Patents by Inventor John A. Fay
John A. Fay 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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Publication number: 20240193182Abstract: Continuous data protection, including sending, to a target data repository from a source data repository, metadata describing one or more updates to one or more datasets stored within the source data repository; generating, based on the metadata describing the one or more updates to the one or more datasets, an ordered log of metadata describing an ordered application of the one or more updates to the one or more datasets; and generating, on the source data repository and based on the ordered log of metadata, the one or more datasets in accordance with the one or more updates corresponding to a specified point in time.Type: ApplicationFiled: October 20, 2023Publication date: June 13, 2024Inventors: DAVID GRUNWALD, THOMAS GILL, JOHN COLGROVE, RONALD KARR, MATTHEW FAY, LUKE PAULSEN, ZONG WANG
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Patent number: 12009418Abstract: A core-shell nanofin vertical switch performs high-voltage switching and includes: an n-type GaN nanofin core including: an n-type drift layer; an n-type channel; and an n-type source; a p-type nanofin shell surrounding the n-type GaN nanofin core at an interface surface of the n-type GaN nanofin core, and comprising GaN; an optional source contact disposed on the n-type GaN nanofin core and the p-type nanofin shell and in electrical communication with the n-type source, such that the n-type source is interposed between the source contact and the n-type channel; and a gate contact disposed on the p-type nanofin shell and in electrical communication with the p-type nanofin shell, such that the p-type nanofin shell is interposed between the gate contact and the n-type channel, and the gate contact is interposed between the source contact and a drain contact.Type: GrantFiled: August 24, 2022Date of Patent: June 11, 2024Assignee: GOVERNMENT OF THE UNITED STATES OF AMERICA, AS REPRESENTED BY THE SECRETARY OF COMMERCEInventors: Kristine Ann Bertness, Matthew David Brubaker, Patrick John Fay
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Patent number: 12008266Abstract: A method for efficient reads by reconstruction may determining an expected read latency for reading data from a primary read location of a plurality of storage devices, determining an expected reconstruction latency for reconstructing the data using reconstruction data, wherein portions of the reconstruction data are stored at a plurality of alternative read locations of the plurality of storage devices, reading the portions of the reconstruction data from the plurality of alternative read locations of the plurality of storage devices, and reconstructing the data stored at the primary read location using the reconstruction data, wherein the expected reconstruction latency is lower than the expected read latency.Type: GrantFiled: April 19, 2022Date of Patent: June 11, 2024Assignee: PURE STORAGE, INC.Inventors: Vincent Wang, Mark Fay, Jun He, Renjie Fan, John Colgrove
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Publication number: 20240152275Abstract: Determining effective space utilization in a storage system, including: identifying an amount of data stored within the storage system that is associated with a user-visible entity; identifying an amount of data stored within the storage system that is associated with all snapshots of the user-visible entity; and reporting, in dependence upon the an amount of data stored within the storage system that is associated with the user-visible entity and the amount of data stored within the storage system that is associated with all snapshots of the user-visible entity, a total capacity utilization associated with the user-visible entity.Type: ApplicationFiled: November 27, 2023Publication date: May 9, 2024Inventors: MATTHEW FAY, JOHN COLGROVE, MARTIN HARRIMAN
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Patent number: 11977083Abstract: Compositions and methods are provided for diagnosis and/or prognosis of cardiovascular diseases or events in a subject. In some embodiments, the method includes measuring and comparing the level of particular proteins to other proteins. In other embodiments, the method includes comparison with clinical variable information.Type: GrantFiled: October 27, 2020Date of Patent: May 7, 2024Assignee: PREVENCIO, INC.Inventors: Rhonda Fay Rhyne, Craig Agamemnon Magaret, John Edward Strobeck, James Louis Januzzi, Jr.
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Publication number: 20230060711Abstract: A core-shell nanofin vertical switch performs high-voltage switching and includes: an n-type GaN nanofin core including: an n-type drift layer; an n-type channel; and an n-type source; a p-type nanofin shell surrounding the n-type GaN nanofin core at an interface surface of the n-type GaN nanofin core, and comprising GaN; an optional source contact disposed on the n-type GaN nanofin core and the p-type nanofin shell and in electrical communication with the n-type source, such that the n-type source is interposed between the source contact and the n-type channel; and a gate contact disposed on the p-type nanofin shell and in electrical communication with the p-type nanofin shell, such that the p-type nanofin shell is interposed between the gate contact and the n-type channel, and the gate contact is interposed between the source contact and a drain contact.Type: ApplicationFiled: August 24, 2022Publication date: March 2, 2023Inventors: Kristine Ann Bertness, Matthew David Brubaker, Patrick John Fay
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Publication number: 20220128080Abstract: A blind fastener is disclosed having a head, a shaft with a tail, a tail of the blind fastener including the tail of the shaft and a sleeve surrounding the tail of the shaft, and a barrier secured to the tail of the blind fastener. The sleeve is configured to expand away from the tail of the shaft to form an expanded sleeve which is forced against a face of a workpiece to clamp the workpiece between the head and the expanded sleeve. The barrier is configured to be forced against the face of the workpiece to form a sealed cover around the tail of the blind fastener.Type: ApplicationFiled: August 26, 2021Publication date: April 28, 2022Inventors: Matthew CROSS, Andrew John FAY, Matthew WEBSTER
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Publication number: 20220128076Abstract: A blind fastener configured to be installed in a bore of a given length is disclosed and having a sleeve member configured to deform during installation of the blind fastener; a bolt member at least partially received within the sleeve member; and an insulating member fixedly disposed on the sleeve member. The sleeve member has a predefined outer surface region that is arranged to be disposed within the bore after installation of the blind fastener. The insulating member and the sleeve member are mutually configured such that the insulating member is present on a first sub-region of the predefined outer surface region and is not present on a second sub-region of the predefined outer surface region. Each of the first and second sub-regions comprises a complete circumference of the sleeve member.Type: ApplicationFiled: August 26, 2021Publication date: April 28, 2022Inventors: Matthew CROSS, Andrew John FAY, Matthew WEBSTER
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Publication number: 20220128079Abstract: A blind fastener is disclosed having a bolt part, a sleeve part, and a tubular insulating sheath. The bolt part is at least partially received within the sleeve part. A first end of the sheath is retained on the bolt part such that relative axial movement between the first end of the sheath and the bolt part is substantially prevented. The blind fastener is movable between: a pre-installation configuration in which the sleeve part has a first axial position relative to the bolt part and a predetermined section of the sheath is adjacent an outer surface of the sleeve part; and a post-installation configuration in which the sleeve part has a second, different axial position relative to the bolt part and the predetermined section of the sheath is adjacent an inner surface of the sleeve part.Type: ApplicationFiled: August 26, 2021Publication date: April 28, 2022Inventors: Matthew CROSS, Andrew John FAY, Matthew WEBSTER
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Patent number: 11169158Abstract: The present invention provides methods and systems for the rapid determination of the intact mass of non-covalently associated antibody heavy chains (HC) and light chains (LC) which result from the attachment of drug conjugates to interchain cysteine residues. By analyzing the antibody-drug conjugate (ADC) using native desalting conditions, the intact-bivalent structure of the ADC, which ordinarily would decompose as a consequence of denaturing chromatographic conditions typically used for LCMS, is maintained. The mass of the desalted ADC is subsequently determined using desolvation and ionization ESI-MS conditions. The methods described herein provide for direct measurement of the intact mass of an ADC conjugated at interchain cysteine residues. The methods described herein also provide for the relative quantitation of the individual ADC species.Type: GrantFiled: March 19, 2018Date of Patent: November 9, 2021Assignee: Seagen Inc.Inventors: John Fay Valliere-Douglass, Oscar Salas
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Patent number: 10649704Abstract: An apparatus and method for formatting a label are provided. An example method includes receiving data, a first portion of the data being encoded in a first encoding scheme; defining, via a processor, a first field block based on first text layout information received in association with a first field block command, the first field block for rendering text on a label; and formatting, via the processor, the first portion of the data within the first field block according to a first text display direction received in association with a first field parameter command.Type: GrantFiled: September 3, 2015Date of Patent: May 12, 2020Assignee: Zebra Technologies CorporationInventors: John Fay, Jessica Wettstein, Cabel Sholdt, Ferdinand C. Susi, III
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Publication number: 20200032505Abstract: A demountable structure system is disclosed. The demountable structure system may have a roof system positioned atop one or more structural panel(s) and a floor system positioned beneath one or more structural panels(s). The structural panels may have different shapes, configurations, and features, and may support the roof system in order to form a demountable structure. Alternatively, the roof system is omitted and a wall or other structure can be formed from the structural panels. Each structural panel may have other features, such as finish panels, fabric panels, accessory mounts, recessed lighting, electrical outlets, etc. Some structural panels have sound dampening features, such as to form portable musician's sound booth. Thus, a structure may be formed which is both readily disassembled, yet also sturdy.Type: ApplicationFiled: October 7, 2019Publication date: January 30, 2020Applicant: Lada Cube, LLCInventors: John Fay, Eric Pierson
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Patent number: 10465375Abstract: A demountable structure system is disclosed. The demountable structure system may have a roof system positioned atop one or more structural panel(s) and a floor system positioned beneath one or more structural panels(s). The structural panels may have different shapes, configurations, and features, and may support the roof system in order to form a demountable structure. Alternatively, the roof system is omitted and a wall or other structure can be formed from the structural panels. Each structural panel may have other features, such as finish panels, fabric panels, accessory mounts, recessed lighting, electrical outlets, etc. Some structural panels have sound dampening features, such as to form portable musician's sound booth. Thus, a structure may be formed which is both readily disassembled, yet also sturdy.Type: GrantFiled: May 16, 2018Date of Patent: November 5, 2019Assignee: LADA CUBE, LLCInventors: John Fay, Jeff Jacobson
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Publication number: 20180334798Abstract: A demountable structure system is disclosed. The demountable structure system may have a roof system positioned atop one or more structural panel(s) and a floor system positioned beneath one or more structural panels(s). The structural panels may have different shapes, configurations, and features, and may support the roof system in order to form a demountable structure. Alternatively, the roof system is omitted and a wall or other structure can be formed from the structural panels. Each structural panel may have other features, such as finish panels, fabric panels, accessory mounts, recessed lighting, electrical outlets, etc. Some structural panels have sound dampening features, such as to form portable musician's sound booth. Thus, a structure may be formed which is both readily disassembled, yet also sturdy.Type: ApplicationFiled: May 16, 2018Publication date: November 22, 2018Applicant: Lada Cube, LLCInventors: John Fay, Jeff Jacobson
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Publication number: 20180275137Abstract: The present invention provides methods and systems for the rapid determination of the intact mass of non-covalently associated antibody heavy chains (HC) and light chains (LC) which result from the attachment of drug conjugates to interchain cysteine residues. By analyzing the antibody-drug conjugate (ADC) using native desalting conditions, the intact-bivalent structure of the ADC, which ordinarily would decompose as a consequence of denaturing chromatographic conditions typically used for LCMS, is maintained. The mass of the desalted ADC is subsequently determined using desolvation and ionization ESI-MS conditions. The methods described herein provide for direct measurement of the intact mass of an ADC conjugated at interchain cysteine residues. The methods described herein also provide for the relative quantitation of the individual ADC species.Type: ApplicationFiled: March 19, 2018Publication date: September 27, 2018Inventors: John Fay VALLIERE-DOUGLASS, Oscar SALAS
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Patent number: 9958455Abstract: The present invention provides methods and systems for the rapid determination of the intact mass of non-covalently associated antibody heavy chains (HC) and light chains (LC) which result from the attachment of drug conjugates to interchain cysteine residues. By analyzing the antibody-drug conjugate (ADC) using native desalting conditions, the intact-bivalent structure of the ADC, which ordinarily would decompose as a consequence of denaturing chromatographic conditions typically used for LCMS, is maintained. The mass of the desalted ADC is subsequently determined using desolvation and ionization ESI-MS conditions. The methods described herein provide for direct measurement of the intact mass of an ADC conjugated at interchain cysteine residues. The methods described herein also provide for the relative quantitation of the individual ADC species.Type: GrantFiled: September 27, 2012Date of Patent: May 1, 2018Assignee: Seattle Genetics, Inc.Inventors: John Fay Valliere-Douglass, Oscar Salas
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Publication number: 20160222645Abstract: A demountable structure system is disclosed. The demountable structure system may have a roof system positioned atop one or more structural panel(s) and a floor system positioned beneath one or more structural panels(s). The structural panels may have different shapes, configurations, and features, and may support the roof system in order to form a demountable structure. Alternatively, the roof system is omitted and a wall or other structure can be formed from the structural panels. Each structural panel may have other features, such as finish panels, fabric panels, accessory mounts, recessed lighting, electrical outlets, etc. Some structural panels have sound dampening features, such as to form portable musician's sound booth. Thus, a structure may be formed which is both readily disassembled, yet also sturdy.Type: ApplicationFiled: February 3, 2016Publication date: August 4, 2016Applicant: Lada Cube, LLCInventor: John Fay
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Publication number: 20160070516Abstract: A system and method for parsing data formatted in a plurality of encoding schemes at a printer is provided. The method comprises receiving serialization data from at least one host computer at a printer where at least a portion of the serialization data is encoded in at least one encoding scheme. The method also includes converting the data into a first encoding scheme. The method also includes parsing the converted data into an array of combining semantic clusters based on a plurality of rules, each combining semantic cluster comprising a plurality of code points. The method also includes generating a plurality of labels for printing based on the array of combining semantic clusters where each of the plurality of labels are printed such that one or more elements within the array are at least one of incremented or decremented.Type: ApplicationFiled: September 3, 2015Publication date: March 10, 2016Inventors: John Fay, Jessica Wettstein, Cabel Sholdt, Ferdinand C. Susi, III
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Patent number: 9152892Abstract: A system and method for parsing data formatted in a plurality of encoding schemes at a printer is provided. The method comprises receiving serialization data from at least one host computer at a printer where at least a portion of the serialization data is encoded in at least one encoding scheme. The method also includes converting the data into a first encoding scheme. The method also includes parsing the converted data into an array of combining semantic clusters based on a plurality of rules, each combining semantic cluster comprising a plurality of code points. The method also includes generating a plurality of labels for printing based on the array of combining semantic clusters where each of the plurality of labels are printed such that one or more elements within the array are at least one of incremented or decremented.Type: GrantFiled: August 26, 2013Date of Patent: October 6, 2015Assignee: ZIH Corp.Inventors: John Fay, Jessica Wettstein, Cabel Sholdt, Fred Susi
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Publication number: 20140242624Abstract: The present invention provides methods and systems for the rapid determination of the intact mass of non-covalently associated antibody heavy chains (HC) and light chains (LC) which result from the attachment of drug conjugates to interchain cysteine residues. By analyzing the antibody-drug conjugate (ADC) using native desalting conditions, the intact-bivalent structure of the ADC, which ordinarily would decompose as a consequence of denaturing chromatographic conditions typically used for LCMS, is maintained. The mass of the desalted ADC is subsequently determined using desolvation and ionization ESI-MS conditions. The methods described herein provide for direct measurement of the intact mass of an ADC conjugated at interchain cysteine residues. The methods described herein also provide for the relative quantitation of the individual ADC species.Type: ApplicationFiled: September 27, 2012Publication date: August 28, 2014Applicant: Seattle Genetics, Inc.Inventors: John Fay Valliere-Douglass, Oscar Salas