Dell Products L.P. patent applications on April 24th, 2025
Patent Applications by Dell Products L.P. on April 24th, 2025
Dell Products L.P.: 37 patent applications
Dell Products L.P. has applied for patents in the areas of G06F11/36 (5), H04L9/40 (5), G06N20/00 (4), G06F16/901 (2), H04L9/30 (2) G06N20/00 (3), H04L63/1416 (2), G02B5/3025 (1), G06F21/44 (1), H05K7/1492 (1)
With keywords such as: data, device, based, test, network, process, computing, voltage, management, and storage in patent application abstracts.
Patent Applications by Dell Products L.P.
Inventor(s): Ghee Beng Ooi of Singapore SG for dell products l.p., Chih-Hao Kao of Singapore SG for dell products l.p., Tiak Hooy Sim of Singapore SG for dell products l.p.
IPC Code(s): G02B5/30, G02F1/1335
CPC Code(s): G02B5/3025
Abstract: described are systems and methods to eliminate reflection from a display's incident light that is captured by a camera, such as a webcam. the display includes a polarizer that polarizes light which is reflected by a medium such as glass to the camera. the reflected light includes linearly polarized light. a polarizer is strategically placed in front of the lens set of a camera. utilizing an orientation perpendicular to the reflected incident light, reflection from the reflective surfaces is eliminated before it enters the lens set of the camera.
Inventor(s): KEN NICHOLAS of Leander TX US 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.
IPC Code(s): G06F1/3234, G06F1/3212
CPC Code(s): G06F1/3234
Abstract: managing power delivery, including receiving, at a first stage voltage regulator, an input power signal having a first voltage value; accessing a first table that indicates a correspondence between a parameter and voltage values of the input power signal; identifying a particular voltage value of the input power signal that is associated with the parameter; setting the voltage of the input power signal received by the first stage voltage regulator to the particular voltage value; accessing a second table indicating correspondence between the parameter and voltage values of an output voltage of an output power signal of the first stage voltage regulator; identifying a specific voltage value of the output voltage associated with parameter; setting the voltage of the output power signal output by the first stage voltage regulator to the specific voltage value; providing, by the first stage voltage regulator, the output power signal to second stage voltage regulators.
Inventor(s): Dmitry Krivenok of Dublin IE for dell products l.p., Amitai Alkalay of Kadima IL for dell products l.p.
IPC Code(s): G06F3/06
CPC Code(s): G06F3/0634
Abstract: a method, computer program product, and computing system for identifying a change in a capacity of a cloud-deployed storage system. a capacity ratio and a iops ratio are determined for the cloud-deployed storage system. a portion of a cloud-deployed storage device is modified based upon, at least in part, one or more of the capacity ratio and the iops ratio. the portion of the cloud-deployed storage device is mapped to a portion of a logical storage device.
Inventor(s): Raghavendra Venkataramudu of Bangalore IN for dell products l.p., Vinod Parackal Saby of Bangalore IN for dell products l.p., Swapan Kumar Bhakat of Jaduguda IN for dell products l.p.
IPC Code(s): G06F9/4401
CPC Code(s): G06F9/4403
Abstract: a dc-scm composable bios system includes a dc-mhs computing device having a dc-scm device with a bios subsystem and a bios configuration database. during initialization operations for the dc-scm device that are part of an initialization of the dc-mhs computing device, the dc-scm device determines that the dc-scm device requires a bios image to be composed in order to operate with the dc-mhs computing device, and identifies a dc-mhs computing device processing system configuration and a dc-mhs computing device hardware configuration of the dc-mhs computing device. the dc-scm device then retrieves bios modules from the bios configuration database based on the dc-mhs computing device processing system configuration and the dc-mhs computing device hardware configuration of the dc-mhs computing device, and uses them to compose the bios image. the dc-scm device then provides the bios image in the bios subsystem, and causes a second initialization of the dc-mhs computing device.
Inventor(s): Ankit Singh of Bangalore IN for dell products l.p., Shrikant Hallur of Bangalore IN for dell products l.p., Naveen Awasthy of Bangalore IN for dell products l.p.
IPC Code(s): G06F9/4401
CPC Code(s): G06F9/4406
Abstract: an information handling system includes a storage and a basic input/output system (bios). the bios load and boot the base root file system. the bios determine a requested capability for the information handling system. the bios download an external root file system for the requested capability. the bios overlay the external root file system on the base root file system. the bios determine a job associated with the requested capability is completed. based on the job being completed, the bios delete the external root file system.
20250130867. PROVIDING RESILIENCE IN DISTRIBUTED SYSTEMS_simplified_abstract_(dell products l.p.)
Inventor(s): BORIS SHPILYUCK of Ashdod IL for dell products l.p., MAXIM BALIN of Gan-Yavne IL for dell products l.p., IGOR DUBROVSKY of Beer Sheva IL for dell products l.p., NISAN HAIMOV of Beer Sheva IL for dell products l.p.
IPC Code(s): G06F9/50, H04L9/00, H04L67/10
CPC Code(s): G06F9/5072
Abstract: methods and systems for managing operation of a distribute system are disclosed. to manage the distributed system, a distributed ledger may be used to track the condition of the system. the distribute ledger may be managed in accordance with a consensus based approach. the consensus based approach may limit the impact of compromised entities by reducing the ability of the compromised entities from introducing malicious data into the data upon which management decision are made. additionally, the distributed ledger may provide a shared understanding the condition of the distributed system across the distributed system.
Inventor(s): BORIS SHPILYUCK of Ashdod IL for dell products l.p., MAXIM BALIN of Gan-Yavne IL for dell products l.p., IGOR DUBROVSKY of Beer Sheva IL for dell products l.p., NISAN HAIMOV of Beer Sheva IL for dell products l.p.
IPC Code(s): G06F9/50, H04L67/10
CPC Code(s): G06F9/5083
Abstract: methods and systems for managing distributed systems are disclosed. the distributed system may be managed by monitoring for overloaded data processing systems of the distributed system. if identified, workloads from the overloaded data processing systems may be migrated to other data processing systems that are not overloaded to improve the likelihood of timely generating results from the workloads. the results may be used in distributed processes that may require the results to be timely. if the results are not timely obtained, the distributed processes may be impacted.
Inventor(s): Pankaj Pande of CARLINGFORD AU for dell products l.p., Nikhil Manohar Vichare of Austin TX US for dell products l.p., Chen-Hsin Chang of Keelung City TW for dell products l.p.
IPC Code(s): G06F11/30, G06F1/26, G06F13/40
CPC Code(s): G06F11/3051
Abstract: managing devices connected to an ihs, including performing, at a first time, a calibration and configuration of a device management model, including: identifying contextual data associated with a device coupled to a port of the ihs; training, based on the contextual data, the device management model, including generating a configuration policy including configuration rules, the configuration rules for performing computer-implemented actions to automatically adjust power provided to the device and functionality enablement of the device; performing, at a second time, a steady-state management of the device, including: monitoring the contextual data associated with the device; and in response, i) accessing the device management model including the configuration policy, ii) identifying one or more of the configuration rules based on the monitored contextual data, and iii) applying the one or more configuration rules to perform computer-implemented actions to automatically adjust power provided to the device and functionality enablement of the device.
20250130915. OPTIMZED DATA COLLECTION SCHEDULER_simplified_abstract_(dell products l.p.)
Inventor(s): Balasingh Samuel of Round Rock TX US for dell products l.p., Farzad Khosrowpour of Pflugerville TX US for dell products l.p., Travis North of Cedar Park TX US for dell products l.p.
IPC Code(s): G06F11/34, G06F9/48
CPC Code(s): G06F11/34
Abstract: an information handling system stores data collection policies. an embedded controller creates a data tolerance table and, based on the data collection policies, creates a timer associated with data collection of a first data type identified in one of the data collection policies. the embedded controller determines a data collection duration for the data collection of the first data type. in response to the timer no longer being needed for any of the data collection policies, the embedded processor disables the timer.
Inventor(s): Benjamin E. Santaus of Somerville MA US for dell products l.p., Emily Minor of Boston MA US for dell products l.p.
IPC Code(s): G06F11/36
CPC Code(s): G06F11/3608
Abstract: techniques for achieving improved checkpointing are disclosed. a library that has been implemented in a process is accessed. this library facilitates checkpoint-and-resume functionality to enable the process to checkpoint itself. tags are used to annotate code of the process. the tags define which data of the process is to be saved in an event in which the process terminates in an unexpected manner. the tags define a block within the code and define the data that is to be saved. after the data has been saved, the process terminates unexpectedly. the process restarts from its beginning state and is progressed through its code. this progression includes skipping code for which data was previously saved. the process continues to progress and to skip through the code until reaching the defined block. at that point, the process resumes at the defined block, such that the process resumes at a user-defined location.
Inventor(s): Xiaowei Shen of Shanghai CN for dell products l.p., Xiaoxuan Dong of Shanghai CN for dell products l.p., Tianyu Zheng of Shanghai CN for dell products l.p.
IPC Code(s): G06F11/36
CPC Code(s): G06F11/3636
Abstract: an information handling system includes a storage and a baseboard management controller. the storage stores a current firmware release for the information handling system. the baseboard management controller generates a set of breakpoints for code differences from a previous firmware release to the current firmware release and executes multiple testcases for the current firmware release. based on the execution of the testcases, the baseboard management controller stores breakpoint hitting events for the testcases in the storage. the baseboard management controller filters and ranks the breakpoint hitting events and maps the filtered and ranked breakpoint hitting events to the code differences. the baseboard management controller stores a reduced list of the code differences that are highly related to failed testcases of the current firmware release in the storage.
Inventor(s): Shiva Prasad H N of Udupi IN for dell products l.p.
IPC Code(s): G06F11/36
CPC Code(s): G06F11/368
Abstract: an information handling system collects telemetry data associated with an application, and processes the telemetry data of the application to derive a pattern. the system analyzes the telemetry data to identify test data and a test scenario based on the pattern, and generates a test case based on the test data and the test scenario.
Inventor(s): Kiko Nan Wang of Chengdu CN for dell products l.p., Michael Chen of Chengdu CN for dell products l.p., Jessica Jing Ye of Chengdu CN for dell products l.p.
IPC Code(s): G06F11/36
CPC Code(s): G06F11/3684
Abstract: techniques are provided for automated generation of software application test cases for evaluation of software application issues. one method comprises obtaining a first mapping of log event templates, related to log events in a software application log, to respective log event template vectors; obtaining a second mapping of test step vectors, generated using the log event template vectors, to respective test step functions, wherein a given test step vector comprises one or more of the log event template vectors; in response to obtaining information characterizing a software application issue: generating test step vector representations of the information characterizing the software application issue, using the first mapping; mapping the test step vector representations of the information to respective test step functions using the second mapping; and generating a test case logic flow to evaluate the software application issue using the mapped test step functions.
Inventor(s): Wanqing Zheng of Shanghai CN for dell products l.p., Yinghui Liu of Shanghai CN for dell products l.p., Dong Zhang of Shanghai CN for dell products l.p., Wei Wei Jiang of Shanghai CN for dell products l.p.
IPC Code(s): G06F11/36
CPC Code(s): G06F11/3696
Abstract: an information handling system detects whether a text element in a graphical user interface is truncated by comparing the text element with an expected text element using a pattern-matching algorithm. the system also detects whether a non-text element in the graphical user interface is truncated by comparing the non-text element to a reconstructed copy of the non-text element.
Inventor(s): Weibing Zhang of Beijing CN for dell products l.p.
IPC Code(s): G06F16/13, G06F16/16, G06F16/182
CPC Code(s): G06F16/137
Abstract: a technique for transmitting data involves creating a shared hash set for sharing pattern data between a protocol layer and an input/output (io) path layer, wherein the shared hash set stores pattern keys and pattern content for use in pattern detection. the technique further involves receiving, by the protocol layer, a pattern data block from a client, wherein the pattern data block comprises the pattern data and non-pattern data. the technique further involves transmitting, by the protocol layer, the pattern data block to the io path layer. the technique further involves writing the pattern data block to a common block file system (cbfs) layer.
20250130975. AUTOMATIC NAMESPACE DELETION SYSTEM_simplified_abstract_(dell products l.p.)
Inventor(s): Murali Manohar Shanmugam of Leander TX US for dell products l.p., Kevin Jiajun Wu of Georgetown TX US for dell products l.p.
IPC Code(s): G06F16/16, G06N20/00
CPC Code(s): G06F16/162
Abstract: an automatic namespace deletion system includes an automatic namespace deletion subsystem that is coupled to a storage system. the automatic namespace deletion subsystem receives a namespace creation instruction and, in response, creates a namespace in the storage system and sets a namespace deletion flag for the namespace. the automatic namespace deletion subsystem then stores data in the namespace in the storage system. subsequent to storing the data in the namespace of the storage system, the automatic namespace deletion subsystem performs an initialization process and, during the initialization process, identifies the namespace deletion flag and, in response, deletes the namespace from the storage system.
Inventor(s): Diego Vrague Noble of Pelotas BR for dell products l.p., Eduardo Vera Sousa of Centro BR for dell products l.p., Karen Braga Enes of Belo Horizonte BR for dell products l.p., Karen Stéfany Martins of Belo Horizonte BR for dell products l.p.
IPC Code(s): G06F16/901, G06F16/903, G06F16/951
CPC Code(s): G06F16/9024
Abstract: a motif based approach for subgraph matching in partially observed graphs is disclosed. graphlets are extracted from a query graph, such as a graph of a workload. motifs are built from the graphlets and the motifs are matched to a target graph, such as an infrastructure graph. once the motifs are matched to nodes in the target graph, tasks of the workload, which correspond to nodes in the query graph, are placed in the infrastructure for execution.
Inventor(s): Zijia Wang of Weifang CN for dell products l.p., Zhisong Liu of Shenzhen CN for dell products l.p., Zhen Jia of Shanghai CN for dell products l.p.
IPC Code(s): G06F16/9032, G06F16/901
CPC Code(s): G06F16/9032
Abstract: example embodiments of the present disclosure provide a method, a device, and a computer program product for data query. the method includes selecting, according to a type of input data, a target pre-trained model from a deep network pool including a plurality of pre-trained models; performing, by using the selected target pre-trained model, feature extraction on the input data to determine text descriptors for the input data; and generating, based on the text descriptors, a query table for query. the method according to the present disclosure can select, according to different input data, different target pre-trained models from the deep network pool including the plurality of pre-trained models to process (e.g., compress) the input data. the method according to the present disclosure assembles a plurality of deep networks into a pool to automatically process data to obtain text descriptors for data retrieval, thereby achieving efficient data compression and retrieval.
Inventor(s): Mahesh Babu Ramaiah of Bangalore IN for dell products l.p., Sudhansu Sekhar Sahu of Bangalore IN for dell products l.p., Sunaina Ashok of Bengaluru IN for dell products l.p.
IPC Code(s): G06F21/44, G06F9/455, G06F21/60
CPC Code(s): G06F21/44
Abstract: an apparatus comprises at least one processing device configured to identify an extended processing device and onboard the extended processing device to an edge infrastructure management platform, wherein the extended processing device is added as a component of a legacy device, and integrate the legacy device into the edge infrastructure management platform through one or more operations performed by the extended processing device.
Inventor(s): Ítalo Gomes Santana of Rio de Janeiro BR for dell products l.p., Diego Vrague Noble of Pelotas BR for dell products l.p., Miguel Paredes Quiñones of Campinas BR for dell products l.p.
IPC Code(s): G06F18/26, G06N10/60
CPC Code(s): G06N10/60
Abstract: systems and methods for solving problems including combinatorial optimization problems are disclosed. a set of solutions to a combinatorial optimization problem are obtained from a quantum computing system such as a quantum annealer. a pattern mining operation is performed on a set of solutions output by a quantum annealing. the patterns are input to a solver to generate a solution to the initial problem.
Inventor(s): Claudio Romero of Rio de Janeiro – RJ BR for dell products l.p., Eduardo Vera Sousa of Niterói – RJ BR for dell products l.p., Jonathan Mendes De Almeida of Brasília – DF BR for dell products l.p., Julia Drummond Noce of Rio de Janeiro – RJ BR for dell products l.p., Yanexis Pupo Toledo of Niterói – RJ BR for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: one example method includes receiving, by a server from each client in a group of clients, metrics and parameters of local models relating to training of a model by the client, aggregating, by the server, the model parameters, determining, by the server using the metrics that have been sent, if a convergence criterion for the model has been met, and when the convergence criterion is determined not to have been met, calculating, by the server, a respective � value for each of the clients, and transmitting, by the server to the clients, the respective � values, and the � values respectively indicate, to the clients, an extent to which the client should perform exploration, and/or exploitation, in a next training round for the model.
Inventor(s): Paulo Abelha Ferreira of Rio de Janeiro BR for dell products l.p., Vinicius Michel Gottin of Rio de Janeiro BR for dell products l.p., Pablo Nascimento da Silva of Niterói BR for dell products l.p.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: one example method includes generating a first test metric using an unknown dataset and second test metrics using shifted datasets that are shifted versions of a known dataset. a data distribution difference is determined between the unknown dataset and one of the shifted datasets that is closest to the unknown dataset. a determination is made if the data distribution difference is less than or equal to a first known threshold, and applying the data distribution difference to a correlation model to determine an estimated test metric difference. a test metric difference id determined between the first test metric and a second test metric associated with the one of the shifted datasets that is closest to the unknown dataset. a determination is made if a difference between the test metric difference and the estimated test metric difference is less than or equal to a second known threshold.
Inventor(s): Rômulo Teixeira de Abreu Pinho of Niterói BR for dell products l.p., Vinicius Michel Gottin of Rio de Janeiro BR for dell products l.p., Paulo de Figueiredo Pires of Niterói BR for dell products l.p., Alex Laier Bordignon of Niterói BR for dell products l.p., Franklin Jordan Ventura Quico of Niterói BR for dell products l.p., João Victor Daher Daibes of Niterói BR for dell products l.p.
IPC Code(s): G06N20/00, H03M7/30
CPC Code(s): G06N20/00
Abstract: optimizing lossy compression for classification models with unlabeled data is disclosed. in determining a compression quality, a global kl divergence threshold for input data is determined. if a divergence between the kl divergence of data and perturbed data is less than the global kl divergence threshold, a classifier will perform within a percentage of its original accuracy. a relationship between the compression quality {circumflex over (q)}nd the kl divergences of the compressed and decompressed data, after being processed by the classifier is determined. an optimal compression quality is determined based on the global kl divergence threshold and the relationship.
Inventor(s): Arvind Jagannathan of Round Rock TX US for dell products l.p., Bijan Kumar Mohanty of Austin TX US for dell products l.p., Hung Dinh of Austin TX US for dell products l.p.
IPC Code(s): G06Q30/0202, G06Q30/0282
CPC Code(s): G06Q30/0202
Abstract: a method comprises receiving a request to predict a plurality of scores for a plurality of satisfaction metrics for a product, wherein the request identifies a plurality of factors associated with the product. the request is input to a multiple output classification machine learning model. using the multiple output classification machine learning model, the plurality of scores are predicted in response to the request. the multiple output classification machine learning model is trained with at least one dataset comprising historical product satisfaction data corresponding to respective ones of a plurality of products.
Inventor(s): Renold Raj Devaraj of Bangalore IN for dell products l.p., Rahul Sarkar of Bangalore IN for dell products l.p., Rajeshwari Gauri Wallia of Woonona NSW AU for dell products l.p.
IPC Code(s): G06Q30/0242, G06N20/20, G06Q30/0251
CPC Code(s): G06Q30/0244
Abstract: one example method includes using an ensemble including machine learning (ml) forecasting models, determining respective relationships between past media spends and changes in search engine optimization (seo) driven consumer demand for a product or service, ranking the relationships according to a criterion, based on the ranking, generating a forecast that comprises recommended future media spends, and effects expected to be achieved by those future media spends, and implementing the recommended future media spends.
Inventor(s): Priyanka Pathak of Hyderabad IN for dell products l.p., Adya Jha of Bengaluru IN for dell products l.p., Saurabh Jha of Austin TX US for dell products l.p.
IPC Code(s): G06F16/332
CPC Code(s): G06Q40/06
Abstract: one example method includes preparing a document draft, performing an automated sentiment analysis on the document draft, performing an automated topic generation process based on the document draft and based on an outcome of the automated sentiment analysis, performing an automated question generation process based on the document draft and based on an outcome of the automated topic generation process, and the automated question generation process is performed for each of one or more consumers of the document draft, after consumption of the document draft by the consumers, performing another automated sentiment analysis process on the document draft using sentiments associated with input, concerning the document draft, provided by the consumers, and automatically updating a list of topics, generated by the automated topic generation process, based on contents of a transcript that includes the input provided by the consumers.
Inventor(s): Ilya Portnik of Ashton CA for dell products l.p., Eran Goldstein of Montreal CA for dell products l.p., Jayaram Venguduswamy Srinivasan of Nepean CA for dell products l.p., Libin Jose Meledam of Nepean CA for dell products l.p.
IPC Code(s): H04L1/00, H04W72/1273, H04W72/23
CPC Code(s): H04L1/0013
Abstract: the technology described herein is directed towards puncturing physical downlink shared channel (pdsch) data in a defined slot symbol, otherwise reserved for coreset (control resource set) information, with physical downlink control channel (pdcch) information. a scheduler schedules pdsch data into the otherwise defined/reserved symbol. network equipment (e.g., a gnodeb) then overwrites at least some of the pdsch data in that symbol with the pdcch information, resulting in punctured pdsch data in that symbol. for transmitting, the coding rate/repetition pattern is adjusted by the network equipment such that a receiving user equipment is able to recover the overwritten pdsch data during decoding. as a result, an entire symbol otherwise used only for pdcch information is able to be used for pdsch data.
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): H04L9/08, G10L19/02, G10L19/16, H04L9/30
CPC Code(s): H04L9/088
Abstract: methods and systems for managing operation of endpoint devices are disclosed. the operation of the endpoint devices may be managed by requiring that the endpoint devices use a communication management framework to selective send communications via network and audio interfaces. additionally, the communication management framework may cause the endpoint devices to update the manner in which audio communications are used over time to distribute data. the updates to the manner in which the audio communications are used over time may reduce the likelihood of a malicious entity from injecting malicious communications and/or snooping audio communications between endpoint devices.
20250132913. SECURING DATA SENT BETWEEN COMPUTING DEVICES_simplified_abstract_(dell products l.p.)
Inventor(s): ROMAN BOBER of Ashdod IL for dell products l.p., MAXIM BALIN of Gan-Yavne IL for dell products l.p., STAV SAPIR of Beer Sheva IL for dell products l.p.
IPC Code(s): H04L9/30, G06F21/62
CPC Code(s): H04L9/30
Abstract: methods and systems for securing data are disclosed. the data may be secured by encrypting the data. the data may be sent from one edge device to another edge device. to secure the transmission of the data between edge devices, the selection of an encryption algorithm to encrypt the data may be based on progressive rules and other attributes. the progressive rules may be determined by an edge orchestrator and send to all edge devices. the other attributes may include identifiers of the one edge device and the other edge device and classification of the data.
Inventor(s): IGOR DUBROVSKY of Beer Sheva IL for dell products l.p., MAXIM BALIN of Gan-Yavne IL for dell products l.p., STAV SAPIR of Beer Sheva IL for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/102
Abstract: methods and systems for securing blueprints are disclosed. a blueprint may be secured by requiring sufficient privilege to implement the blueprint. the sufficient privilege may be obtained through an analysis of permissions of a blueprint user and the blueprint authors. an analysis of the permissions of the blueprint user and the blueprint authors may include reviewing privileges of the blueprint user and the blueprint authors. when the sufficient privilege may be found for the blueprint user and the blueprint authors, use of the blueprint may be permitted on an edge device.
Inventor(s): Vinod Parackal Saby of Bangalore IN for dell products l.p., Raghavendra Venkataramudu of Bangalore IN for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/1416
Abstract: a datacenter secure control module (dc-scm) as-a-service system includes a datacenter modular hardware system (dc-mhs) computing device having a host processor module (hpm) and a networking device that is coupled to the hpm and a network, and a dc-scm provisioning system that is coupled to the networking device via the network. the dc-scm provisioning system provides a networking device service instance for the networking device, receives a networking device dc-scm functionality configuration for the networking device through the network via the networking device service instance, and configures at least one image to provide networking device dc-scm functionality defined by the networking device dc-scm functionality configuration. the networking device receives the at least one image via the network, and executes the at least one image to perform the networking device dc-scm functionality with the hpm.
Inventor(s): Eduarda Tatiane Caetano Chagas of Belo Horizonte BR for dell products l.p., Maira Beatriz Hernandez Moran of Rio de Janeiro BR for dell products l.p., Paulo Abelha Ferreira of Rio de Janeiro BR for dell products l.p.
IPC Code(s): H04L9/40, G06N3/098
CPC Code(s): H04L63/1416
Abstract: digital twins for monitoring for server attacks in federated learning system are disclosed. a digital twin is intertwined with a central server and configured to generate acceptability distributions based on updates received from clients at the server in the federated learning system. the acceptability distributions, which may account for the probability of transmission failures, are used to identify anomalous behaviors, including anomalies in global gradient updates, server attacks and/or suspicious behavior.
Inventor(s): Parminder Singh Sethi of Ludhiana IN for dell products l.p., Anay Kishore of Bangalore IN for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/1425
Abstract: a method comprises configuring a network protocol security engine to separately reside between a set of one or more first computing devices (e.g., clients) making one or more service requests (e.g., tcp requests) and a set of one or more second computing devices (e.g., web servers) responding to the one or more service requests. the network protocol security engine validates packets associated with the requests/responses to either accept or reject the requests/responses and thus prevent cyberattacks (e.g., flooding attacks) from adversely affecting resources of the set of one or more second computing devices.
20250133119. FAULT TOLERANT ZERO TRUST CONTROL PLANE_simplified_abstract_(dell products l.p.)
Inventor(s): Victor da Cruz Ferreira of Rio de Janeiro – RJ BR for dell products l.p., Roberto Nery Stelling Neto of Rio de Janeiro – RJ BR for dell products l.p., Vicente J.P. Amorim of João Monlevade, Minas Gerais BR for dell products l.p., Joubert de Castro Lima of Ouro Preto – MG BR for dell products l.p., Vinicius Facco Rodrigues of São Paulo – SP BR for dell products l.p., Werner Spolidoro Freund of Rio de Janeiro BR for dell products l.p.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/20
Abstract: one example method includes receiving, at a control plane of a zero trust (zt) architecture, a request to implement a proposed policy, forwarding the request to multiple policy engines of a blockchain policy engine, executing, by the policy engines, a consensus algorithm that decides whether or not the proposed policy will be implemented, wherein, as part of execution of the consensus algorithm, each of the policy engines performs a respective validation process with respect to the proposed policy, and when a consensus is reached by the policy engines, either implementing the proposed policy, or preventing implementation of the proposed policy, as dictated by the consensus.
20250133669. BEZEL FILTER SATURATION LEVEL SENSING_simplified_abstract_(dell products l.p.)
Inventor(s): Charles W. Ziegler, IV of East Providence RI US for dell products l.p.
IPC Code(s): H05K5/02, B01D46/00, B01D46/44
CPC Code(s): H05K5/0213
Abstract: an information handling system includes a chassis, a filter, a force sensing resistor, and a baseboard management controller. the chassis includes a bezel. the filter is in physical communication with the bezel of the chassis. the force sensing resistor is in physical communication with the bezel and with the filter. the baseboard management controller communicates with the force sensing resistor and receives a voltage level from the force sensing resistor. based on the voltage level, the baseboard management controller determines a clogged level for the filter. the baseboard management controller determines whether the clogged level is greater than a threshold level. in response to the clogged level being greater than the threshold level, the baseboard management controller determines that the filter needs to be replaced and provides a filter clogged message.
Inventor(s): Kevin Warren Mundt of Livingston TX US for dell products l.p., Valerie Diane Padilla of Austin TX US for dell products l.p.
IPC Code(s): H05K7/14
CPC Code(s): H05K7/1492
Abstract: a computing environment, including a computing chassis including bays, the computing chassis including a first side and a second side; a first iom positioned at the second side of the chassis; a second iom positioned at the second side of the chassis; a plurality of storage devices, each storage device i) positioned within a respective bay of the bays and ii) coupled to both the first iom and the second iom; network devices, each network device positioned within a respective bay of the bays, each network device including network connectors positioned at a first side of the network device and network ports positioned at a second side of the network device opposite to the first side, each network device coupled to both the first iom and the second iom by respective network ports of the network device, wherein the network connectors are positioned at the first side of the chassis.
Inventor(s): Yi-Hsuan Chen of Taoyuan City TW for dell products l.p.
IPC Code(s): H05K7/20, H05K7/14
CPC Code(s): H05K7/20272
Abstract: a mounting assembly is provided for mounting a liquid cooling adaptor manifold to a server rack. the mounting assembly includes the liquid cooling adaptor, a mounting adaptor, and a mounting bracket. the liquid cooling adaptor provides a cooling liquid from a source via first connectors of a first type to a device via second connectors of a second type. the mounting adaptor is affixed to the liquid cooling adaptor manifold and to the mounting bracket. the mounting bracket is affixed to a side wall of a server rack.
- Dell Products L.P.
- G02B5/30
- G02F1/1335
- CPC G02B5/3025
- Dell products l.p.
- G06F1/3234
- G06F1/3212
- CPC G06F1/3234
- G06F3/06
- CPC G06F3/0634
- G06F9/4401
- CPC G06F9/4403
- CPC G06F9/4406
- G06F9/50
- H04L9/00
- H04L67/10
- CPC G06F9/5072
- CPC G06F9/5083
- G06F11/30
- G06F1/26
- G06F13/40
- CPC G06F11/3051
- G06F11/34
- G06F9/48
- CPC G06F11/34
- G06F11/36
- CPC G06F11/3608
- CPC G06F11/3636
- CPC G06F11/368
- CPC G06F11/3684
- CPC G06F11/3696
- G06F16/13
- G06F16/16
- G06F16/182
- CPC G06F16/137
- G06N20/00
- CPC G06F16/162
- G06F16/901
- G06F16/903
- G06F16/951
- CPC G06F16/9024
- G06F16/9032
- CPC G06F16/9032
- G06F21/44
- G06F9/455
- G06F21/60
- CPC G06F21/44
- G06F18/26
- G06N10/60
- CPC G06N10/60
- CPC G06N20/00
- H03M7/30
- G06Q30/0202
- G06Q30/0282
- CPC G06Q30/0202
- G06Q30/0242
- G06N20/20
- G06Q30/0251
- CPC G06Q30/0244
- G06F16/332
- CPC G06Q40/06
- H04L1/00
- H04W72/1273
- H04W72/23
- CPC H04L1/0013
- H04L9/08
- G10L19/02
- G10L19/16
- H04L9/30
- CPC H04L9/088
- G06F21/62
- CPC H04L9/30
- H04L9/40
- CPC H04L63/102
- CPC H04L63/1416
- G06N3/098
- CPC H04L63/1425
- CPC H04L63/20
- H05K5/02
- B01D46/00
- B01D46/44
- CPC H05K5/0213
- H05K7/14
- CPC H05K7/1492
- H05K7/20
- CPC H05K7/20272