Code(s): H04L41/0803, H04L41/08
CPC Code(s): H04L41/0803
Abstract: a network management system (nms) that can provision and manage a network is provided. during operation, the nms can determine, for a respective network device in the network, connectivity information indicating how the network device is connected within the network and a device profile of the network device. the nms can then determine a connectivity tier of the network device in the network based on the connectivity information. the connectivity tier can correspond to a placement of the network device in a hierarchy of network devices in the network. the nms can select a device persona associated with the connectivity tier. here, the device persona indicates specification and configurations for the network device. the nms can send, to the network device, configuration information that configurates the device persona on the network device.
Inventor(s): Gopal Gupta of Bangalore IN for hewlett packard enterprise development lp, Satishwar Chandrashekar of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): H04L41/0816, H04L43/026
CPC Code(s): H04L41/0816
Abstract: a process includes monitoring a plurality of message flows sent by respective network devices of a plurality of network devices. the plurality of message flows is associated with reporting a network telemetry metric to a network management system. the process includes determining that a given message flow of the plurality of message flows exhibits an unexpected behavior. the process includes, responsive to determining that the given message flow exhibits the unexpected behavior, determining an aggregate available bandwidth for message flows of the plurality of message flows, which respectively exhibit expected behaviors. the process includes, responsive to determining that the given message flow exhibits the unexpected behavior, modifying a bandwidth of the given message flow based on the aggregate available bandwidth.
Inventor(s): Rashmi V of Bengaluru IN for hewlett packard enterprise development lp, Rajeev Jain of Bengaluru IN for hewlett packard enterprise development lp
IPC Code(s): H04L43/10, H04L43/12
CPC Code(s): H04L43/10
Abstract: a network device that can trace the path of a network loop is provided. during operation, the network device can receive a probe packet from an originating network device (ond) via an ingress port of the network device. here, the probe packet can include a source address of the ond. the network device can determine whether the network device is the ond by comparing the source address with a local address. upon determining that the network device is not the ond, the network device can append the local address in a payload of the probe packet and forward the probe packet via an egress port based on the destination address. on the other hand, upon determining that the network device is the ond, the network device can determine presence of a loop associated with the network device and determine a trace path of the loop based on the payload.
Inventor(s): Venkatavaradhan Devarajan of Bangalore IN for hewlett packard enterprise development lp, Tathagata Nandy of Bangalore IN for hewlett packard enterprise development lp
IPC Code(s): H04L45/745, H04L9/40, H04L45/24
CPC Code(s): H04L45/745
Abstract: an access switch, which can connect one or more end devices to a network, is provided. during operation, the access switch can identify a multicast flow associated with a multicast group based on one or more packets received at the access switch. the access switch can store a flow identifier of the multicast flow in an entry of a data structure stored in a storage device of the access switch. subsequently, the access switch can facilitate deep-packet inspection on the multicast flow. to do so, the access switch can determine a set of properties associated with the multicast flow based on a plurality of packets of the multicast group and determine a multicast traffic class for the multicast flow based on the set of properties. the access switch can then store a label identifying the multicast traffic class in the entry of the data structure.
Inventor(s): Jianpo Han of Beijing CN for hewlett packard enterprise development lp, Kangchang Huang of Beijing CN for hewlett packard enterprise development lp, Qiang Zhou of Sunnyvale CA US for hewlett packard enterprise development lp
IPC Code(s): H04W12/0431, H04W12/76, H04W84/12
CPC Code(s): H04W12/0431
Abstract: in implementations of the present disclosure, there is provided an approach for transmitting multicast frames. a method comprises obtaining a multicast frame in a wireless local area network (wlan), where the wlan includes a plurality of sub-networks with a same service set identifier (ssid). then, a target sub-network of the plurality of sub-networks for receiving the multicast frame is determined based on the multicast frame and a unique group temporal key (gtk) for the target sub-network is obtained based on the target sub-network. next, the multicast frame is encrypted using the obtained unique gtk for the target sub-network, and the encrypted multicast frame is transmitted to one or more client devices in the target sub-network. implementations of the present disclosure can help the ap to reduce leakage of multicast frames to all client device by using the gtk corresponding the target sub-network.
Inventor(s): Gaurav Patwardhan of San Jose CA US for hewlett packard enterprise development lp, Eldad Perahia of Park City UT US for hewlett packard enterprise development lp
IPC Code(s): H04W48/16, H04W76/15, H04W84/12
CPC Code(s): H04W48/16
Abstract: 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.
Inventor(s): Guangning Qin of Beijing CN for hewlett packard enterprise development lp, Qin Wei of Beijing CN for hewlett packard enterprise development lp, Zhijun Ren of Beijing CN for hewlett packard enterprise development lp, Chunfeng Wang of Beijing CN for hewlett packard enterprise development lp
IPC Code(s): H04W48/20, H04W12/06, H04W48/16
CPC Code(s): H04W48/20
Abstract: a method for accelerating provisioning of wireless device. the method comprises receiving, by an access point (ap), a mapping of a wireless device and a further ap from a server. the method further comprises receiving, by the ap, presence announcement information from the wireless device. the method further comprises transmitting, by the ap and based on the received mapping, the received presence announcement information to the further ap. the method further comprises receiving, by the ap, response information for the wireless device from the further ap, the response information including an authentication request for the wireless device. the method further comprises transmitting, by the ap, the response information to the wireless device. in this manner, the provisioning ability of the provision ap can be extended to the non-provision ap, the provisioning time can be reduced, and the provisioning process can be accelerated.
Inventor(s): See Yun Yow of Singapore SG for hewlett packard enterprise development lp, James D. Hensley of Rocklin CA US for hewlett packard enterprise development lp, Mun Hoong Tai of Singapore SG for hewlett packard enterprise development lp
IPC Code(s): H05K7/20
CPC Code(s): H05K7/20145
Abstract: an information processing device comprises heat generating components, a plenum, and fans arranged to flow air through the plenum and to cool the heat generating components. the device also comprises a recirculation inhibition mechanism to reduce the amount of air recirculation in the event a fan fails. the recirculation inhibition mechanism comprises a plenum impedance element extending across the plenum such that the air passing through the plenum passes through the plenum impedance element prior to reaching the fans, and dividers disposed in the plenum and defining sub-compartments in the plenum. each of the sub-compartments corresponds to one of the fans and is configured to supply air to or receive air from the corresponding fan. in the event of one of the fans failing, air recirculating through the failed fan passes though the plenum impedance element twice before reaching an adjacent fan.
HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP patent applications on May 1st, 2025
- HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP
- G06F1/18
- G06F1/20
- H05K7/14
- H05K7/20
- CPC G06F1/183
- Hewlett packard enterprise development lp
- CPC G06F1/187
- G06F3/06
- CPC G06F3/064
- G06F8/656
- CPC G06F8/656
- G06F9/451
- G06N5/04
- G06N20/00
- H04L9/32
- CPC G06F9/451
- G06F40/51
- CPC G06F9/454
- G06F11/16
- G06F11/07
- G06F11/10
- CPC G06F11/1658
- G06F11/263
- CPC G06F11/263
- G06F13/16
- G06F12/02
- CPC G06F13/1668
- G06F16/25
- G06F16/2455
- G06F16/2458
- H04L41/0893
- CPC G06F16/256
- G06F21/57
- CPC G06F21/577
- G06N3/067
- G06F17/14
- G06N3/0464
- CPC G06N3/0675
- G06V10/44
- G06T7/11
- G06V10/26
- G06V10/762
- CPC G06V10/44
- G08B5/36
- CPC G08B5/36
- H01Q1/50
- H04W88/08
- CPC H01Q1/50
- H04B1/7073
- H04L7/033
- CPC H04B1/7073
- H04J3/06
- CPC H04J3/0673
- H04L5/00
- CPC H04L5/0091
- H04L41/0803
- H04L41/08
- CPC H04L41/0803
- H04L41/0816
- H04L43/026
- CPC H04L41/0816
- H04L43/10
- H04L43/12
- CPC H04L43/10
- H04L45/745
- H04L9/40
- H04L45/24
- CPC H04L45/745
- H04W12/0431
- H04W12/76
- H04W84/12
- CPC H04W12/0431
- H04W48/16
- H04W76/15
- CPC H04W48/16
- H04W48/20
- H04W12/06
- CPC H04W48/20
- CPC H05K7/20145
(Ad) Transform your business with AI in minutes, not months
Trusted by 1,000+ companies worldwide
