Patents by Inventor Jonathan Buckley

Jonathan Buckley 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: 20250036501
    Abstract: A method includes determining a cluster reliability of a computing cluster including a maximum computing capacity and representative of a reliability of the computing cluster when utilizing an entirety of the maximum computing capacity. The operations include receiving a provisioning request of the computing cluster including a threshold reliability of the computing cluster. In response to the provisioning request, determining, using the cluster reliability, a reserved computing capacity of the computing cluster based on the threshold reliability. The reserved computing capacity is less than the maximum computing capacity. Based on the reserved computing capacity and the maximum computing capacity, the operations include determining an unreserved computing capacity of the computing cluster. The operations include provisioning the computing cluster for execution of a user workload. The user workload executes on the unreserved computing capacity.
    Type: Application
    Filed: October 11, 2024
    Publication date: January 30, 2025
    Applicant: Google LLC
    Inventors: Gobind Jit Singh Johar, Stephen James Muir, Philip William Stoneman, William Mark Pulford, Jonathan Buckley, Bodie William Francis, Andrew Oates
  • Patent number: 10494708
    Abstract: A method of carburizing a steel component having a composition of Fe-16.3Co-7.5Ni-3.5Cr-1.75Mo-0.2W-0.11C-0.03Ti-0.02V includes generating a low pressure vacuum in a carburization furnace having the steel component therein, heating the steel component to an optimal carburization temperature while in the low pressure vacuum, performing a boost cycle to introduce carbon rich gas into the carburization furnace while the steel component is at the optimal carburization temperature and in the low pressure vacuum, and performing a diffuse cycle by ceasing introduction of the carbon rich gas into the carburization furnace to allow for diffusion of the carbon into the steel component to occur and while the steel component is at the optimal carburization temperature and in the low pressure vacuum. The boost cycle and the diffuse cycle are repeated to achieve a carbon content at a surface of the steel component of between 0.40 wt. % and 0.55 wt. %.
    Type: Grant
    Filed: March 29, 2016
    Date of Patent: December 3, 2019
    Assignee: SIKORSKY AIRCRAFT CORPORATION
    Inventors: Jonathan Buckley, Bruce D. Hansen
  • Publication number: 20180119266
    Abstract: A method of carburizing a steel component having a composition of Fe-16.3Co-7.5Ni-3.5Cr-1.75Mo-0.2W-0.11C-0.03Ti-0.02V includes generating a low pressure vacuum in a carburization furnace having the steel component therein, heating the steel component to an optimal carburization temperature while in the low pressure vacuum, performing a boost cycle to introduce carbon rich gas into the carburization furnace while the steel component is at the optimal carburization temperature and in the low pressure vacuum, and performing a diffuse cycle by ceasing introduction of the carbon rich gas into the carburization furnace to allow for diffusion of the carbon into the steel component to occur and while the steel component is at the optimal carburization temperature and in the low pressure vacuum. The boost cycle and the diffuse cycle are repeated to achieve a carbon content at a surface of the steel component of between 0.40 wt. % and 0.55 wt. %.
    Type: Application
    Filed: March 29, 2016
    Publication date: May 3, 2018
    Applicant: Sikorsky Aircraft Corporation
    Inventors: Jonathan Buckley, Bruce D. Hansen
  • Publication number: 20050137919
    Abstract: An exemplary embodiment of the invention relates to a method, system, and storage medium for integrating returned products into a forward supply chain manufacturing process. The method comprises forecasting returns for at least one product by quantity for a given time period. The product includes a product identifier. Based upon the forecasting returns, determining raw component supply for at least one constituent component of the at least one product utilizing a Bill of Material for the product and the product identifier. The method also includes analyzing raw component supply data in conjunction with supply suitability analysis data. The raw component supply comprises a component identifier, a potential quantity, and a time period operable for identifying when a component is anticipated to be available for return. Other embodiments of the invention include a system, and a storage medium.
    Type: Application
    Filed: December 19, 2003
    Publication date: June 23, 2005
    Applicant: International Business Machine Corporation
    Inventors: Jonathan Buckley, Bruce Cody, Theodore Cook, Dennis Hanson, Mary Helander, William Holden, Kevin O'Connor, Joseph Stehle, Pitipong Veerakamolmal, Chau-Jye Yang