Dell Products L.P. patent applications on March 6th, 2025
Patent Applications by Dell Products L.P. on March 6th, 2025
Dell Products L.P.: 69 patent applications
Dell Products L.P. has applied for patents in the areas of G06F21/55 (6), H04B10/80 (6), G02B6/38 (4), G06N20/00 (4), H04L12/10 (4) H04B10/807 (4), G06N20/00 (4), G06F21/554 (3), G06F16/215 (3), G06F3/0613 (2)
With keywords such as: data, device, optical, power, based, cable, storage, training, information, and transmission in patent application abstracts.
Patent Applications by Dell Products L.P.
20250076947. POE POWER AGGREGATION SYSTEM_simplified_abstract_(dell products l.p.)
Inventor(s): Victor Teeter of Round Rock TX (US) for dell products l.p., Shree Rathinasamy of Round Rock TX (US) for dell products l.p.
IPC Code(s): G06F1/26
CPC Code(s): G06F1/266
Abstract: a poe power aggregation system includes a poe power aggregation device coupling a powering device to a powered device. the poe power aggregation device includes first and second powering device connectors coupled to first and second powering device ports on the powering device, respectively, and a powered device connector coupled to a powered device port on the powered device. the poe power aggregation device receives data from the powering device via the first powering device connector, and transmits the data to the powered device through the powered device connector. the poe power aggregation device also receives first and second power from the powering device via the first powering device connector and the second powering device connector, respectively, and transmits the first and second power to the powered device through the powered device connector along with the data.
20250076980. VIBRATION-BASED LOCATION INDICATION SYSTEM_simplified_abstract_(dell products l.p.)
Inventor(s): Neal Beard of Austin TX (US) for dell products l.p., Maunish Shah of Austin TX (US) for dell products l.p., Bruce Anthony Holmes of Austin TX (US) for dell products l.p., Douglas Roy Kaiser of Pflugerville TX (US) for dell products l.p.
IPC Code(s): G06F3/01
CPC Code(s): G06F3/014
Abstract: a computing system locating system includes a computing system having a computing system light emitting device that is configured to emit light to provide a computing system locating signal, and a vibration-based location indication system. the vibration-based location indication system includes a light detection subsystem that is configured to detect the computing system locating signal via the light emitted from the computing system light emitting device on the computing system, and a vibration subsystem that is configured to vibrate. a location indication subsystem in the vibration-based location indication system that is coupled to the light detection subsystem and the vibration subsystem determines that the light detection subsystem has detected the computing system locating signal via the light emitted from the computing system light emitting device on the computing system and, in response, drives the vibration subsystem to produce a vibration to indicate the location of the computing system.
Inventor(s): Wen-Pin Huang of New Taipei City (TW) for dell products l.p., Yao-Hsien Huang of New Taipei City (TW) for dell products l.p., Hsien-Tsan Chang of Taoyuan (TW) for dell products l.p., Yi-Chen Wang of Taoyuan City (TW) for dell products l.p., Po-Chun Hou of Taiwan City (TW) for dell products l.p.
IPC Code(s): G06F3/02, G06V10/56
CPC Code(s): G06F3/021
Abstract: an information handling system keyboard illuminates key values in each of plural keycaps with a backlight located below the plural keys and directed upward through the plural keys and having illumination that adjusts color temperature under management of a controller. a light sensor detects ambient light color temperature and communicates the ambient light color temperature to the controller, which executes instructions in non-transitory memory to adjust the backlight color illumination based on the detected ambient light color temperature to increase color contrast of backlight illumination relative to ambient light and thereby better highlight the key values on the keycap upper surfaces.
Inventor(s): Jonathan Walton of Seattle WA (US) for dell products l.p.
IPC Code(s): G06F3/06
CPC Code(s): G06F3/0613
Abstract: the technology described herein is directed towards using background data to be written to a storage system as padding material that is combined with synchronous/client data writes to make data writes optimally-sized for the storage system. instead of treating background work's data as a separate data stream of data to be written, some of the background data is preemptively maintained for padding the client i/o to optimal boundaries for a storage system. as a new client i/o data write comes in, prior to being written the system uses some of the preemptive padding to obtain an optimally-sized i/o data write. when that combined i/o operation completes, the client write is completed along with completing some amount of background data writing. described are various ways to maintain the padding data store, as well as batching of some client i/o data received within a timeframe before writing.
Inventor(s): Shaul Dar of Petach Tikva (IL) for dell products l.p., Ramakanth Kanagovi of Bengaluru (IN) for dell products l.p., Guhesh Swaminathan of Tamil Nadu (IN) for dell products l.p., Rajan Kumar of Nawada (IN) for dell products l.p.
IPC Code(s): G06F3/06
CPC Code(s): G06F3/0613
Abstract: a method, computer program product, and computing system for processing a plurality of input/output (io) requests associated with a storage object in a storage system. a plurality of io features are generated using the plurality of io requests associated with the storage object. a time dependent io feature is identified from the plurality of io features. a coefficient for the time dependent io feature for the storage system is extracted. the time dependent io feature is calibrated using the coefficient for the time dependent io feature for the storage system relative to the time dependent io feature from at least one other storage system.
Inventor(s): Shaul Dar of Petach Tikva (IL) for dell products l.p., Ramakanth Kanagovi of Bengaluru (IN) for dell products l.p., Vishnu Murty Karrotu of Hyderabad (IN) for dell products l.p., Guhesh Swaminathan of Tamil Nadu (IN) for dell products l.p., Rajan Kumar of Nawada (IN) for dell products l.p.
IPC Code(s): G06F3/06
CPC Code(s): G06F3/0649
Abstract: a method, computer program product, and computing system for forecasting a future temperature for a storage object within a multi-tiered cloud storage system. a cost associated with modifying a tiering of the storage object within the multi-tiered cloud storage system is determined based upon, at least in part, the future temperature forecasted for the storage object. the storage object is tiered in the multi-tiered cloud storage system based upon, at least in part, the cost associated with modifying the tiering of the storage object and a tiering policy associated with the multi-tiered cloud storage system.
20250077191. BUILDING SOFTWARE USING VOLUME SNAPSHOTS_simplified_abstract_(dell products l.p.)
Inventor(s): Robert A. Ballantyne of Mansfield MA (US) for dell products l.p., Lingyue Zhu of Shanghai (CN) for dell products l.p., Henrik Koren of Petach Tikva (IL) for dell products l.p., Tamilarasan Janakiraman of Cork (IE) for dell products l.p.
IPC Code(s): G06F8/30, G06F8/65
CPC Code(s): G06F8/30
Abstract: techniques are provided for building software using volume snapshots. one method comprises obtaining a volume snapshot of a workspace, wherein the volume snapshot comprises software files associated with a software development project; creating a new workspace from the volume snapshot; applying updates to the new workspace by fetching, from a software development system, code updates to the software files; and performing a software build on the new workspace to compile source code associated with the software files. the new workspace may be created from the volume snapshot using a read-only layer of the volume snapshot and the updates to the new workspace may employ a read-write layer of the volume snapshot. a volume snapshot may be created, in response to a validation of software files, using a given workspace and the updates to the given workspace.
Inventor(s): Kartike Bhagat of Framingham MA (US) for dell products l.p., Manish Dwivedi of Hopkinton MA (US) for dell products l.p., Aaron Twohig of Swinford (IE) for dell products l.p., Lisa O'Mahony of Glanmire (IE) for dell products l.p., Francisco Jaen of Cork (IE) for dell products l.p.
IPC Code(s): G06F9/445, G06F21/45
CPC Code(s): G06F9/44526
Abstract: a multi-site data storage monitoring system communicates executable actions to remote element managers in non-executable text files. each non-executable text file includes a human-readable textual description of the action, a top-level java class of a known task type, and essential properties. the element managers generate executable jobs from the non-executable text files by instantiating an empty task object based on the top-level java class, partially populating the empty task object based on the essential properties, adding the partially populated task object to a job structure, and using a token to provide authorization at job run-time. the token is created using user authentication information provided in response to presentation of the human-readable textual description of the action.
Inventor(s): Douglas L. Farley of Round Rock TX (US) for dell products l.p., Srinivas Giri Raju Gowda of Fremont CA (US) for dell products l.p., David Craig Lawson of Richardson TX (US) for dell products l.p., Shawn Mathew Swanson of Chanhassen MN (US) for dell products l.p.
IPC Code(s): G06F9/455
CPC Code(s): G06F9/45558
Abstract: a method for managing an lcs includes: sending a request to a microvisor kernel of a microvisor to provision an lcs on a first information handling system (ihs), wherein the request comprises at least a configuration template (ct); sending a second request to the microvisor kernel to verify that an enclave with a virtual trusted platform module (vtpm) is ready to communicate with the lcs; initiating, based successfully verifying, provisioning of the lcs based on the ct, wherein the provisioning of the lcs comprises at least an initiation of a guest basic input/output system (bios) of the lcs; receiving a notification, from the microvisor kernel, specifying that the lcs has been provisioned; after the notification has been received: sending a second notification to a user of the first ihs, wherein the second notification specifies a predetermined expiry date of the enclave with the vtpm on the first ihs.
Inventor(s): Michael Marrotte of Windermere FL (US) for dell products l.p.
IPC Code(s): G06F9/48
CPC Code(s): G06F9/4881
Abstract: the technology described herein is directed towards an artificial intelligence scheduler for real-time task execution systems, including an implementation based on a recurrent learning model. in one implementation, the model incorporates a deep q-network and proximal policy optimization to learn efficient scheduling policies for real-time systems. the scheduler can optimize for various real-time system aspects, including avoiding deadlocks, minimizing blocking, avoiding priority inversion, and reducing starvation. the artificial intelligence scheduler learns from actual system experience data to regularly improve scheduling policies and/or adapt to changing system requirements.
20250077284. FULL LIFECYCLE SUPPORT FOR ONBOARDING_simplified_abstract_(dell products l.p.)
Inventor(s): BRADLEY K. GOODMAN of Nashua NH (US) for dell products l.p., JOSEPH CAISSE of Burlington MA (US) for dell products l.p., GOVIND PULIKODE MUKUNDAN of Singapore (SG) for dell products l.p.
IPC Code(s): G06F9/50
CPC Code(s): G06F9/5027
Abstract: methods and systems for managing onboarding of data processing systems are disclosed. to onboard the data processing systems, partial onboardings may be performed. during the partial onboardings, authority resolution data may be supplemented to facilitate cooperation with orchestrators. once onboarded, the authority resolution data may be used to re-onboard the data processing systems to other orchestrators. during re-onboarding, the authority resolution data may be used to establish delegations of authority to the other orchestrators to facilitate cooperation with the other orchestrators.
Inventor(s): Vladimir Shveidel of Pardes-Hana (IL) for dell products l.p., Roy Koren of KFAR SABA (IL) for dell products l.p.
IPC Code(s): G06F9/50
CPC Code(s): G06F9/5044
Abstract: a shared portion of processor cores is allocated within the processor cores of a data storage system. each processor core in the shared portion of processor cores is shared between a storage system application executing in the data storage system and a containerized service also executing in the data storage system. a voluntary yield time interval is dynamically generated based on both a workload of the containerized service and a workload of the storage system application. each processor core in the shared portion of the processor cores is periodically voluntarily yielded by the storage system application, based on the voluntary yield time interval, to allow execution of the containerized service on that processor core.
Inventor(s): Sriharsha DV of Bangalore (IN) for dell products l.p., Gouri Shankar Mohapatra of Baripada Town (IN) for dell products l.p., Robert J. Bell, IV of Forest City NC (US) for dell products l.p.
IPC Code(s): G06F9/54, G06F11/36
CPC Code(s): G06F9/546
Abstract: techniques are provided for management of state information using a message queue. one method comprises, in response to a change in state information associated with a given service, updating the state information associated with the given service and publishing the updated state information associated with the given service to at least one topic of a message queue. the updated state information may be consumed from the message queue by an additional service, based on one or more topic subscriptions, to update respective state information maintained by the additional service. the state information may comprise a current configuration and/or a current state of (i) software, (ii) a system and/or (iii) an entity. one or more services may maintain a respective local cache of the state information and update at least a portion of the respective local cache in response to updated state information received from the message queue.
20250077334. COMMON HANDLER FOR MULTITUDE OF CRASH FAILURES_simplified_abstract_(dell products l.p.)
Inventor(s): Bassem ELAZZAMI of Austin TX (US) for dell products l.p., Karunakar POOSAPALLI of Telangana (IN) for dell products l.p., Ibrahim SAYYED of Georgetown TX (US) for dell products l.p.
IPC Code(s): G06F11/07
CPC Code(s): G06F11/0793
Abstract: disclosed systems and methods for handling failures in an information handling system enable one or more crash handlers to communicate crash handler notifications to an ec of the information handling system. the ec is configured to perform crash operations including detecting a crash occurrence associated with either a crash handler notification from any of the one or more crash handlers or an smm crash event. the ec may extract and store crash context information associated with the crash occurrence. the crash handler notifications may be communicated to the ec as mbox commands via a peripheral interconnect, e.g., an enhanced serial peripheral interconnect (espi). detecting a crash occurrence associated with the smm event may include initiating an ec timer responsive to receiving an smm entry message from an smm handler and detecting the ec timer reaching a threshold value before the ec receives an smm exit message.
20250077359. Prioritized Recovery of Files During Failback_simplified_abstract_(dell products l.p.)
Inventor(s): Kaushik Gupta of Pune (IN) for dell products l.p., Shiv S. Kumar of Pune (IN) for dell products l.p.
IPC Code(s): G06F11/14
CPC Code(s): G06F11/1469
Abstract: a system can maintain a record of first files that have been accessed via at least one of a group of priority user accounts, wherein the record is maintained as a least recently used structure, and wherein the first files belong to a group of files. the system can, in response to determining that the group of files is to be backed up, traverse the record of files from a head of the least recently used structure, and, for respective first files of the record of first files, create respective backup tasks for the respective first files. the system can, after backing up the respective first files, perform a backup of second files of the group of files that are omitted from the record of first files.
Inventor(s): Jack Huang of Chengdu (CN) for dell products l.p., Jiayi Chen of Chengdu (CN) for dell products l.p., Jie Zhao of Chengdu (CN) for dell products l.p.
IPC Code(s): G06F11/16, G06F11/07, G06F11/30
CPC Code(s): G06F11/1658
Abstract: techniques for selecting an input/output (io) array from storage arrays involve acquiring groups of volume states of a target volume of volumes in the storage arrays, wherein each of the groups of volume states includes volume states at different time points. such techniques further involve determining, based on the groups of volume states, pieces of state change information of the target volume in the storage arrays. such techniques further involve determining similarities among groups of array states of the storage arrays and similarity change information among the similarities, wherein an array state of each of the storage arrays is based on a volume state set of the volumes in each of the storage arrays. such techniques further involve selecting, based on the similarity change information and the pieces of state change information corresponding to the storage arrays, an io array from the storage arrays which is used for io.
20250077372. PROACTIVE INSIGHTS FOR SYSTEM HEALTH_simplified_abstract_(dell products l.p.)
Inventor(s): Lisa O'Mahony of Glanmire (IE) for dell products l.p., Francisco Jaen of Cork (IE) for dell products l.p.
IPC Code(s): G06F11/22
CPC Code(s): G06F11/2257
Abstract: current data from a saas system and associated remote data storage system is used to automate proactive fault avoidance. machine learning models are used to predict faults. rules are used with a rules engine to calculate corresponding fault avoidance recommendations. the model and rules are trained and created using source data from the saas system and remote data storage system with which the model and rules will be used. current data from those systems is used to predict future faults and calculate recommendations to avoid the predicted faults. implementation of a recommendation triggers a re-test to determine whether the predicted fault is still likely to occur.
Inventor(s): David Alexander Kaufman of Beer-Sheva (IL) for dell products l.p., Michael Timmy Opachevsky of Eilat (IL) for dell products l.p.
IPC Code(s): G06F11/22
CPC Code(s): G06F11/2273
Abstract: a method, computer program product, and computing system for identifying a computing device from a plurality of computing devices for executing a new test. testing results associated with the identified computing device are processed from a database of testing results. a candidate test is identified from a plurality of tests to execute on the identified computing device by processing a testing profile associated with the identified computing device and the testing results associated with the identified computing device. the candidate test is executed on the identified computing device.
Inventor(s): Jonathan Leonard Deonarine of Cedar Park TX (US) for dell products l.p., Arulnambi Raju of Round Rock TX (US) for dell products l.p., Wade Andrew Butcher of Cedar Park TX (US) for dell products l.p.
IPC Code(s): G06F12/02
CPC Code(s): G06F12/023
Abstract: a method for provisioning swap spaces. the method includes: receiving, from a platform orchestrator of a service delivery platform and directed to provisioning a swap space, a swap space instruction specifying a swap space owner and a swap space size; requesting, from the platform orchestrator in response to receiving the swap space instruction and subsequently receiving, a swap space configuration associated with the swap space; based on at least a portion of the swap space configuration: selecting, at least based on the swap space size, at least one physical memory device; creating at least one volume on the at least one physical memory device; creating an emulated memory drive using the at least one volume; and presenting, to the swap space owner, the emulated memory drive as attached swap space representing the swap space.
Inventor(s): Jeffrey Teel Glenn of Pflugerville TX (US) for dell products l.p., Matthew Gregory Puerkel of Minneapolis MN (US) for dell products l.p., Sheetal Kuber Pattankude of Bangalore (IN) for dell products l.p.
IPC Code(s): G06F12/0837
CPC Code(s): G06F12/0837
Abstract: an apparatus includes at least one processing device configured to receive, at a gateway device deployed in an information technology (it) infrastructure environment from a given it asset, a request for software code. the processing device is also configured to download the requested software code from a backend server responsive to determining that it is not cached locally in a software cache of the gateway device, and to provide the requested software code to the given it asset. the processing device is further configured to determine, utilizing one or more machine learning algorithms, a priority of the requested software code relative to other software code cached locally in the software cache. the processing device is further configured to implement a cache replacement algorithm for the software cache of the gateway device based at least in part on the determined priority of the requested software code.
Inventor(s): Ahsan Rashid of Piscataway NJ (US) for dell products l.p., Morgan A. Clark of South Orange NJ (US) for dell products l.p., Walter Forrester of Berkeley Heights NJ (US) for dell products l.p.
IPC Code(s): G06F16/11, G06F16/13, G06F16/182
CPC Code(s): G06F16/119
Abstract: migration of information, comprising inode numbers, from source filesystem to destination filesystem can be performed and managed. migrator component can partition inode subspace of destination filesystem into first inode subspace region, comprising first subgroup of inode slices, and second inode subspace region, comprising second subgroup of inode slices. provisioner manager component can provision first inode slices of the first subgroup in a first order. inode numbers associated with user files or directories contained in source slices of the source filesystem can be migrated to and allocated for corresponding first inode slices of the destination filesystem. provisioner manager component can provision second inode slices of the second subgroup in a second order that can be different from the first order. inodes associated with inode numbers associated with internal files or directories can be stored in the second inode slices. source filesystem can be active during the migration process.
Inventor(s): Bhupendra Kumar Pal of Noida (IN) for dell products l.p., Abhishek Mishra of Bangalore (IN) for dell products l.p., Praveena K S of Thrissur (IN) for dell products l.p.
IPC Code(s): G06F16/21, G06F16/22
CPC Code(s): G06F16/213
Abstract: an apparatus comprises at least one processing device configured to obtain information characterizing a user interface (ui) of an application, the obtained information comprising an image of the ui and textual data associated with the ui. the processing device is also configured to generate, by processing the image utilizing a first machine learning model, a first data structure characterizing data fields corresponding to ui components in the ui. the processing device is further configured to generate, by processing the textual data utilizing a second machine learning model, a second data structure characterizing relationships between the data fields. the processing device is further configured to determine, based on the first and second data structures, a database 10 configuration comprising an organization of the data fields into tables for a database associated with the application. the processing device is further configured to generate the database in accordance with the determined database configuration.
Inventor(s): Marc Guertin of Newton MA (US) for dell products l.p., Claudia Realegeno of Maple Valley WA (US) for dell products l.p., Sumedh Wasudeo Sathaye of Austin TX (US) for dell products l.p., Nandhini Sridaran of Frisco TX (US) for dell products l.p.
IPC Code(s): G06F16/215, G06F16/28
CPC Code(s): G06F16/215
Abstract: a system, method, and computer-readable medium for performing a data center monitoring and management operation. the data center monitoring and management operation includes: generating a tag for an object within a data center asset, the tag for the object associating a contextual meaning with the object; registering the tag when the tag is generated; storing the tag within a tag storage repository when the tag is registered; and, managing an aspect of the tag via a data tag management operation.
20250077486. User-Configurable Autotagging Policies_simplified_abstract_(dell products l.p.)
Inventor(s): Claudia Realegeno of Maple Valley WA (US) for dell products l.p., Sumedh Wasudeo Sathaye of Austin TX (US) for dell products l.p., Nandhini Sridaran of Frisco TX (US) for dell products l.p., Marc Guertin of Newton MA (US) for dell products l.p.
IPC Code(s): G06F16/215, G06F16/28
CPC Code(s): G06F16/215
Abstract: a system, method, and computer-readable medium for performing a data center monitoring and management operation. the data center monitoring and management operation includes: identifying an object within a data center asset; indicating a desire to provide a contextual meaning for the object; designating a user defined tagging structure; generating an auto tagging policy based upon the user defined tagging structure; and, instantiating a tag, the tag associating the contextual meaning with the object, the tag automatically conforming to the user defined tagging structure, the instantiating using the auto tagging policy.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/215, G06F16/23, G06F16/906
CPC Code(s): G06F16/215
Abstract: methods, systems, and devices for providing computer implemented services are disclosed. to provide the computer implemented services, a storage space in a data management system may be managed. to manage the storage system, data may be obtained for storage. the data may be classified as being related to at least one topic, and quality requirements may be identified based on the at least one topic. a determination may be made, based on the quality requirements, regarding whether the data meets the quality requirements. if the quality requirements are not met by the data, then storage of the data may be denied temporarily. otherwise, if the quality requirements are met by the data, then the data may be stored.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/2457, G10L15/26
CPC Code(s): G06F16/24578
Abstract: methods and systems for managing collection of data by a data management system and from data sources are disclosed. to manage collection of data, data management system may limit the types and quantity of data collected for storage in the data management system. data management system may prioritize collection of data based on relevancy of the data for one or more purposes with respect to an individual. to identify relevant data, data management system may analyze data, including audio recordings of interactions between the individual for which the data is regarding and other individuals that provide services to the individual, and identify topics of the data. based on the analysis of the data and identified topics, data management system may establish a ranking order of the topics that are more relevant to the individual.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/2457
CPC Code(s): G06F16/24578
Abstract: methods and systems for managing data stored in a data management system by processing search queries are disclosed. to manage data, data management system may classify the data based on relevancy of the data for one or more purposes with respect to an individual. to identify relevant data, data management system may analyze data, including audio recordings of interactions between the individual for which the data is regarding and other individuals that provide services to the individual and identify topics of the data. based on the analysis of the data and identified topics, data management system may establish a ranking order of the topics that are more relevant to the individual.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/2458, G06F16/2457, G10L15/26
CPC Code(s): G06F16/2477
Abstract: methods and systems for managing and use of data are disclosed. to manage data, the data may be classified with respect to topics that are relevant to a user of a data storage system. the topics that are relevant to the user may be identified based on digital recordings of conversations between the user and other persons. over time, the topics that are relevant to the user may change. the changes in relevant topics may be used to identify occurrences of different events in the user's life. these life events and data classified for corresponding topics may be used to service information request by providing context for the data and a means of discriminating more relevant from less relevant data.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/65
CPC Code(s): G06F16/65
Abstract: methods and systems for managing storage of data in a set of storage tiers are disclosed. to manage storage of data, data management system may analyze data to identify topic classifications and topic rankings for the data. data management system may prioritize storage of data in higher performing storage tiers based on the relevancy of the data for one or more purposes with respect to an individual. to identify relevant data with respect to the individual for which data is being stored, data management system may analyze data, including audio recordings of interactions between the individual and other individuals to identify topics relevant to the individual. based on the identified topics, data management system may establish a relevancy quantification for the portions of data and use the relevancy quantification to select a storage tier in which to store the portion of the data.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F16/65, G06F3/16
CPC Code(s): G06F16/65
Abstract: methods and systems for managing user interactions between a user and at least one user device are disclosed. to manage user interactions, data management system may obtain an interaction model to deploy to the at least one user device in order to establish an interface. the interaction model may define how the at least one user device communicates information to the user and/or obtained user input from the user. to obtain the interaction model relevant to a user, data management system may identify at least one condition impacting an ability of the user to interact with the at least one user device and the extent of the condition limiting the user's ability to interact with the at least one user device.
Inventor(s): Ibrahim SAYYED of Georgetown TX (US) for dell products l.p., Charles D. ROBISON of Buford GA (US) for dell products l.p., Anand Prakash JOSHI of Round Rock TX (US) for dell products l.p.
IPC Code(s): G06F21/31
CPC Code(s): G06F21/31
Abstract: disclosed systems and methods for securing an information handling system monitor for certain predetermined events, and, upon detecting any one of the predetermined events, requesting ownership data indicative of the authorized or recognized owner. in some embodiments, the ownership data is conveyed via a digital certificate establishing a trusted relationship between the owner and the information handling system. the digital certificate cryptographically associates a manifest of the system's key components and a device identifier such as a service tag. the predetermined requests and events may include, as non-limiting examples, requests to wipe, clear, or sanitize a persistent storage resource, request to change an encryption key, chassis intrusion events, requests to modify an os image of a platform, requests to modify a security parameter, requests to modify or restore a factory setting of a configuration parameter, incorrect password events exceeding a predetermined threshold, and spi probe detection events.
Inventor(s): IGOR DUBROVSKY of Beer Sheva (IL) for dell products l.p., BORIS SHPILYUCK of Ashdod (IL) for dell products l.p., MAXIM BALIN of Gan-Yavne (IL) for dell products l.p., NISAN HAIMOV of Beer Sheva (IL) for dell products l.p.
IPC Code(s): G06F21/53, G06F21/56
CPC Code(s): G06F21/53
Abstract: methods and systems for securing software architectures are disclosed. the software architectures may be secured through the implementation of threat models. the threat models may include design threat models that indicate vulnerabilities that software based on an architecture may exhibit, and build threat models that indicate vulnerabilities of implementation of the software based on the architecture may exhibit. the threat models may be used to select where and how to deploy software to limit exploitable vulnerabilities to be within acceptable levels.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06F21/55
CPC Code(s): G06F21/55
Abstract: methods and systems for managing impact of inferences provided to inference consumers are disclosed. an artificial intelligence (ai) model may be poisoned by poisoned training data and may provide poisoned inferences to an inference consumer. to determine whether to remediate the poisoned inference, first use of the poisoned inference may be compared to second use of a second inference generated by a second ai model that is not believed to be poisoned. the first use and the second use may be the same type of use and a deviation between the first use and the second use may indicate an extent to which the poisoned inference impacted the inference consumer. a quantification of the deviation may be obtained and compared to a quantification threshold. if the quantification meets the quantification threshold, an action set may be performed to remediate the impact of the poisoned inference.
20250077653. METHOD AND SYSTEM FOR MICROVISOR HIDING_simplified_abstract_(dell products l.p.)
Inventor(s): Douglas L. Farley of Round Rock TX (US) for dell products l.p., Srinivas Giri Raju Gowda of Fremont CA (US) for dell products l.p., David Craig Lawson of Richardson TX (US) for dell products l.p., Shawn Mathew Swanson of Chanhassen MN (US) for dell products l.p.
IPC Code(s): G06F21/55, G06F9/54
CPC Code(s): G06F21/552
Abstract: a method for managing a microvisor includes: issuing an api call to a microvisor agent to obtain a configuration template (ct) required to provision an lcs on an ihs; upon obtaining the ct, sending the ct to a microvisor kernel via the microvisor api; provisioning the lcs based on the ct; upon provisioning of the lcs and based on the microvisor kernel's request, initiating a guest bios of the lcs; notifying, via a gui, an administrator about the provisioned lcs; after notifying the administrator: monitoring communication traffic of the lcs; analyzing the communication traffic to generate an analysis output; making, based on the analysis output, a determination that the activity is a malicious activity; and implementing, based on the determination, a security policy to disrupt a malicious user of the lcs.
Inventor(s): Douglas L. Farley of Round Rock TX (US) for dell products l.p., Srinivas Giri Raju Gowda of Fremont CA (US) for dell products l.p., David Craig Lawson of Richardson TX (US) for dell products l.p., Shawn Mathew Swanson of Chanhassen MN (US) for dell products l.p.
IPC Code(s): G06F21/55, G06F9/451
CPC Code(s): G06F21/552
Abstract: a method for managing an lcs includes: sending a request to a microvisor kernel (mk) of a microvisor to provision an lcs on a first ihs; initiating provisioning of the lcs based on a configuration template; receiving a notification, from the mk, specifying that the lcs has been provisioned; after the notification has been received: obtaining first metadata associated with the first ihs and second metadata associated with a second ihs; analyzing the first metadata and second metadata to extract relevant data; inferring, based on the relevant data, that the first ihs has at least the required amount of hardware resources to execute a vbmc associated with the first ihs; sending, based on the inferring, a second request to an scp of the first ihs to generate the vbmc on the first ihs; and receiving a second notification, from the scp, specifying that the vbmc is generated on the scp.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06F21/55
CPC Code(s): G06F21/554
Abstract: methods and systems for managing impact of inferences provided to inference consumers on the operation of the inference consumers are disclosed. poisoned training data may be introduced and used to train an ai model, which may then poison the ai model and lead to poisoned inferences being provided to the inference consumers. to determine whether to remediate the poisoned inferences, a replacement inference may be generated and consumed by a digital twin of the inference consumers. a quantification of deviation of operation between the inference consumers after consuming the poisoned inference and operation of the digital twin after consuming the replacement inference may be compared to a threshold. if the quantification meets the threshold, an action set may be performed to remediate the impact of the poisoned inference.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06F21/55
CPC Code(s): G06F21/554
Abstract: methods and systems for managing an artificial intelligence (ai) model are disclosed. an ai model may be part of an evolving ai model pipeline, the processes of which may include obtaining training data from data sources used to update the ai model. an attacker may introduce poisoned training data via one or more of the data sources as a form of attack on the ai model. when the poisoned training data is identified, the one or more data sources that supplied the training data may be identified and analyzed to determine the attacker's level of view into the pipeline. based on the attacker's level of view, remedial actions may be performed that may update operation of pipeline. the updated operation of the pipeline may reduce the computational expense for remediating impact of the poisoned training data, and may reduce the likelihood of obtaining poisoned training data in the future.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06F21/55
CPC Code(s): G06F21/554
Abstract: methods and systems for managing inferences throughout a distributed environment are disclosed. poisoned training data may be introduced and used to train an ai model, which may then poison the ai model and lead to poisoned inferences being provided to the inference consumers. entities may submit challenges alleging that decisions made by the inference consumers are due to consumption of the poisoned inferences. to respond to the challenges, a replacement inference may be generated and consumed by a digital twin of the inference consumers. a quantification of deviation of operation between the inference consumers after consuming the poisoned inference and operation of the digital twin after consuming the replacement inference may be obtained and included in a response to the challenge. the response may also include an extent of agreement or disagreement with the allegation.
Inventor(s): Shiv S. Kumar of Pune (IN) for dell products l.p., Kaushik Gupta of Pune (IN) for dell products l.p.
IPC Code(s): G06F21/56
CPC Code(s): G06F21/564
Abstract: a system can maintain, in a directory, respective first softlinks of respective first files that have a size within a specified range, and that have been modified subsequent to a respective most-recent virus scan. the system can, in response to determining to perform an antivirus scan on a group of files that comprises the first files, perform a first antivirus scan on the first files based on identifying the first softlinks in the directory, and, after performing the first antivirus scan on the first files, perform a second antivirus scan on second files of the group of files that are not identified with respective second softlinks in the directory.
Inventor(s): Shyamkumar Iyer of Cedar Park TX (US) for dell products l.p., Abhay Salunke of Austin TX (US) for dell products l.p.
IPC Code(s): G06F21/57
CPC Code(s): G06F21/57
Abstract: a method for managing data includes obtaining, by a system control processor, a verification request for a logically composed system (lcs) associated with a tenant, in response to the verification request: identifying a corresponding trusted execution environment (tee) associated with the tenant, sending a challenge question to the lcs for identity verification, obtaining, in response to the challenge question, a security response from the lcs, performing an identity verification for the lcs using a lcs-key pairing stored in secured storage of the tee, making a determination, based on performing the identity verification, that the lcs is verified, and based on the determination, servicing a workload associated with the lcs.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F21/62
CPC Code(s): G06F21/6218
Abstract: methods and systems for managing requests for functionalities of a data repository are disclosed. the data repository may store sensitive data (e.g., personal data), and may offer functionality (e.g., data access) in order to facilitate computer-implemented services. to prevent unauthorized access to and/or use of the sensitive data, an access control system may be implemented. for example, in order to gain access to data stored in the data repository, the access control system may prompt a requesting user to provide responses to security questions during authentication. the security questions may be based on details of personal experiences of the authorized user (e.g., identified from the personal data of the authorized user) and may be updated automatically when new data is introduced to the data repository. therefore, the responses to the security questions required for authentication may be memorable to the authorized user and/or difficult to predict for unauthorized users.
Inventor(s): PREM PRADEEP MOTGI of Austin TX (US) for dell products l.p., DHARMESH M. PATEL of Round Rock TX (US) for dell products l.p., MANPREET SINGH SOKHI of Santa Clara CA (US) for dell products l.p.
IPC Code(s): G06F21/62
CPC Code(s): G06F21/6227
Abstract: methods and systems for managing access to data in a data management system are disclosed. to manage access to data, data management system may limit the access to data stored within the data management system based on an identity of a requestor from which a request for a portion of the data is obtained. data management system may identify an access control model usable to manage access to the data stored in the data management system based on topics associated with the identity of the requestor and relevancy of each topic. to identify an access control model, data management system may use the identity of the requestor to identify associated topics and topic rankings for the identified topics. based on the identified access control model, data management may provide a response to the requestor to service the request for a portion of data.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06F21/64
CPC Code(s): G06F21/64
Abstract: methods and systems for managing artificial intelligence (ai) models are disclosed. to manage ai models, an instance of an ai model may not be re-trained using training data determined to be potentially poisoned. by doing so, malicious attacks intending to influence the ai model using poisoned training data may be prevented. to do so, a first level of strength of a first causal relationship present in historical training data may be compared to a second level of strength of a second causal relationship present in a candidate training data set. the first level of strength and the second level of strength may be expected to be similar within a threshold. if a difference between the first level of strength and the second level of strength is not within the threshold, the candidate training data may be treated as including poisoned training data.
Inventor(s): Michael Barnes of Doylestown PA (US) for dell products l.p., Sivakumar Kondaraju of Cary NC (US) for dell products l.p., Abinandaraj Rajendran of Morrisville NC (US) for dell products l.p., Zachary W Arnold of Royal Oak MI (US) for dell products l.p.
IPC Code(s): G06N5/04
CPC Code(s): G06N5/04
Abstract: a method for assisted context generation for enhanced accuracy in document inferencing includes designating, by a device including a processor and in response to an input prompt, a selected context information source from a group of context information sources using a first machine learning model. the selected context information source is designated based on relevance of the selected context information source to the input prompt. the method further includes constructing, by the device and using a second machine learning model that is not the first machine learning model, a human-readable response to the input prompt by applying parameters of the second machine learning model to the input prompt and the selected context information source.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06N5/04
CPC Code(s): G06N5/04
Abstract: methods and systems for managing impact of inferences provided to inference consumers on decisions made by the inference consumers are disclosed. poisoned training data may be introduced and used to train an ai model, which may then poison the ai model and lead to poisoned inferences being provided to the inference consumers. inference consumers may deploy hardware to customers based on the poisoned inferences. to determine whether to modify the deployed hardware, a performance cost associated with the deployed hardware may be obtained. the performance cost may indicate a deviation between operation of the deployed hardware and operation of hardware that may have been deployed if an unpoisoned inference was used. if the performance cost meets a performance cost threshold, at least one additional hardware component may be deployed to the customer.
Inventor(s): Jeebak Mitra of Ottawa (CA) for dell products l.p., Gwenael Poitau of Montreal (CA) for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: a method can comprise training, by a system, a local machine learning model with local radio frequency data. the method can further comprise receiving, by the system, a first global model update from an edge server that is configured to communicate with a group of radio frequency devices, and updating the trained local model based on the first global model update. the method can further comprise receiving, by the system, a second global model update from a central server that is configured to communicate with a group of edge servers that includes the edge server, wherein the second global model update is based on second federated learning of the group of edge servers. the method can further comprise updating the trained local model based on the second global model update. the method can further comprise performing, by the system, self-calibration based on the trained local model to produce a configuration.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: methods and systems for managing evolving artificial intelligence (ai) models are disclosed. the evolving ai models may be used to generate inferences that may be provided to downstream consumers during a provisioning process. the downstream consumers may rely on the accuracy and consistency of the inferences provided during the provisioning process to provide desired computer-implemented services. the ai models may be updated (e.g., with new training data) automatically and/or frequently over time in order to increase the accuracy of inferences provided by the ai model. however, inferences provided by a newly updated instance of an ai model may be inconsistent with inferences provided by prior instances of the ai model (e.g., due to ai model poisoning). therefore, to increase the likelihood of providing accurate and consistent (e.g., unpoisoned) inferences to the downstream consumers, an appropriate instance of the ai model may be identified for use in the provisioning process.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: methods and systems for managing artificial intelligence (ai) models are disclosed. to manage ai models, an instance of an ai model may not be re-trained using training data determined to be potentially poisoned. by doing so, malicious attacks intending influence the ai model in a using poisoned training data may be prevented. to do so, a first causal relationship present in historical training data may be compared to a second causal analysis present in a candidate training data set. the first causal relationship and the second causal relationship may be expected to be similar within a threshold. if a difference between the first causal relationship and the second causal relationship is not within the threshold, the candidate training data may be treated as including poisoned training data.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: methods and systems for managing artificial intelligence (ai) models are disclosed. to manage ai models, an instance of an ai model may not be re-trained using training data determined to be too similar to previously used training data. by doing so, malicious attacks intending to shift the ai model in a particular direction using poisoned training data may be prevented. to do so, a clustering analysis may be performed using a candidate training data and variable clustering criteria prior to performing re-training of an instance of an ai model using the candidate training data set. the analysis may result in a score. if the score exceeds a score threshold, the candidate training data set may be considered to contain poisoned training data. if the score does not exceed the score threshold, the candidate training data set may be accepted as usable to train an instance of the ai model.
20250078634. VIBRATION-BASED LOCATION INDICATION SYSTEM_simplified_abstract_(dell products l.p.)
Inventor(s): Neal Beard of Austin TX (US) for dell products l.p., Bruce Anthony Holmes of Austin TX (US) for dell products l.p., Maunish Shah of Austin TX (US) for dell products l.p., Douglas Roy Kaiser of Pflugerville TX (US) for dell products l.p.
IPC Code(s): G08B6/00
CPC Code(s): G08B6/00
Abstract: a vibration-based location indication system includes a computing system that is coupled to a management system via a network. the computing system includes a computing system vibration device, and a computing system location indication subsystem that is coupled to the network and the computing system vibration device. the computing system location indication subsystem receives a computing system location indication instruction to indicate a location of the computing system from the management system via the network and, based on the computing system location indication instruction, drives the computing system vibration device to produce a vibration that is configured to indicate the location of the computing system.
Inventor(s): Eduardo ESCAMILLA of Round Rock TX (US) for dell products l.p., Robert G. BASSMAN of Dalton MA (US) for dell products l.p., Walter R. CARVER of Round Rock TX (US) for dell products l.p., William A. SMITH of Round Rock TX (US) for dell products l.p.
IPC Code(s): H01R12/70, H01R12/75, H01R12/79, H01R13/627
CPC Code(s): H01R12/7005
Abstract: a cable assembly may include a cable terminated with a cable termination configured to electrically couple the cable to a first circuit board and a cable carrier adapter comprising mechanical features configured to mechanically couple the cable and the cable termination in a fixed position relative to the cable carrier adapter and physical dimensions substantially similar to that of a second circuit board configured to electrically and mechanically couple to the first circuit board such that the cable carrier adapter is configured to mechanically engage with guiding features of a housing of the first circuit board for mechanically guiding the second circuit board relative to the first circuit board in order to guide the cable carrier adapter relative to the first circuit board to electrically couple the cable to the first circuit board via the cable termination.
Inventor(s): Chun-Ting Lu of New Taipei City (TW) for dell products l.p., JerYo Lee of Taipei (TW) for dell products l.p., Cheng-Hsiang Chuang of New Taipei City (TW) for dell products l.p., Yo-Huang Chang of Taipei City (TW) for dell products l.p.
IPC Code(s): H01R13/629
CPC Code(s): H01R13/62983
Abstract: a memory socket includes a frame having a base portion and a side portion, and a push-eject locking mechanism in physical communication with the base portion and with the side portion. the push-eject locking mechanism to transition between an unlocked position and a locked position. the push-eject locking mechanism includes an eject bar component and a lever component. the weight of the eject bar component biases the push-eject locking mechanism towards the unlocked position. based on a force being exerted on the lever component, the lever component pivots and transition the push-eject locking mechanism from the unlocked position to the locked position.
Inventor(s): Tsung-Cheng Liao of Taoyuan City (TW) for dell products l.p., Wei-Cheng Yu of New Taipei City (TW) for dell products l.p., Merle Jackson Wood III of Round Rock TX (US) for dell products l.p., Chin Jui Liu of Taoyuan City (TW) for dell products l.p., Tun-Chieh Liang of Taipei City (TW) for dell products l.p., Chi-Che Wu of Taipei (TW) for dell products l.p.
IPC Code(s): H02J7/00
CPC Code(s): H02J7/0013
Abstract: a power adapter includes a flyback converter and a buck converter. if a first device is a preferred device, then power is allocated to the first device up to a first value. if a second device is plugged in, then power is re-allocating to the first device up to a second value and up to a third value to the second device. a total of the second value and the third value is up to the first value.
Inventor(s): Neal Beard of Austin TX (US) for dell products l.p., Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Victor Teeter of Round Rock TX (US) for dell products l.p.
IPC Code(s): H04B10/80, H04B10/25
CPC Code(s): H04B10/807
Abstract: a single cable optical data/power transmission (scodpt) port breakout system includes a scodpt powering device coupled to scodpt powered devices via respective optical data/power transmission cables (“cables”) and a scodpt port breakout device. a plurality of single cable optical data/power ports on the scodpt port breakout device are coupled via respective ones of the cables to respective ones of the scodpt powering device or scodpt powered devices, with those single cable optical data/power ports each including port optical data conduit(s) having a port optical data conduit cross-sectional area, and optical power conduit(s) having a port optical power conduit cross-section area that is greater than the port optical data conduit cross-sectional area. the scodpt port breakout device receives optical power from the scodpt powering device and distributes it to the scodpt powered devices, and receives optical data and routes it to one or more of the scodpt powered devices.
Inventor(s): Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Neal Beard of Austin TX (US) for dell products l.p., Victor Teeter of Round Rock TX (US) for dell products l.p.
IPC Code(s): H04B10/80, G02B6/38, H04L12/10
CPC Code(s): H04B10/807
Abstract: a single cable optical data/power transmission (scodpt) high availability system includes a plurality of scodpt transmission powering devices coupled to a scodpt powered device via respective optical data/power transmission cables (“cables”) and a scodpt high availability device. a respective single cable optical data/power port on the scodpt high availability device is coupled to each cable and includes port optical data conduit(s) having a port optical data conduit cross-sectional area, and optical power conduit(s) having a port optical power conduit cross-section area that is greater than the port optical data conduit cross-sectional area. a single cable optical data/power connector is coupled to the scodpt powered device and includes connector optical data conduit(s) having a connector optical data conduit cross-sectional area, and connector optical power conduit(s) having a connector optical power conduit cross-section area that is greater than the connector optical data conduit cross-sectional area.
Inventor(s): Victor Teeter of Round Rock TX (US) for dell products l.p., Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Neal Beard of Austin TX (US) for dell products l.p.
IPC Code(s): H04L12/10, G02B6/38, H04B10/80
CPC Code(s): H04L12/10
Abstract: a single cable optical data/power transmission ethernet port adapter system includes a single cable optical data/power transmission powering device (“powering device”) coupled to a powered device using an optical data/power transmission cable (“cable”) and a single cable optical data/power transmission ethernet port adapter device (“adapter device”). the adapter device includes an ethernet port coupled to the powered device, and an optical data/power connector connected to the cable and including optical data conduit(s) and optical power conduit(s) with a greater cross-section area than the optical data conduit(s). a data communication system receives optical data from the powering device via the optical data conduit(s) and uses it to transmit electrical data via the ethernet port to the powered device, and a power transmission system receives optical power from the powering device via the optical power conduit(s) and uses it to transmit electrical power via the ethernet port to the powered device.
Inventor(s): Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Victor Teeter of Round Rock TX (US) for dell products l.p., Neal Beard of Austin TX (US) for dell products l.p.
IPC Code(s): H04B10/80, G02B6/38, H04L12/10
CPC Code(s): H04B10/807
Abstract: a single cable optical data/power transmission powered device system includes a single cable optical data/power transmission powering device coupled to a single cable optical data/power transmission powered device via an optical data/power transmission cable. the single cable optical data/power transmission powered device is coupled to the optical data/power transmission cable via a single cable optical data/power port that includes optical data conduit(s) and optical power conduit(s) with a greater cross-section area than the optical data conduit(s). a power receiving system in the single cable optical data/power transmission powered device receives first optical power, which was transmitted using the optical data/power transmission cable, via the optical power conduit(s). a powered device subsystem and data communication system in the single cable optical data/power transmission powered device receive first optical data, which was transmitted using the optical data/power transmission cable, via the optical data conduit(s).
Inventor(s): Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Victor Teeter of Round Rock TX (US) for dell products l.p., Neal Beard of Austin TX (US) for dell products l.p.
IPC Code(s): H04B10/80, H04B10/25
CPC Code(s): H04B10/807
Abstract: a single cable optical data/power transmission powering device system includes a single cable optical data/power transmission powering device coupled to a single cable optical data/power transmission powered device via an optical data/power transmission cable. the single cable optical data/power transmission powering device is coupled to the optical data/power transmission cable via a single cable optical data/power port includes optical data conduit(s) and optical power conduit(s) with a greater cross-section area than the optical data conduit(s). a single cable optical data/power transmission subsystem in the single cable optical data/power transmission powering system controls a data communication system to transmit first optical data via the optical data conduit(s) to the single cable optical data/power transmission powered device, and controls a power transmission system to transmit first optical power via the optical power conduit(s) to the single cable optical data/power transmission powered device.
Inventor(s): ERIC JOSEPH BRUNO of Shirley NY (US) for dell products l.p., STAV SAPIR of Beer Sheva (IL) for dell products l.p., MAXIM BALIN of Gan-Yavne (IL) for dell products l.p., BRADLEY K. GOODMAN of Nashua NH (US) for dell products l.p., JOSEPH CAISSE of Burlington MA (US) for dell products l.p.
IPC Code(s): H04L9/08, H04L9/32
CPC Code(s): H04L9/0825
Abstract: methods and systems for managing secrets are disclosed. to manage secrets, backups of the secrets may be obtained to facilitate future recoveries of the secrets. while backed up, the secrets may be protected with a security model. the security model may prescribe how decryption keys are maintained, and how various copies of the backed up secrets are to be separated from the decryption keys for encrypted copies of the secrets. when access to a secret is lost, a recovery may be performed using a corresponding encrypted backup of the secret.
Inventor(s): Shyamkumar Iyer of Cedar Park TX (US) for dell products l.p., Abhay Salunke of Austin TX (US) for dell products l.p.
IPC Code(s): H04L9/08
CPC Code(s): H04L9/0825
Abstract: a system control processor manager is programmed to obtain a configuration request for a trusted execution environment (tee) associated with a tenant. in response to receiving the configuration request, the system control processor manager may generate the tee associated with the tenant, communicate with a key management system (kms) to obtain a set of keys associated with the tenant, store the set of keys in the tee, and configure a set of secured storage devices associated with the tenant with the set of keys. the system control processor may service multiple configuration requests associated with multiple tenants.
Inventor(s): ERIC JOSEPH BRUNO of Shirley NY (US) for dell products l.p., BRADLEY K. GOODMAN of Nashua NH (US) for dell products l.p., JOSEPH CAISSE of Burlington MA (US) for dell products l.p.
IPC Code(s): H04L9/08, H04L9/30, H04L9/32
CPC Code(s): H04L9/0894
Abstract: methods and systems for managing secrets are disclosed. to manage secrets, backups of the secrets may be obtained to facilitate future recoveries of the secrets. the backups may be established by a manufacturer of a device. when ownership in the device is transferred to a new owner, the backups of the secrets may be added to an ownership used to complete onboarding of the device to systems managed by the new owner. the new owner may use the backups, in conjunction with decryption keys, to access and use the secrets in the event of the secrets becoming inaccessible.
Inventor(s): Shree Rathinasamy of Round Rock TX (US) for dell products l.p., Victor Teeter of Round Rock TX (US) for dell products l.p., Neal Beard of Austin TX (US) for dell products l.p.
IPC Code(s): H04L12/10, G02B6/38, H04B10/80
CPC Code(s): H04L12/10
Abstract: a single cable optical data/power transmission ethernet cable adapter system includes a powering device coupled to a single cable optical data/power transmission powered device (“powered device”) using an ethernet cable and a single cable optical data/power transmission ethernet cable adapter device (“adapter device”). the adapter device includes an ethernet port coupled to the ethernet cable, and a single cable optical data/power connector connected to the powered device and including optical data conduit(s) and optical power conduit(s) with a greater cross-section area than the optical data conduit(s). a data communication system receives electrical data from the powering device via the ethernet port and uses it to transmit optical data via the optical data conduit(s) to the powered device, and a power transmission system receives electrical power from the powering device via the ethernet port and uses it to transmit optical power via optical power conduit(s) to the powered device.
20250080524. DISTRIBUTION OF DATA IN CLUSTERS OF DEVICES_simplified_abstract_(dell products l.p.)
Inventor(s): MAXIM BALIN of Gan-Yavne (IL) for dell products l.p., EFI LEVI of Beer Sheva (IL) for dell products l.p., LIOR BENISTY of Beer Sheva (IL) for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/083
Abstract: methods and systems for managing operation of endpoint devices are disclosed. to manage the operation of endpoint devices, clusters of endpoint devices may be established. the members of the cluster may utilize synchronized data across the cluster to provide various computer implemented services. to synchronize the synchronized data, updates made to local copies of the synchronized data may be distributed to maintain synchronization of other copies of the synchronized data. by doing so, different members of the cluster may have access to synchronized data.
Inventor(s): OFIR EZRIELEV of Beer Sheva (IL) for dell products l.p., TOMER KUSHNIR of Omer (IL) for dell products l.p., AMIHAI SAVIR of Newton MA (US) for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/205
Abstract: methods and systems for managing an artificial intelligence (ai) model are disclosed. an ai model may be part of an evolving ai model pipeline, the processes of which may include obtaining training data from data sources used to update the ai model. an attacker may introduce poisoned training data via one or more of the data sources as a form of attack on the ai model. when the poisoned training data is identified, the poisoned training data may be compared to existing training data to determine the attacker's goal. based on the attacker's goal, remedial actions may be performed that may update operation of pipeline. the updated operation of the pipeline may reduce the computational expense for remediating impact of the poisoned training data, and may reduce the likelihood of obtaining poisoned training data in the future.
Inventor(s): Eran Goldstein of Montreal (CA) for dell products l.p., Mohammed Abdelsadek of Kanata (CA) for dell products l.p., Evgeny Paltin of Montreal (CA) for dell products l.p., Jayaram Venguduswamy Srinivasan of Nepean (CA) for dell products l.p.
IPC Code(s): H04W28/02, H04L1/00, H04L43/0823
CPC Code(s): H04W28/0268
Abstract: a method for low-complexity artificial intelligence-based channel link adaptation includes converting, by a device including a processor, a first vector of signal quality values corresponding to respective frequency subcarriers utilized by a cell of a communication network into a second vector of model input parameters. the first vector has a first size that is smaller than a second size of the second vector. the method further includes selecting, by the device, a modulation and coding scheme based on applying the second vector to a machine learning model. the method additionally includes facilitating, by the device, conducting a transmission from the cell using the modulation and coding scheme, resulting in the transmission having a first throughput that is higher than a second throughput associated with the cell before the facilitating.
20250081368. FIXTURE FOR USE WITH VACUUM HOIST_simplified_abstract_(dell products l.p.)
Inventor(s): Megan C. WINGFIELD of Box Elder SD (US) for dell products l.p., Eduardo ESCAMILLA of Round Rock TX (US) for dell products l.p.
IPC Code(s): H05K5/02, B25J15/06, H05K5/03, H05K7/14
CPC Code(s): H05K5/0221
Abstract: a removable fixture may include a cover assembly, comprising a cover having a top surface which is generally planar and substantially void of any features formed thereon, one or more first alignment features mechanically coupled to a side of the cover, and a wing. the wing may have one or more keyholes configured to mechanically engage with one or more corresponding coupling structures on a physical object and one or more second alignment features configured to mechanically engage with the one or more first alignment features in order to, when the one or more first alignment features are mechanically engaged with the one or more second alignment features, constrain translation of the cover relative to the physical object to a linear translation.
20250081379. LOCKING MECHANISM FOR SLIDING COMPONENTS_simplified_abstract_(dell products l.p.)
Inventor(s): Megan C. WINGFIELD of Box Elder SD (US) for dell products l.p.
IPC Code(s): H05K7/14
CPC Code(s): H05K7/1487
Abstract: a system may include a first alignment feature, a spring-loaded locking feature mechanically coupled to the first alignment feature, the spring-loaded locking feature having a recess formed therein, a second alignment feature configured to mechanically engage with the first alignment feature in order to, when the first alignment feature is mechanically engaged with the second alignment feature, constrain translation of the first alignment feature to the second alignment feature to a linear translation, and a plunger assembly mechanically coupled to the second alignment feature via a compressive spring that mechanically biases the plunger towards the second alignment feature, the plunger assembly comprising a plunger and a tongue extending from the plunger.
Inventor(s): Chuan Chieh Tseng of Taipei (TW) for dell products l.p., Sam Shang of Shanghai (CN) for dell products l.p., Christopher Sismilich of Austin TX (US) for dell products l.p., Kevin Garrett of Austin TX (US) for dell products l.p.
IPC Code(s): H05K7/14, A47B88/40
CPC Code(s): H05K7/1489
Abstract: a hybrid rail support system. the hybrid rail support system includes a wider width information handling system chassis; and, a hybrid rail support component extending from a front portion of the server rack to a rear portion of the server rack, the hybrid rail support component comprising: a static rail, the static rail being configured to mount to a side of a server rack; and, a sliding rail, the sliding rail being configured to move along the static rail from an inserted position to an extended position, the sliding rail being configured to mount to a rear portion of a wider width information handling system chassis, the sliding rail enabling the wider width information handling system chassis to extend from a rack to a rack service position.
Inventor(s): Timothy A. Shedd of Lithia FL (US) for dell products l.p.
IPC Code(s): H05K7/20
CPC Code(s): H05K7/20581
Abstract: an information handling system includes a front door having a first frame, a main portion, and a rear portion. the main portion includes a second frame, a component node having multiple components, and a first channel. the rear portion includes a third frame, a cooling coil, a cooling fan, and a second channel. the information handling system is airtight when the first frame is in physical communication with a first end of the second frame and the third frame is in physical communication with a second end of the second frame. an airflow circulates within the information handling system to cool the components in the component node. the airflow circulates from the cooling coil to the cooling fan, through the second channel, through the first channel, through the component node, and back through the cooling coil.
- Dell Products L.P.
- G06F1/26
- CPC G06F1/266
- Dell products l.p.
- G06F3/01
- CPC G06F3/014
- G06F3/02
- G06V10/56
- CPC G06F3/021
- G06F3/06
- CPC G06F3/0613
- CPC G06F3/0649
- G06F8/30
- G06F8/65
- CPC G06F8/30
- G06F9/445
- G06F21/45
- CPC G06F9/44526
- G06F9/455
- CPC G06F9/45558
- G06F9/48
- CPC G06F9/4881
- G06F9/50
- CPC G06F9/5027
- CPC G06F9/5044
- G06F9/54
- G06F11/36
- CPC G06F9/546
- G06F11/07
- CPC G06F11/0793
- G06F11/14
- CPC G06F11/1469
- G06F11/16
- G06F11/30
- CPC G06F11/1658
- G06F11/22
- CPC G06F11/2257
- CPC G06F11/2273
- G06F12/02
- CPC G06F12/023
- G06F12/0837
- CPC G06F12/0837
- G06F16/11
- G06F16/13
- G06F16/182
- CPC G06F16/119
- G06F16/21
- G06F16/22
- CPC G06F16/213
- G06F16/215
- G06F16/28
- CPC G06F16/215
- G06F16/23
- G06F16/906
- G06F16/2457
- G10L15/26
- CPC G06F16/24578
- G06F16/2458
- CPC G06F16/2477
- G06F16/65
- CPC G06F16/65
- G06F3/16
- G06F21/31
- CPC G06F21/31
- G06F21/53
- G06F21/56
- CPC G06F21/53
- G06F21/55
- CPC G06F21/55
- CPC G06F21/552
- G06F9/451
- CPC G06F21/554
- CPC G06F21/564
- G06F21/57
- CPC G06F21/57
- G06F21/62
- CPC G06F21/6218
- CPC G06F21/6227
- G06F21/64
- CPC G06F21/64
- G06N5/04
- CPC G06N5/04
- G06N20/00
- CPC G06N20/00
- G08B6/00
- CPC G08B6/00
- H01R12/70
- H01R12/75
- H01R12/79
- H01R13/627
- CPC H01R12/7005
- H01R13/629
- CPC H01R13/62983
- H02J7/00
- CPC H02J7/0013
- H04B10/80
- H04B10/25
- CPC H04B10/807
- G02B6/38
- H04L12/10
- CPC H04L12/10
- H04L9/08
- H04L9/32
- CPC H04L9/0825
- H04L9/30
- CPC H04L9/0894
- H04L9/40
- CPC H04L63/083
- CPC H04L63/205
- H04W28/02
- H04L1/00
- H04L43/0823
- CPC H04W28/0268
- H05K5/02
- B25J15/06
- H05K5/03
- H05K7/14
- CPC H05K5/0221
- CPC H05K7/1487
- A47B88/40
- CPC H05K7/1489
- H05K7/20
- CPC H05K7/20581