Patents by Inventor Christopher Parker

Christopher Parker 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).

  • Publication number: 20250276069
    Abstract: Compositions and methods for control and/or modification of endogenous protein degradation are described. The compositions are directed to heterobifunctional molecules having protein and enzyme system binding moieties linked together by an organic linker group. The compositions are selective for binding to certain endogenous proteins and function to recruit endogenous decomposition systems such as the polyubiquitin system for peptide cleavage and reassimilation.
    Type: Application
    Filed: March 4, 2022
    Publication date: September 4, 2025
    Inventors: Christopher Parker, Louis Patrick Conway, Ines Forrest, Christian Chaheine
  • Patent number: 12176408
    Abstract: A transistor includes a first channel layer over a second channel layer, an epitaxial source structure coupled to a first end of the first and second channel layers and an epitaxial drain structure coupled to a second end of the first and second channel layers. The transistor includes a gate between the epitaxial source structure and the epitaxial drain structure, where the gate is above the first channel layer and between the first channel layer and the second channel layer. The transistor includes a first spacer of a first material, between the first and second channel layers includes. The first spacer has at least one convex sidewall that is between the gate and the epitaxial source structure and between the gate and the epitaxial drain structure. The transistor also includes a second spacer of a second material having substantially vertical sidewalls above the first channel layer.
    Type: Grant
    Filed: December 22, 2020
    Date of Patent: December 24, 2024
    Assignee: Intel Corporation
    Inventors: Sudipto Naskar, Willy Rachmady, Hsin-Fen Li, Christopher Parker, Prashant Wadhwa, Tahir Ghani, Mohammad Hasan, Jianqiang Lin
  • Patent number: 12087614
    Abstract: Transistors structures comprising a semiconductor features and dielectric material comprising silicon and oxygen in gaps or spaces between the features. The dielectric material may fill the gaps from bottom-up with an atomic layer deposition (ALD) process that includes a silicon deposition phase, and an oxidation phase augmented by N2:NH3 plasma activated nitrogen species. Being plasma activated, the nitrogen species have short mean free paths, and therefore preferentially passivate surfaces with low aspect ratios. This aspect-ratio dependent passivation may increase an energy barrier to surface reactions with a silicon precursor, resulting in a concomitant differential in deposition rate. With N2:NH3 plasma passivation, deposited dielectric material may have a nitrogen concentration that varies by at least order of magnitude as a function of the aspect ratio of the filled gaps.
    Type: Grant
    Filed: December 18, 2020
    Date of Patent: September 10, 2024
    Assignee: Intel Corporation
    Inventors: Michael Makowski, Sudipto Naskar, Ryan Pearce, Nita Chandrasekhar, Minyoung Lee, Christopher Parker
  • Publication number: 20240238426
    Abstract: Compositions and methods for control and/or modification of endogenous protein acetylation are described. The compositions are directed to heterobifunctional molecules having protein and enzyme binding moieties linked together by an organic linker group. The compositions are selective for binding to certain endogenous proteins and function to recruit acety lation enzymes to acetylate or deacety late the proteins.
    Type: Application
    Filed: March 4, 2022
    Publication date: July 18, 2024
    Inventors: Christopher Parker, Wei Wang, Li Yun Chen
  • Publication number: 20240078157
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Application
    Filed: October 31, 2023
    Publication date: March 7, 2024
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter John Lindquist, Christopher Parker
  • Patent number: 11858917
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Grant
    Filed: September 9, 2021
    Date of Patent: January 2, 2024
    Assignee: YALE UNIVERSITY
    Inventors: David Spiegel, Christopher Parker
  • Patent number: 11829252
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Grant
    Filed: October 12, 2022
    Date of Patent: November 28, 2023
    Assignee: CrashPlan Group LLC
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter John Lindquist, Christopher Parker
  • Publication number: 20230057277
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Application
    Filed: October 12, 2022
    Publication date: February 23, 2023
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter John Lindquist, Christopher Parker
  • Patent number: 11513903
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Grant
    Filed: August 14, 2019
    Date of Patent: November 29, 2022
    Assignee: CrashPlan Group LLC
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter John Lindquist, Christopher Parker
  • Publication number: 20220199797
    Abstract: A transistor includes a first channel layer over a second channel layer, an epitaxial source structure coupled to a first end of the first and second channel layers and an epitaxial drain structure coupled to a second end of the first and second channel layers. The transistor includes a gate between the epitaxial source structure and the epitaxial drain structure, where the gate is above the first channel layer and between the first channel layer and the second channel layer. The transistor includes a first spacer of a first material, between the first and second channel layers includes. The first spacer has at least one convex sidewall that is between the gate and the epitaxial source structure and between the gate and the epitaxial drain structure. The transistor also includes a second spacer of a second material having substantially vertical sidewalls above the first channel layer.
    Type: Application
    Filed: December 22, 2020
    Publication date: June 23, 2022
    Applicant: Intel Corporation
    Inventors: Sudipto Naskar, Willy Rachmady, Hsin-Fen Li, Christopher Parker, Prashant Wadhwa, Tahir Ghani, Mohammad Hasan, Jianqiang Lin
  • Publication number: 20220199458
    Abstract: Transistors structures comprising a semiconductor features and dielectric material comprising silicon and oxygen in gaps or spaces between the features. The dielectric material may fill the gaps from bottom-up with an atomic layer deposition (ALD) process that includes a silicon deposition phase, and an oxidation phase augmented by N2:NH3 plasma activated nitrogen species. Being plasma activated, the nitrogen species have short mean free paths, and therefore preferentially passivate surfaces with low aspect ratios. This aspect-ratio dependent passivation may increase an energy barrier to surface reactions with a silicon precursor, resulting in a concomitant differential in deposition rate. With N2:NH3 plasma passivation, deposited dielectric material may have a nitrogen concentration that varies by at least order of magnitude as a function of the aspect ratio of the filled gaps.
    Type: Application
    Filed: December 18, 2020
    Publication date: June 23, 2022
    Applicant: Intel Corporation
    Inventors: Michael Makowski, Sudipto Naskar, Ryan Pearce, Nita Chandrasekhar, Minyoung Lee, Christopher Parker
  • Publication number: 20220089579
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Application
    Filed: September 9, 2021
    Publication date: March 24, 2022
    Inventors: David Spiegel, Christopher Parker
  • Patent number: 11136316
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Grant
    Filed: June 5, 2020
    Date of Patent: October 5, 2021
    Assignee: YALE UNIVERSITY
    Inventors: David Spiegel, Christopher Parker
  • Publication number: 20200392121
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Application
    Filed: June 5, 2020
    Publication date: December 17, 2020
    Inventors: David Spiegel, Christopher Parker
  • Patent number: 10703743
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Grant
    Filed: July 17, 2018
    Date of Patent: July 7, 2020
    Assignee: YALE UNIVERSITY
    Inventors: David Spiegel, Christopher Parker
  • Publication number: 20200081798
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Application
    Filed: August 14, 2019
    Publication date: March 12, 2020
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter John Lindquist, Christopher Parker
  • Patent number: 10423496
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes. In some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Grant
    Filed: February 1, 2018
    Date of Patent: September 24, 2019
    Assignee: Code 42 Software, Inc.
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter Lindquist, Christopher Parker
  • Patent number: 10188727
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-H's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-H's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Grant
    Filed: October 15, 2015
    Date of Patent: January 29, 2019
    Assignee: YALE UNIVERSITY
    Inventors: David Spiegel, Christopher Parker
  • Publication number: 20190002447
    Abstract: The present invention is directed to new bifunctional compounds and methods for treating HIV infections. The bifunctional small molecules, generally referred to as ARM-HI's, function through orthogonal pathways, by inhibiting the gp120-CD4 interaction, and by recruiting anti-DNP antibodies to gp120-expressing cells, thereby preventing cell infection and spread of HIV. It has been shown that ARM-HI's bind to gp120 and gp-120 expressing cells competitively with CD4, thereby decreasing viral infectivity as shown by an MT-2 cell assay, the binding leading to formation of a ternary complex by recruiting anti-DNP antibodies to bind thereto, the antibodies present in the ternary complex promoting the complement-dependent destruction of the gp120-expressing cells. Compounds and methods are described herein.
    Type: Application
    Filed: July 17, 2018
    Publication date: January 3, 2019
    Inventors: David Spiegel, Christopher Parker
  • Publication number: 20180260283
    Abstract: In connection with a data distribution architecture, client-side “deduplication” techniques may be utilized for data transfers occurring among various file system nodes, in some examples, these deduplication techniques involve fingerprinting file system elements that are being shared and transferred, and dividing each file into separate units referred to as “blocks” or “chunks.” These separate units may be used for independently rebuilding a file from local and remote collections, storage locations, or sources. The deduplication techniques may be applied to data transfers to prevent unnecessary data transfers, and to reduce the amount of bandwidth, processing power, and memory used to synchronize and transfer data among the file system nodes. The described deduplication concepts may also be applied for purposes of efficient file replication, data transfers, and file system events occurring within and among networks and file system nodes.
    Type: Application
    Filed: February 1, 2018
    Publication date: September 13, 2018
    Inventors: Matthew Dornquast, Brian Bispala, Damon Allison, Brad Armstrong, Marshall Scorcio, Rory Lonergan, Peter Lindquist, Christopher Parker