Patents by Inventor Sameer Deshpande
Sameer Deshpande has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11163797Abstract: Disclosed herein are systems and methods for database replication to a remote deployment with automated fulfillment. In an embodiment, a data platform provisions a remote-deployment account of a data provider at a remote deployment of the data platform with a set of one or more replication-preparation objects associated with a primary-deployment database that is resident in a primary-deployment account of the data provider at a primary deployment of the data platform. After the provisioning, the data platform detects receipt of a database-replication request associated with a data consumer, requesting availability of a local instance of the primary-deployment database in the remote-deployment account of the data provider. The data platform responsively performs one or more remote-deployment-activation operations, which makes available to the data consumer a local instance of the primary-deployment database in the remote-deployment account of the data provider at the remote deployment of the data platform.Type: GrantFiled: April 30, 2021Date of Patent: November 2, 2021Assignee: Snowflake Inc.Inventors: Pui Kei Johnston Chu, Benoit Dageville, Shreyas Narendra Desai, Sameer Deshpande, Subramanian Muralidhar, Di Wu
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Publication number: 20190283208Abstract: An apparatus for chemical mechanical polishing includes a platen having a surface to support a polishing pad, a carrier head to hold a substrate against a polishing surface of the polishing pad, a pad conditioner to hold a conditioning disk against the polishing surface, an in-situ polishing pad thickness monitoring system, and a controller. The controller is configured to store data associating each of a plurality of conditioner disk products with a respective threshold value, receive an input selecting a conditioner disk product from the plurality of conditioner disk products, determine a particular threshold value associated with the selected conditioner disk product, receive a signal from the monitoring system, generate a measure of a pad cut rate from the signal, and generate an alert if the pad cut rate falls beyond the particular threshold value.Type: ApplicationFiled: March 6, 2019Publication date: September 19, 2019Inventors: Sivakumar Dhandapani, Sameer Deshpande, Jason Garcheung Fung
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Patent number: 10282494Abstract: Embodiments for modeling and simulation of one or more architecture models for Big Data of an organization are described. In one example, at least one user requirement and set of model requirements are received from a user associated with the organization, where the set of model requirements is indicative of information relating to the one or more architecture models. Subsequently, one or more architecture models are generated for providing recommendation to the user, where the one or more architecture models are generated based on the at least one user requirement and the set of model requirements. Further, the one or more architecture models are simulated to ascertain performance of each of the one or more architecture models based at least on a pre-defined specification of architecture components associated with each of the one or more architecture models.Type: GrantFiled: May 13, 2015Date of Patent: May 7, 2019Assignee: TATA CONSULTANCY SERVICES LIMITEDInventors: Nandkishor Janardan Mardikar, Sameer Deshpande, Kanaga Ganesan
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Patent number: 9977908Abstract: This disclosure relates generally to information security, and more particularly to implementation and management of information security of a Big Data environment of an organization. In one embodiment, security related inputs are received from a user and are converted into security requirement. Thereafter, a security policy template is identified from plurality of pre-defined security policy templates based on security reference architecture and the security requirement. The security policy template represents a plurality of security controls. Thereafter, one or more security controls are selected from the security controls based on the security requirement. Further, one or more existing security controls implemented in Big Data environment are identified. Thereafter, the selected security controls are compared with the existing security controls for determining a security control that is not implemented in the Big Data environment.Type: GrantFiled: January 29, 2016Date of Patent: May 22, 2018Assignee: Tata Consultancy Services LimitedInventors: Nandkishor Janardan Mardikar, Sameer Deshpande, Shivaranjani C. Sulikeri, Sanjay Gupta
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Patent number: 9928148Abstract: A technique efficiently configures a peered cluster storage environment. The configuration technique illustratively includes three phases: a discovery phase, a node setup phase and a cluster setup phase. The discovery phase may be employed to initiate discovery of nodes of a disaster recovery (DR) group through transmission of multicast advertisement packets by the nodes over interconnects, including a Fiber Channel (FC) fabric, to each other node of the group. In the node setup phase, each node of a cluster assigns its relationships to the nodes discovered and present in the FC fabric; illustratively, the assigned relationships include high availability (HA) partner, DR primary partner and DR auxiliary partner. In the cluster setup phase, the discovered nodes of the FC fabric are organized as the peered cluster storage environment (DR group) configured to service data in a highly reliable and available manner.Type: GrantFiled: October 28, 2014Date of Patent: March 27, 2018Assignee: NetApp, Inc.Inventors: Harihara Kadayam, Hrishikesh Keremane, Vaiapuri Ramasubramaniam, Rishabh Mittal, Chaitanya Patel, Santhosh Unnikrishnan, Sameer Deshpande
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Publication number: 20160259946Abstract: This disclosure relates generally to information security, and more particularly to implementation and management of information security of a Big Data environment of an organization. In one embodiment, security related inputs are received from a user and are converted into security requirement. Thereafter, a security policy template is identified from plurality of pre-defined security policy templates based on security reference architecture and the security requirement. The security policy template represents a plurality of security controls. Thereafter, one or more security controls are selected from the security controls based on the security requirement. Further, one or more existing security controls implemented in Big Data environment are identified. Thereafter, the selected security controls are compared with the existing security controls for determining a security control that is not implemented in the Big Data environment.Type: ApplicationFiled: January 29, 2016Publication date: September 8, 2016Applicant: Tata Consultancy Services LimitedInventors: Nandkishor Janardan MARDIKAR, Sameer Deshpande, Shivaranjani C. Sulikeri, Sanjay Gupta
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Publication number: 20160162611Abstract: Embodiments for modeling and simulation of one or more architecture models for Big Data of an organization are described. In one example, at least one user requirement and set of model requirements are received from a user associated with the organization, where the set of model requirements is indicative of information relating to the one or more architecture models. Subsequently, one or more architecture models are generated for providing recommendation to the user, where the one or more architecture models are generated based on the at least one user requirement and the set of model requirements. Further, the one or more architecture models are simulated to ascertain performance of each of the one or more architecture models based at least on a pre-defined specification of architecture components associated with each of the one or more architecture models.Type: ApplicationFiled: May 13, 2015Publication date: June 9, 2016Inventors: Nandkishor Janardan Mardikar, Sameer Deshpande, Kanaga Ganesan
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Publication number: 20160057009Abstract: A technique efficiently configures a peered cluster storage environment. The configuration technique illustratively includes three phases: a discovery phase, a node setup phase and a cluster setup phase. The discovery phase may be employed to initiate discovery of nodes of a disaster recovery (DR) group through transmission of multicast advertisement packets by the nodes over interconnects, including a Fibre Channel (FC) fabric, to each other node of the group. In the node setup phase, each node of a cluster assigns its relationships to the nodes discovered and present in the FC fabric; illustratively, the assigned relationships include high availability (HA) partner, DR primary partner and DR auxiliary partner. In the cluster setup phase, the discovered nodes of the FC fabric are organized as the peered cluster storage environment (DR group) configured to service data in a highly reliable and available manner.Type: ApplicationFiled: October 28, 2014Publication date: February 25, 2016Inventors: Harihara Kadayam, Hrishikesh Keremane, Vaiapuri Ramasubramaniam, Rishabh Mittal, Chaitanya Patel, Santhosh Unnikrishnan, Sameer Deshpande
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Patent number: 9182473Abstract: A system, method and product for determining a vehicle key fob location. The system may include a control unit for mounting in a vehicle and configured to receive multiple signals, each representing a strength of a wireless signal transmitted between the fob and one of multiple antennas located on a vehicle, and multiple neural networks having a cascade topology. The neural networks may include a first neural network for determining one of a vehicle internal position and a vehicle external position of the fob based on the wireless signal strengths, a second neural network in communication with the first neural network for determining one of multiple vehicle interior positions of the fob based on the wireless signal strengths, and a third neural network in communication with the first neural network for determining one of multiple vehicle exterior positions of the fob based on the wireless signal strengths.Type: GrantFiled: May 7, 2013Date of Patent: November 10, 2015Assignee: Lear CorporationInventors: Jordi Virgili Margalef, Daniel Cirujano Cuesta, Gema Barreda Martinez, Sameer Deshpande, Petru Macovei
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Patent number: 9067295Abstract: A chemical mechanical polishing apparatus includes a carrier head including a retaining ring having a plastic portion with a bottom surface to contact a polishing pad, an in-situ monitoring system including a sensor that generates a signal that depends on a thickness of the plastic portion, and a controller configured to receive the signal from the in-situ monitoring system and to adjust at least one polishing parameter in response to the signal to compensate for non-uniformity caused by changes in the thickness of the plastic portion of the retaining ring.Type: GrantFiled: March 8, 2013Date of Patent: June 30, 2015Assignee: Applied Materials, Inc.Inventors: Sameer Deshpande, Zhihong Wang, Samuel Chu-Chiang Hsu, Gautam Shashank Dandavate, Hung Chih Chen, Wen-Chiang Tu
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Patent number: 8744482Abstract: In at least one embodiment, an apparatus for determining a locating a wireless device with respect to a vehicle is provided. The apparatus comprises a controller for being operably coupled to a plurality of antennas in a vehicle and each antenna transmitting a first wireless signal to a wireless device to locate a primary antenna. The primary antenna being one of the plurality of antennas that transmitted the first wireless signal at a strongest signal strength. The controller being configured to store a first signal strength for a first control point that is positioned about the vehicle and away from the primary antenna. The controller being configured to determine the location of the wireless device based on a comparison of the first signal strength to the strongest signal strength.Type: GrantFiled: January 3, 2012Date of Patent: June 3, 2014Assignee: Lear CorporationInventors: Jordi Virgili Margalef, Sameer Deshpande, Daniel Cirujano Cuesta
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Publication number: 20140027407Abstract: A chemical mechanical polishing apparatus includes a carrier head including a retaining ring having a plastic portion with a bottom surface to contact a polishing pad, an in-situ monitoring system including a sensor that generates a signal that depends on a thickness of the plastic portion, and a controller configured to receive the signal from the in-situ monitoring system and to adjust at least one polishing parameter in response to the signal to compensate for non-uniformity caused by changes in the thickness of the plastic portion of the retaining ring.Type: ApplicationFiled: March 8, 2013Publication date: January 30, 2014Inventors: Sameer Deshpande, Zhihong Wang, Samuel Chu-Chiang Hsu, Gautam Shashank Dandavate, Hung Chih Chen, Wen-Chiang Tu
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Publication number: 20130300608Abstract: A system, method and product for determining a vehicle key fob location. The system may include a control unit for mounting in a vehicle and configured to receive multiple signals, each representing a strength of a wireless signal transmitted between the fob and one of multiple antennas located on a vehicle, and multiple neural networks having a cascade topology. The neural networks may include a first neural network for determining one of a vehicle internal position and a vehicle external position of the fob based on the wireless signal strengths, a second neural network in communication with the first neural network for determining one of multiple vehicle interior positions of the fob based on the wireless signal strengths, and a third neural network in communication with the first neural network for determining one of multiple vehicle exterior positions of the fob based on the wireless signal strengths.Type: ApplicationFiled: May 7, 2013Publication date: November 14, 2013Applicant: Lear CorporationInventors: Jordi Virgili Margalef, Daniel Cirujano Cuesta, Gema Barreda Martinez, Sameer Deshpande, Petru Macovei
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Patent number: 8337279Abstract: A method and apparatus for conditioning a polishing pad is provided. The conditioning element is held by a conditioning arm rotatably mounted to a base at a pivot point. An actuator pivots the arm about the pivot point. The conditioning element is urged against the surface of the polishing pad, and translated with respect to the polishing pad to remove material from the polishing pad and roughen its surface. The interaction of the abrasive conditioning surface with the polishing pad surface generates a frictional force. The frictional force may be monitored by monitoring the torque applied to the pivot point, and material removal controlled thereby. The conditioning time, down force, translation rate, or rotation of the conditioning pad may be adjusted based on the measured torque.Type: GrantFiled: June 22, 2009Date of Patent: December 25, 2012Assignee: Applied Materials, Inc.Inventors: Sivakumar Dhandapani, Stan D. Tsai, Daxin Mao, Sameer Deshpande, Shou-Sung Chang, Gregory E. Menk, Charles C. Garretson, Jason Garcheung Fung, Christopher D. Cocca, Hung Chih Chen
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Publication number: 20120270477Abstract: A conditioning process includes rotating a polishing pad about an axis of rotation, conditioning the polishing pad by sweeping an abrasive disk in a path across a surface of the polishing pad between an inner radial distance from the axis of rotation and an outer radial distance from the axis of rotation, sweeping a sensor across the polishing pad while conditioning the polishing pad, measuring a thickness of the polishing pad at a plurality of positions between the inner radial distance and the outer radial distance with the sensor, and adjusting at least one of a dwell time or a pressure of the abrasive disk against the polishing pad for a portion of the path based on measurements of the thickness by the sensor such that the polishing pad wears to a more uniform thickness than without such adjustment.Type: ApplicationFiled: April 22, 2011Publication date: October 25, 2012Inventors: Roy C. Nangoy, Hung Chih Chen, Shou-Sung Chang, Erik S. Rondum, Sameer Deshpande
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Publication number: 20120244877Abstract: In at least one embodiment, an apparatus for determining a locating a wireless device with respect to a vehicle is provided. The apparatus comprises a controller for being operably coupled to a plurality of antennas in a vehicle and each antenna transmitting a first wireless signal to a wireless device to locate a primary antenna. The primary antenna being one of the plurality of antennas that transmitted the first wireless signal at a strongest signal strength. The controller being configured to store a first signal strength for a first control point that is positioned about the vehicle and away from the primary antenna. The controller being configured to determine the location of the wireless device based on a comparison of the first signal strength to the strongest signal strength.Type: ApplicationFiled: January 3, 2012Publication date: September 27, 2012Applicant: LEAR CORPORATIONInventors: Jordi Virgili Margalef, Sameer Deshpande, Daniel Cirujano Cuesta
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Patent number: 8252259Abstract: Nano-sized rare earth metal oxide particles are prepared from aqueous reverse micelles. The engineered nanoparticles have large surface area to volume ratios, and uniformly incorporate a surfactant in each particle, so that when applied to the inner surface of a pipeline or sprayed onto a fluid stream in a pipeline, the particles reduce the roughness of the inside surface of pipe being used to transport fluid. The application of a nanolayer of this novel nanoceria mixture causes a significant reduction in pressure drops, friction, and better recovery and yield of fluid flowing through a pipeline.Type: GrantFiled: October 31, 2008Date of Patent: August 28, 2012Assignees: University of Central Florida Research Foundation, Inc., CC Technologies Laboratories, Inc.Inventors: Sudipta Seal, William P. Jepson, Sameer Deshpande, Suresh C. Kuiry, Swanand D. Patil
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Patent number: 8096852Abstract: Polishing pads used in CMP machines are consumable components that are typically replaced after a specific number of wafers have been processed. The life of a polishing pad is optimized by controlling the rate of material removal from the polishing pad by the conditioning disk. The conditioning disk removes enough material so the polishing surface can properly process the wafers but does not remove any excess material. Preventing excess material removal extends the life of the polishing pad. During CMP processing, the controller receives data concerning the torque applied to the conditioning disk and the torque applied to the arm to sweep the conditioning disk across the polishing pad. Based upon the detected operating conditions, the system can predict the rate of material removal and adjust the forces applied to the conditioning disk so that the life of the polishing pad is optimized.Type: GrantFiled: August 7, 2008Date of Patent: January 17, 2012Assignee: Applied Materials, Inc.Inventors: Sameer Deshpande, Shou-Sung Chang, Hung Chih Chen, Roy C Nangoy, Stan D Tsai
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Patent number: 8066834Abstract: Adding nanoparticles as a catalyst to solid propellant fuel to increase and enhance burn rates of the fuel by up to 10 times or more and/or modifying the pressure index. A preferred embodiment uses TiO2 nanoparticles mixed with a solid propellant fuel, where the nanoparticles are approximately 2% or less of total propellant mixture. The high surface to volume ratio of the nanoparticles improve the performance of the solid propellant fuel.Type: GrantFiled: August 3, 2006Date of Patent: November 29, 2011Assignee: University of Central Florida Research Foundation, Inc.Inventors: Eric Petersen, Jennifer Small, Metthew Stephens, Jason Arvanetes, Sudipta Seal, Sameer Deshpande
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Patent number: 7959690Abstract: Novel nano-sized rare earth metal oxide prepared from aqueous reverse micelles is provided. The engineered nanoparticles have large surface area to volume ratios, and sufficient oxygen vacancies on the surface of each particle, so that when mixed with carbon-containing combustible fuels, the particles remain suspended indefinitely; there is a significant reduction in soot and other by-products of combustion, an increase in engine efficiency and less fuel consumed per mile traveled in various vehicles, such as, but not limited to, automobiles, defense vehicles, airplanes, ships and other surface or air-bearing vehicles.Type: GrantFiled: April 20, 2007Date of Patent: June 14, 2011Assignee: University of Central Florida Research Foundation, Inc.Inventors: Sudipta Seal, Eric L. Petersen, Sameer Deshpande, Swanand Patil, Suresh Chandra Kuiry