Patents by Inventor Gregory Holst

Gregory Holst 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).

  • Patent number: 12070744
    Abstract: Valve assemblies and related systems are disclosed. An apparatus includes or comprises a system including or comprising an imaging system, a flow cell interface having a corresponding flow cell receptacle, a stage assembly, and a valve assembly including or comprising a valve and a valve drive assembly. The stage assembly moves the flow cell interface relative to the imaging system and the valve drive assembly is to drive the valve using shaped input signals to reduce vibration imposed on at least one of the stage assembly or another component of the apparatus based on movement of the valve.
    Type: Grant
    Filed: November 15, 2021
    Date of Patent: August 27, 2024
    Assignee: ILLUMINA, INC.
    Inventors: Ahmadreza Rashedi, Gregory Holst, Rajagopal Panchapakesan
  • Publication number: 20240257320
    Abstract: Systems, methods, and apparatuses are described herein. For instance, a detection apparatus may comprise memory and at least one processor. The detection apparatus may be configured to obtain an image comprising at least one feature and a plurality of fiducials. The plurality of fiducials may be arranged in a pattern. The detection apparatus may be configured to determine a plurality of sub-regions of the image. Each sub-region comprises a subset of the fiducials comprised in the image. The detection apparatus may be configured to perform a geometric transform on each sub-region to generate a respective local transform associated with each sub-region. The detection apparatus may be configured to register respective locations of the fiducials comprised in the image based on the respective local transform associated with each sub-region. A size of each sub-region may be selected such that each sub-region is substantially invariant to stage jitter.
    Type: Application
    Filed: January 5, 2024
    Publication date: August 1, 2024
    Applicant: Illumina, Inc.
    Inventors: Robert Ezra Langlois, Hongji Ren, Mohamed Khaled Mohamed Geunady, John S. Vieceli, Gregory Holst, Paul Sangiorgio
  • Publication number: 20240198310
    Abstract: Library preparation systems and methods are disclosed. In an implementation, a modular bay for preparing a library of samples for sequencing, the modular bay comprising a contact dispenser and a working area comprising a working plate receptacle adapted to receive a working plate, a thermocycler, a magnet, and a drawer. The drawer comprising a consumables area adapted to receive a sample plate adapted to contain a sample, and a plurality of consumables for interacting with the sample in the working plate. The contact dispenser is linearly movable in a longitudinal direction between the consumables area and the working area, such that the contact dispenser is configured to (i) move the sample from the sample plate in the consumables area to the working plate in the working area, and (ii) move the plurality of consumables between the consumables area and the working plate in the working area.
    Type: Application
    Filed: December 14, 2023
    Publication date: June 20, 2024
    Inventors: Emily Parker, Bryan Crane, Peter Thomas, Megan Blanchard, James Osmus, Bradley Drews, Richard Lemoine, Gregory Holst
  • Publication number: 20240118203
    Abstract: The motion of a mechanical stage may be directed in x-, y-, and/or z-dimensions such that excitation of a resonant frequency f is reduced. In particular, once a resonant frequency f is identified, the acceleration of the stage in the x-, y-, and/or z-dimensions may divided into an even number of acceleration segments or intervals, with the second of each pair of acceleration segments starting 1/(2f) seconds after the start of the initial acceleration segment. The acceleration intervals may be defined by a start time, an amplitude profile, and/or a time duration. In some implementations, the amplitude and time duration of each acceleration pulse may be different. The amplitude and time duration of acceleration steps may be determined and adjusted to compensate for the particular resonance frequency of an individual system, and programmed into a controller for the stage using motor programming controls.
    Type: Application
    Filed: September 27, 2023
    Publication date: April 11, 2024
    Applicant: Illumina, Inc.
    Inventors: Shavinesh Sukesh, Chia-Hsi Liu, Gregory Holst, Ahmed Okasha, Kurt Danielson, John Earney
  • Publication number: 20240109063
    Abstract: An apparatus includes a flow cell, an imaging assembly, and a processor. The flow cell includes a channel and a plurality of reaction sites. The imaging assembly is operable to receive light emitted from the reaction sites in response to an excitation light. The processor is configured to drive relative movement between at least a portion of the imaging assembly and the flow cell along a continuous range of motion to thereby enable the imaging assembly to capture images along the length of the channel. The processor is also configured to activate the imaging assembly to capture one or more calibration images of one or more calibration regions of the channel, during a first portion of the continuous range of motion. The processor is also configured to activate the imaging assembly to capture images of the reaction sites during a second portion of the continuous range of motion.
    Type: Application
    Filed: September 28, 2023
    Publication date: April 4, 2024
    Inventors: Dustin BLAIR, Patrick WEN, John EARNEY, Anmiv PRABHU, Rachel ABASKHARON, Gregory HOLST, Chia-Hsi LIU, Ravi THAKUR, Dakota WATSON, Kevin BARTIG, Daeyong SIM
  • Publication number: 20240114243
    Abstract: Some implementations of the disclosure relate to an imaging system including one or more image sensors and a Z-stage. The imaging system is configured to perform operations including: capturing, using the one or more image sensors, a first image of a first pair of spots projected at a first sample location of a sample; determining whether or not the first image of the first pair of spots is valid; and when the first image is determined to be valid: obtaining, based on the first image, a current separation distance measurement of the first pair of spots; and controlling, based at least on the current separation distance measurement, the Z-stage to focus the imaging system at the first sample location.
    Type: Application
    Filed: September 25, 2023
    Publication date: April 4, 2024
    Inventors: Yu Chen, Gregory Holst, John Earney, Patrick Wen, Chia-Hsi Liu, Daeyong Sim
  • Publication number: 20240100518
    Abstract: The presently described techniques relate generally to providing motion feedback (e.g., motion system calibration and/or sample alignment) in the context of an imaging system (such as a time delay and integration (TDI) based imaging system). The architecture and techniques discussed may achieve nanoscale control and calibration of a movement feedback system without a high-resolution encoder subsystem or, in the alternative embodiments, with a lower resolution (and correspondingly less expensive) encoder subsystem than might otherwise be employed. By way of example, certain embodiments described herein relate to ascertaining or calibrating linear motion of a sample holder surface using nanoscale features (e.g., sample sites or nanowells or lithographically patterned features) provided on a surface of the sample holder.
    Type: Application
    Filed: September 26, 2023
    Publication date: March 28, 2024
    Inventors: Matthew Hage, John Earney, Gregory Holst, Mark Majette
  • Publication number: 20240033738
    Abstract: The presently described techniques relate generally to providing motion feedback (e.g., motion system calibration and/or sample alignment) in the context of an imaging system (such as a time delay and integration (TDI) based imaging system). The architecture and techniques discussed may achieve nanoscale control and calibration of a movement feedback system without a high-resolution encoder subsystem or, in the alternative embodiments, with a lower resolution (and correspondingly less expensive) encoder subsystem than might otherwise be employed. By way of example, certain embodiments described herein relate to ascertaining or calibrating linear motion of a sample holder surface using nanoscale features (e.g., sample sites or nanowells or lithographically patterned features) provided on a surface of the sample holder.
    Type: Application
    Filed: July 21, 2023
    Publication date: February 1, 2024
    Inventors: Michael Burek, Gregory Holst, Danilo Condello, Dustin Blair
  • Publication number: 20230272837
    Abstract: An apparatus includes a chassis, a frame, a sample support member, an imaging assembly, an actuation assembly, and a vibration capture assembly. The frame is coupled with the chassis. The sample support member is supported by the frame. The actuation assembly is supported by the frame and is operable to drive movement of the imaging assembly relative to the sample support member. The vibration capture assembly is operable to selectively transition between a plurality of modes, including a damping mode and an isolation mode. In the damping mode, the vibration capture assembly is configured to resist movement of the frame relative to the chassis in response to operation of the actuation assembly. In the isolation mode, the vibration capture assembly is configured to prevent transmission of vibrational movement in the chassis to the frame.
    Type: Application
    Filed: February 24, 2023
    Publication date: August 31, 2023
    Inventors: Gregory Holst, Dustin Blair, John Earney, Geraint Evans, Matthew Hage
  • Publication number: 20220339621
    Abstract: Valve assemblies and related systems are disclosed. An apparatus includes or comprises a system including or comprising an imaging system, a flow cell interface having a corresponding flow cell receptacle, a stage assembly, and a valve assembly including or comprising a valve and a valve drive assembly. The stage assembly moves the flow cell interface relative to the imaging system and the valve drive assembly is to drive the valve using shaped input signals to reduce vibration imposed on at least one of the stage assembly or another component of the apparatus based on movement of the valve.
    Type: Application
    Filed: November 15, 2021
    Publication date: October 27, 2022
    Inventors: Ahmadreza Rashedi, Gregory Holst, Rajagopal Panchapakesan