Patents by Inventor Roman Basistyy

Roman Basistyy 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: 10209300
    Abstract: Methods and systems for manufacturing and analyzing interconnect structures in integrated circuit (IC) devices. The methods include forming an interconnect structure, such as a pillar, in an IC device. The pillar is analyzed using an opto-acoustic sensor to quantify physical characteristics used to determine whether the pillar satisfies predetermined quality criterion. The analysis includes capturing an opto-acoustic signal from the pillar and estimating optical parameters for a number of local maxima of the signal. A mode may then be fitted for each of the identified local maxima based on the optical characteristics. The modes and estimated optical parameters may then be iteratively corrected in an order from strongest to weakest local maximum. The corrected values may then be compared to a predicted physical model to identify the physical characteristics of the pillar. If the physical characteristics fall outside of the quality criterion, manufacturing processes may be altered.
    Type: Grant
    Filed: November 8, 2016
    Date of Patent: February 19, 2019
    Assignee: Rudolph Technologies, Inc.
    Inventors: Michael Kotelyanskii, Roman Basistyy
  • Publication number: 20170141004
    Abstract: Methods and systems for manufacturing and analyzing interconnect structures in integrated circuit (IC) devices. The methods include forming an interconnect structure, such as a pillar, in an IC device. The pillar is analyzed using an opto-acoustic sensor to quantify physical characteristics used to determine whether the pillar satisfies predetermined quality criterion. The analysis includes capturing an opto-acoustic signal from the pillar and estimating optical parameters for a number of local maxima of the signal. A mode may then be fitted for each of the identified local maxima based on the optical characteristics. The modes and estimated optical parameters may then be iteratively corrected in an order from strongest to weakest local maximum. The corrected values may then be compared to a predicted physical model to identify the physical characteristics of the pillar. If the physical characteristics fall outside of the quality criterion, manufacturing processes may be altered.
    Type: Application
    Filed: November 8, 2016
    Publication date: May 18, 2017
    Applicant: Rudolph Technologies, Inc.
    Inventors: Michael Kotelyanskii, Roman Basistyy