Patents by Inventor Chung Lam

Chung Lam 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: 11216595
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Grant
    Filed: September 21, 2019
    Date of Patent: January 4, 2022
    Assignee: International Business Machines Corporation
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Patent number: 10997321
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Grant
    Filed: September 21, 2019
    Date of Patent: May 4, 2021
    Assignee: International Business Machines Corporation
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Patent number: 10763307
    Abstract: A method of forming a phase change material memory array is provided. The method includes forming a lower metallization layer on a substrate, and forming a plurality of upright slabs, where each of the slabs includes a lower buffer segment on the lower metallization layer, a phase change material segment on the lower buffer segment, an upper buffer segment on the phase change material segment, and an upper conductive segment on the upper buffer segment. The method further includes forming a resistive liner on the plurality of upright slabs, and forming a sidewall spacer layer on the resistive liner. The method further includes removing portions of the sidewall spacer layer and the resistive liner on the substrate and the upper conductive segment, wherein another portion of the resistive liner remains on the phase change material segment.
    Type: Grant
    Filed: April 10, 2019
    Date of Patent: September 1, 2020
    Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATION
    Inventors: Fabio Carta, Chung Lam, Matthew J. BrightSky, Robert Bruce
  • Publication number: 20200019732
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Application
    Filed: September 21, 2019
    Publication date: January 16, 2020
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Publication number: 20200019731
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Application
    Filed: September 21, 2019
    Publication date: January 16, 2020
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Patent number: 10423805
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Grant
    Filed: December 22, 2016
    Date of Patent: September 24, 2019
    Assignee: International Business Machines Corporation
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Publication number: 20180181774
    Abstract: A private key of a public-private key pair with a corresponding identity is written to an integrated circuit including a processor, a non-volatile memory, and a cryptographic engine coupled to the processor and the non-volatile memory. The private key is written to the non-volatile memory. The integrated circuit is implemented in complementary metal-oxide semiconductor 14 nm or smaller technology. The integrated circuit is permanently modified, subsequent to the writing, such that further writing to the non-volatile memory is disabled and such that the private key can be read only by the cryptographic engine and not off-chip. Corresponding integrated circuits and wafers are also disclosed.
    Type: Application
    Filed: December 22, 2016
    Publication date: June 28, 2018
    Inventors: Richard H. Boivie, Eduard A. Cartier, Daniel J. Friedman, Kohji Hosokawa, Charanjit Jutla, Wanki Kim, Chandrasekara Kothandaraman, Chung Lam, Frank R. Libsch, Seiji Munetoh, Ramachandran Muralidhar, Vijay Narayanan, Dirk Pfeiffer, Devendra K. Sadana, Ghavam G. Shahidi, Robert L. Wisnieff
  • Publication number: 20100195378
    Abstract: A phase change memory device includes a memory cell, first word line conductor and a second word line conductor, and first and second access devices responsive to the first and second word line conductors respectively. Control circuits are arranged to access the memory cell for read operations using only the first word line conductor to establish a current path from the bit line through the memory cell to a source line through the first access device, and to access the memory cell for operations to reset the memory cell using both the first and second access devices to establish a current path from the bit line through the memory cell to two source lines.
    Type: Application
    Filed: April 13, 2010
    Publication date: August 5, 2010
    Applicants: Macronix International Co., Ltd., International Business Machines Corporation
    Inventors: Hsiang Lan Lung, Chung Lam
  • Publication number: 20090034323
    Abstract: A phase change memory device includes a memory cell, first word line conductor and a second word line conductor, and first and second access devices responsive to the first and second word line conductors respectively. Control circuits are arranged to access the memory cell for read operations using only the first word line conductor to establish a current path from the bit line through the memory cell to a source line through the first access device, and to access the memory cell for operations to reset the memory cell using both the first and second access devices to establish a current path from the bit line through the memory cell to two source lines.
    Type: Application
    Filed: August 2, 2007
    Publication date: February 5, 2009
    Applicants: Macronix International Co., Ltd., International Business Machines Corporation
    Inventors: Hsiang Lan Lung, Chung Lam
  • Publication number: 20070274125
    Abstract: A nonvolatile memory cell includes a bipolar programmable storage element operative to store a logic state of the memory cell, and a metal-oxide-semiconductor device including first and second source/drains and a gate. A first terminal of the bipolar programmable storage element is adapted for connection to a first bit line. The first source/drain is connected to a second terminal of the bipolar programmable storage element, the second source/drain is adapted for connection to a second bit line, and the gate is adapted for connection to a word line.
    Type: Application
    Filed: August 15, 2007
    Publication date: November 29, 2007
    Applicant: International Business Machines Corporation
    Inventors: Johannes Bednorz, John DeBrosse, Chung Lam, Gerhard Meijer, Jonathan Sun
  • Publication number: 20070246748
    Abstract: A memory cell comprises a dielectric layer and a phase change material. The dielectric layer defines a trench having both a wide portion and a narrow portion. The narrow portion is substantially narrower than the wide portion. The phase change material, in turn, at least partially fills the wide and narrow portions of the trench. What is more, the phase change material within the narrow portion of the trench defines a void. Data can be stored in the memory cell by heating the phase change material by applying a pulse of switching current to the memory cell. Advantageously, embodiments of the invention provide high switching current density and heating efficiency so that the magnitude of the switching current pulse can be reduced.
    Type: Application
    Filed: April 25, 2006
    Publication date: October 25, 2007
    Inventors: Matthew Breitwisch, Chung Lam, Jan Philipp, Stephen Rossnagel, Alejandro Schrott
  • Publication number: 20070247893
    Abstract: A nonvolatile memory array includes a plurality of word lines, a plurality of bit lines, a plurality of source lines, and a plurality of nonvolatile memory cells. Each of at least a subset of the plurality of memory cells has a first terminal connected to one of the plurality of word lines, a second terminal connected to one of the plurality of bit lines, and a third terminal connected to one of the plurality of source lines. At least one of the memory cells includes a bipolar programmable storage element operative to store a logic state of the memory cell, a first terminal of the bipolar programmable storage element connecting to one of a corresponding first one of the bit lines and a corresponding first one of the source lines, and a metal-oxide-semiconductor device including first and second source/drains and a gate.
    Type: Application
    Filed: April 21, 2006
    Publication date: October 25, 2007
    Applicant: International Business Machines Corporation
    Inventors: Johannes Bednorz, Chung Lam, Gerhard Meijer
  • Publication number: 20070235708
    Abstract: A programmable link structure for use in three dimensional integration (3DI) semiconductor devices includes a via filled at least in part with a phase change material (PCM) and a heating device proximate the PCM. The heating device is configured to switch the conductivity of a transformable portion of the PCM between a lower resistance crystalline state and a higher resistance amorphous state. Thereby, the via defines a programmable link between an input connection located at one end thereof and an output connection located at another end thereof.
    Type: Application
    Filed: March 30, 2006
    Publication date: October 11, 2007
    Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATION
    Inventors: Bruce Elmegreen, Lia Krusin-Elbaum, Chung Lam, Dennis Newns, Matthew Wordeman, Albert Young
  • Publication number: 20070235811
    Abstract: Disclosed are a semiconductor structure and a method that allow for simultaneous voltage/current conditioning of multiple memory elements in a nonvolatile memory device with multiple memory cells. The structure and method incorporate the use of a resistor connected in series with the memory elements to limit current passing through the memory elements. Specifically, the method and structure incorporate a blanket temporary series resistor on the wafer surface above the memory cells and/or permanent series resistors within the memory cells. During the conditioning process, these resistors protect the transition metal oxide in the individual memory elements from damage (i.e., burn-out), once it has been conditioned.
    Type: Application
    Filed: April 7, 2006
    Publication date: October 11, 2007
    Applicant: International Business Machines Corporation
    Inventors: Toshijaru Furukawa, Mark Hakey, Steven Holmes, David Horak, Charles Koburger, Chung Lam, Gerhard Meijer
  • Publication number: 20070215874
    Abstract: An integrated circuit and method for fabrication includes first and second structures, each including a set of sub-lithographic lines, and contact landing segments connected to at least one of the sub-lithographic lines at an end portion. The first and second structures are nested such that the sub-lithographic lines are disposed in a parallel manner within a width, and the contact landing segments of the first structure are disposed on an opposite side of a length of the sub-lithographic lines relative to the contact landing segments of the second structure. The contact landing segments for the first and second structures are included within the width dimension, wherein the width includes a dimension four times a minimum feature size achievable by lithography.
    Type: Application
    Filed: March 17, 2006
    Publication date: September 20, 2007
    Inventors: Toshiharu Furukawa, Mark Hakey, Steven Holmes, David Horak, Charles Koburger, Chung Lam
  • Publication number: 20070212810
    Abstract: Disclosed are non-volatile memory devices that incorporate a series of single or double memory cells. The single memory cells are essentially “U” shaped. The double memory cells comprise two essentially “U” shaped memory cells. Each memory cell comprises a memory element having a bi-stable layer sandwiched between two conductive layers. A temporary conductor may be applied to a series of cells and used to bulk condition the bi-stable layers of the cells. Also, due to the “U” shape of the cells, a cross point wire array may be used to connect a series of cells. The cross point wire array allows the memory elements of each cell to be individually identified and addressed for storing information and also allows for the information stored in the memory elements in all of the cells in the series to be simultaneously erased using a block erase process.
    Type: Application
    Filed: May 15, 2007
    Publication date: September 13, 2007
    Inventors: Toshijaru Furukawa, Mark Hakey, Steven Holmes, David Horak, Charles Koburger, Chung Lam, Gerhard Meijer
  • Publication number: 20070187829
    Abstract: A memory cell for use in integrated circuits comprises a chalcogenide feature and a transition metal oxide feature. Both the chalcogenide feature and transition metal oxide feature each have at least two stable electrical resistance states. At least two bits of data can be concurrently stored in the memory cell by placing the chalcogenide feature into one of its stable electrical resistance states and by placing the transition metal oxide feature into one of its stable electrical resistance states.
    Type: Application
    Filed: February 14, 2006
    Publication date: August 16, 2007
    Applicant: International Business Machines Corporation
    Inventors: Chung Lam, Gerhard Meijer, Alejandro Schrott
  • Patent number: 7249232
    Abstract: Providing electrical isolation between the chipset and the memory data is disclosed. The disclosure includes providing at least one buffer in a memory interface between a chipset and memory modules. Each memory module includes a plurality of memory ranks. The buffers allow the memory interface to be split into first and second sub-interfaces. The first sub-interface is between the chipset and the buffers. The second sub-interface is between the buffers and the memory modules. The method also includes interleaving output of the buffers, and configuring the buffers to properly latch the data being transferred between the chipset and the memory modules. The first and second sub-interfaces operate independently but in synchronization with each other.
    Type: Grant
    Filed: February 11, 2004
    Date of Patent: July 24, 2007
    Assignee: Intel Corporation
    Inventors: John B. Halbert, Jim M. Dodd, Chung Lam, Randy M. Bonella
  • Publication number: 20070166981
    Abstract: Methods for fabricating a semiconductor device include forming a first layer on an underlying layer, forming a hardmask on the first layer, and patterning holes through the hardmask and first layer. An overhang is formed extending over sides of the holes. A conformal layer is deposited over the overhang and in the holes until the conformal layer closes off the holes to form a void/seam in each hole. The void/seam in each hole is exposed by etching back a top surface. The void/seam in each hole is extended to the underlying layer.
    Type: Application
    Filed: January 19, 2006
    Publication date: July 19, 2007
    Inventors: Toshiharu Furukawa, Mark Hakey, Steven Holmes, David Horak, Charles Koburger, Chung Lam
  • Publication number: 20070136523
    Abstract: A memory module including a volatile memory, a non-volatile memory, and a controller that provides address, data, and control interfaces to the memories and to a host system, such as, for example, a personal computer, is operable to interact with the host system so as to provide one or more additional layers in the memory hierarchy of the host system. In one aspect of the present invention the controller operates the volatile memory of the memory module as a cache for the non-volatile memory of the memory module. In another aspect of the present invention data representing one or more software applications and/or one or more data sets are stored in the non-volatile memory of the memory module along with security information such that a host system may quickly launch applications from the memory module rather than from a slower hard disk drive.
    Type: Application
    Filed: December 8, 2006
    Publication date: June 14, 2007
    Inventors: Randy Bonella, Chung Lam