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`PROFESSIONAL PROFILE
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`EDUCATION
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`Stanford University, Palo Alto, California
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`University of California, Berkeley, California
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`42063 Benbow Drive, Fremont, CA 94539 l (510) 770-9449 or (510) 579-5029
`www.davidkyliu.com davidkyliu@comcast.net
`• Technical expert with over 20 years of industrial experience in the development of
`advanced CMOS devices and process technology, with special emphasis on non-
`volatile semiconductor memory devices and process technology, and high-voltage
`semiconductor devices, with additional 12 years of experience serving as expert
`consultant.
`o Named inventor on 99 US patents.
`• Consultant and expert witness for past 12 years in semiconductor intellectual
`property evaluation and patent litigation, with deposition experience and successful
`ITC trial testifying experience.
`• Successful track record in transitioning products from development phase to high-
`volume manufacturing phase, both as an
`individual contributor and as
`manager/director.
`• Co-founder of an LLC in the development and licensing of intellectual property with
`emphasis on embedded flash memory technology.
`• Co-founder of a semiconductor memory start-up company (Progressant Technologies,
`Inc.); participated in its successful sale to Synopsys, Inc.
`• Fluent in Mandarin Chinese (native language) and English; over 10 years experience
`as real-time translator of church sermons and proficient in written translation.
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`Ph.D., Electrical Engineering (1989)
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`Thesis: Physics and Technology of Novel Conductivity-Modulated Power
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`MOSFET’s
` M.S., Electrical Engineering (1985)
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`Coursework in integrated-circuit technology, semiconductor device physics,
`computer modeling of semiconductor devices and fabrication processes, and
`solid-state physics
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`B.S., Electrical Engineering (1983)
`Certificate of Distinction (awarded annually to the top EECS graduate)
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`Jurisdiction:
`Action No. 2:19-cv-00333
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`Eastern District of Texas
`Work Product:
`Expert for non-infringement/invalidity on 3 patents relating to
`stacked processor module, responsibilities include drafting reports
`or declaration, and testifying at depositions hearing or trial.
`Nature of Case:
`Civil action.
`Counsel:
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`Retained by Fish & Richardson (Contact: Tony Nguyen)
`Date:
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`6/20 – Current
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`EXPERT WORK EXPERIENCE:
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`Case:
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`Arbor Global Strategies LLC vs. Samsung Electronics
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`Micron Ex. 1058, p. 1
`Micron v. Vervain
`IPR2021-01549
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`Case:
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`Texas Instruments IPR Petition
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`Micron Technology vs. UMC/JinHua
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`Patent analysis and prior art review toward preparation of IPR
`petition material and draft of declaration.
`Retained by Fish & Richardson (Contact: Josh Griswold)
`9/20 – 4/21
`Case No. 4:17-CV-06932-MMC
`United States District Court for the Northern District of California
`Testifying expert, trade secret documents review, and declaration
`submission.
`Trade secret contention of Micron confidential documents.
`Retained by Jones Day (Contact: Randy Kay)
`3/17 – Current
`Investigation No. 337-TA-1097
`United States International Trade Commission
`Testifying expert for non-infringement on 2 patents, issued expert
`rebuttal report, deposition taken, issued witness statement.
`ITC infringement case concerning module stacking of SDRAM.
`Retained by Fish Richardson (Contact: Joseph Colaianni)
`11/18 – 4/19
`Patent analysis and prior art review toward preparation of IPR
`petition material and draft of declaration.
`Retained by Fish & Richardson (Contact: Matt Colvin)
`4/18 – 8/18
`Case No. 3:17-CV-02402
`United States District Court for the Southern District of California
`Patent analysis and prior art review toward preparation of IPR
`petition material and draft of declaration, 2 depositions taken.
`Fish & Richardson (Contact: Tony Nguyen)
`1/18 – 5/19
`Investigation No. 337-TA-1046
`United States International Trade Commission
`Testifying expert for infringement and non-invalidity on 2 patents,
`claim construction analysis, technical tutorial, database viewing for
`evidence gathering, issuing expert report and expert rebuttal report,
`deposition taken for 2 patents, issued witness statement and rebuttal
`witness statement, testified in ITC court on both infringement and
`invalidity.
`ITC infringement case concerning advanced NAND Flash memory.
`Retained by Fish Richardson (Contact: David Barken)
`4/17 – 10/18
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`Apple Inc., vs. Qualcomm Incorporated
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`SK Hynix vs. BitMicro
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`Rohm Company IPR Petition
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`Macronix vs. Toshiba
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`Micron Ex. 1058, p. 2
`Micron v. Vervain
`IPR2021-01549
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`Triune Systems, LLC vs. Wayne Chen, et al.,
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`Taiwan Semiconductor Manufacturing Company IPR Petition
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`Novatek Microelecronics Corp. IPR Petition
`Patent analysis and prior art review toward preparation of IPR
`petition material and draft of declaration.
`Retained by Kroub, Silbersher & Kolmykov PLLC (Contact: Sergey
`Kolmykov)
`2/17 – 4/17
`Patent analysis and prior art review toward preparation of IPR
`petition material and draft of declaration.
`Retained by Fish & Richardson (Contact: John Goetz)
`7/15 – 4/17
`Case No. 296-03209-2013,
`District Court of Collin County, TX
`Testifying expert, database viewing, expert report, video-taped
`testimony
`Defending against trade secret contention.
`Retained by Gordon & Rees LLP (Contact: Robert Bragalone)
`5/15 – 9/15
`Investigation No. 337-TA-922
`United States International Trade Commission
`Testifying expert, claim construction analysis, technical tutorial,
`database viewing for evidence gathering, expert report, expert
`rebuttal report.
`ITC infringement case concerning Flash memory cell
`Retained by Fish Richardson (Contact: David Barken)
`9/14 – 1/15
`Investigation No. 337-TA-909
`United States International Trade Commission
`Database viewing for evidence gathering, support technical content
`of expert report, support technical content against rebuttal report.
`ITC infringement case concerning Flash memory cell
`Retained by Winston & Strawn (Contact Michael Murray)
`5/14 – 1/15
`Civil Case No. 2:10-CV-00207
`United States District Court for the Eastern District of Texas
`Claim Chart Generation and Claim Construction
`Patent infringement case concerning split gate Flash memory cell
`Retained by Agility IP (Contact Michelle Breit)
`2/09 – 2/14
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`Macronix vs. Spansion
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`Macronix vs. Spansion
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`Keranos, LLC v. Analog Devices et. al.
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`Nature of Case:
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`Date:
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`Micron Ex. 1058, p. 3
`Micron v. Vervain
`IPR2021-01549
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`Case:
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`Case:
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`Case:
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`Fast Memory Erase, LLC v. Spansion et.al.
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`Fast Memory Erase, LLC v. Spansion et.al.
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`Silicon Storage Technology, Inc. v. Xicor, LLC
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`Civil Case No. CV 10-01515
`Jurisdiction:
`United States District Court for the Northern District of California
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`Expert report and declarations
`Work Product:
`Nature of Case: Matter concerning United States Reissue Patent RE38,370 on the
`process of flash memory cell.
`Counsel:
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`Retained by Shore Chan Bragalone LLP (Contact Patrick Conroy)
`Date:
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`6/11 – 10/11
`Jurisdiction:
`Civil Case No. 3:10CV-481
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`United States District Court for the Northern District of Texas
`Declarations
`Work Product:
`Nature of Case:
`Defending Motion for Attorney Fees.
`Counsel:
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`Retained by Shore Chan Bragalone LLP (Contact Patrick Conroy)
`Date:
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`2/10 – 6/10
`Jurisdiction:
`Civil Case No. 3-08cv0977M
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`United States District Court for the Northern District of Texas
`Work Product:
`Testifying expert: issuing expert report, declarations, and
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`deposition taken.
`Nature of Case:
`Patent infringement case concerning minimizing source current
`during erase of Flash memory cell.
`Counsel:
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`Retained by Shore Chan Bragalone LLP (Contact Patrick Conroy)
`Date:
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`2/09 – 5/10
`10/07 to present: Technical Consultant
`Fish & Richardson, Serving as a testifying expert for the case of
`Macronix vs. Toshiba. Case involvement ended in ITC trial testifying
`for infringement and invalidity. Responsible for reviewing layout
`database in GDS formation and studying circuit schematics for
`gathering and reviewing of evidence, both for DI purpose and for
`infringement purpose.
`Gordon & Rees LLP, Served as a testifying expert for trade secret
`contention case of Triune Systems vs. Wayne Chen, et al., Case ended
`in settlement after summary jury trial. Responsible for gathering and
`reviewing of evidence, analyzed integrated circuits for technology
`features, issuing expert report, and video taped jury trial testimony.
`Fish & Richardson, Served as a testifying expert for the case of
`Macronix vs. Spansion. Case ended in settlement. Responsible for
`gathering and reviewing of evidence, both for DI purpose and for
`infringement purpose, issuing declaration on claim construction,
`giving technical tutorial, issuing expert report and expert rebuttal
`report.
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`EXPERIENCE:
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`Micron Ex. 1058, p. 4
`Micron v. Vervain
`IPR2021-01549
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`Winston & Strawn. Served as a consulting expert for the case of
`Macronix vs. Spansion. Case ended in settlement. Responsible for
`gathering and reviewing of evidence, both for DI purpose and for
`infringement purpose.
`ShoreChanBragalone. Served as an expert witness for the case of
`Intersil vs. SST. Summary judgment was granted after claim charts
`and infringement contention were generated.
`Keranos, Serving as an expert witness for the case of Keranos, LLC vs.
`Analog Devices, Inc. et. al. Overseeing the generation of claim charts
`and coordinating efforts in reverse engineering work on integrated
`circuit products.
`
`ShoreChanBragalone. Served as an expert witness and testifying
`witness for the case of Fast Memory Erase, LLC vs. Spansion et al.
`(Performed claim construction, provided deposition testimony, and
`wrote expert report.)
`RPX Corporation. Evaluated flash memory and CMOS image sensor
`patent portfolios
`for
`licensing and acquisition consideration.
`Assessed qualitative merits of each patent (total 76 patents) and
`identified potential infringers and potential licensees. Generated
`numerous claim charts against potential
`infringers based on
`published patents, technical papers and datasheets.
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`IBM Corp. Reviewed and evaluated IBM’s 180nm HV process
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`technology against customer’s IP and applications, with a view toward
`IBM’s potential bid for customer’s process technology offerings.
`Assessed process compatibility and outlined gap/overlaps between
`IBM and customer.
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`Law+. Worked as a technical expert for the lead attorney on several
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`IP litigation cases in the area of flash memory and CMOS process
`technology. Assembled critical evidence to invalidate key patent
`claims. Generated claim charts for several patents.
` 10/07 to 4/11:
`Inventor and Partner. Developed an intellectual property (IP)
`portfolio (7 U.S. patents granted and 3 U.S. patent applications
`pending) on zero-cost CMOS-logic-compatible embedded flash
`memory. Successfully negotiated the acquisition of this IP portfolio by
`a major semiconductor company.
` 8/04 to 10/07: Maxim Integrated Products, San Jose, California
`Senior Scientist. Responsible for developing embedded non-volatile
`memory process technology for battery management products. Duties
`included supervising the development of integrated process flows at
`the 0.35µm and 0.18µm CMOS technology nodes. Analyzed and solved
`process-related reliability issues.
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`Jonker, LLC
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`Micron Ex. 1058, p. 5
`Micron v. Vervain
`IPR2021-01549
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` 5/00 to 8/04:
` 2/00 to 5/00
`9/98 to 2/00
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`Xilinx, Incorporated, San Jose, California
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`Senior Manager. Responsible for developing non-volatile memory
`process technology for flash and CPLD products, as well as advanced
`CMOS process technology (75nm node). Duties included supervising
`the development of integrated non-volatile memory process flows at
`multiple CMOS technology nodes to meet product application
`requirements. Analyzed and solved process-related reliability issues.
`Progressant Technologies, Fremont, California
`Co-Founder. Facilitated IP development and sale of the company to
`Synopsys, Inc.
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`Programmable Silicon Solutions, Sunnyvale, California
`Director of Process Engineering. Responsible for developing a fully
`logic compatible embedded flash memory technology for WSMC (a
`semiconductor foundry). Developed a new integrated process flow to
`implement a proprietary flash cell in a high-performance logic
`process, supervised
`testchip and product
`tapeout, process
`optimization, device optimization, and product yield enhancement.
`Applied interpersonal skills to align the goals of the foundry
`technology development group to that of PSS. Participated in the
`strategic planning of a technology roadmap and foundry strategy for
`the company.
`
`AMIC Technology, Santa Clara, California
`Director of Flash Technology. Responsible for developing 0.35µm
`ETOX-based flash memory technology. Prepared the business plan
`and technology roadmap. Developed a new integrated process flow,
`supervised testchip and product tapeout, process optimization, device
`optimization, and product yield enhancement.
`Altera Corp., San Jose, California
`Device Engineering Manager.
` Responsible
`for
`technology
`development, process integration, and foundry interface for 0.35µm
`generation of
`logic and EEPROM programmable
`logic device
`technology. Duties included project schedule planning, supervision of
`testchip and product tapeout, process optimization, and product yield
`enhancement.
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`Information Storage Devices, San Jose, California
`Technology Development Manager/Program Manager. Led a project
`team of 10 in technology development, process integration, and first
`product introduction, with a new foundry. Duties included project
`schedule planning, supervision of testchip and product tapeout,
`process optimization, resolution of sorting
`issues and yield
`enhancement.
`
`Advanced Micro Devices, Sunnyvale, California
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`9/97 to 9/98
` 5/96 to 9/97
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`7/95 to 5/96
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`5/92 to 7/95
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`Micron Ex. 1058, p. 6
`Micron v. Vervain
`IPR2021-01549
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` 1/89 to 4/92
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`low-
` Led the development of
`Member of Technical Staff.
`energy/DINOR-type flash EPROM technology.
` Key
`individual
`contributor in optimizing the process and design of flash cell and
`periphery devices in AMD’s 0.5µm and 0.35µm flash EPROM
`technologies. Duties included process integration, device modeling,
`and development of
`triple-well
`technology and high-voltage
`transistors for negative gate erase operation.
`Texas Instruments, Dallas, Texas
`Member of Technical Staff. Research and development of 16Mb
`generation of flash EPROM technology, as well as a new generation of
`antifuse-based FPGAs. Duties included process integration, device
`modeling, high-voltage CMOS process integration, and investigation of
`a novel source-side injection mechanism for EPROM channel hot-
`electron programming.
`U.C. Berkeley Certificate of Distinction Award, 1983
`AEA Faculty Development Fellowship, 1983-1985
`AMD Spotlight Award, 1995
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`AWARDS/HONORS
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`Micron Ex. 1058, p. 7
`Micron v. Vervain
`IPR2021-01549
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`PATENTS
`1. U.S. Patent 5,106,773, “Programmable Gate Array and Methods for Its Fabrication”
`(with K-L. Chen and H. Tigelaar), issued April 21, 1992.
`2. U.S. Patent 5,166,557, “Gate Array with Built-in Programmable Circuitry” (with K.-L.
`Chen), issued November 24, 1992.
`3. U.S. Patent 5,202,576, “Asymmetrical Non-Volatile Memory Cell, Arrays, and Methods
`for Fabricating the Same” (with M. Wong), issued April 13, 1993.
`4. U.S. Patent 5,219,782, “Sublithographic Antifuse and method for Manufacturing” (with
`K.-L. Chen), issued June 15, 1993.
`5. U.S. Patent 5,250,464, “Method of Making a Low Capacitance, Low Resistance Sidewall
`Antifuse Structure” (with M. Wong), issued October 5, 1993.
`6. U.S. Patent 5,264,384, “Method of Making a Non-Volatile Memory Cell” (with C. Kaya),
`issued November 23, 1993.
`7. U.S. Patent 5,300,803, “Source Side Injection Non-volatile Memory Cell,” issued April
`5, 1994.
`8. U.S. Patent 5,365,105, “Sidewall Antifuse Structure and Method for Making,” issued
`November 15, 1994.
`9. U.S. Patent 5,371,402, “Low Capacitance, Low Resistance Sidewall Antifuse Structure
`and Process” (with M. Wong), issued December, 1994
`10. U.S. Patent 5,395,797, “Antifuse Structure and Method of Fabrication,” issued March 7,
`1995.
`11. U.S. Patent 5,470,773, “Method of Protecting a Stacked Gate Edge in a Semiconductor
`Device from Self Aligned Source (SAS) Etch” (with Y. Sun and C. Chang), issued
`November 28, 1995.
`12. U.S. Patent 5,482,880, “Non-Volatile Memory and Fabrication Method,” (with C. Kaya),
`issued January 9 1996.
`13. U.S. Patent 5,517,443, “Method and System for Protecting a Stacked Gate Edge in a
`Semiconductor Device from Self Aligned Source (SAS) Etch in a Semiconductor
`Device,” issued May 14, 1996.
`14. U.S. Patent 5,521,867, “Adjustable Threshold Voltage Conversion Circuit” (with Jian
`Chen), issued May 28, 1996.
`15. U.S. Patent 5,534,455, “Method and System for Protecting a Stacked Gate Edge in a
`Semiconductor Device from Self Aligned Source (SAS) Etch in a Semiconductor
`Device,” issued July 9, 1996.
`16. U.S. Patent 5,541,875, “High Energy Buried Layer Implant To Provide A Low
`Resistance P-Well in A Flash EPROM Array” (with Jian Chen), issued May 28, 1996.
`17. U.S. Patent 5,590,076, “Channel Hot-Carrier Page Write,” issued December 31, 1996.
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`Micron Ex. 1058, p. 8
`Micron v. Vervain
`IPR2021-01549
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`18. U.S. Patent 5,596,531, “Method for Decreasing the Discharge Time of A Flash Memory
`Cell,” issued January 21, 1997.
`19. U.S. Patent 5,612,914, “Asymmetrical Non-volatile Memory Cell, Arrays and Methods
`for Fabricating Same” (with Man Wong), issued May 18, 1997.
`20. U.S. Patent 5,624,859, “Method for Providing Device Isolation and Off-State Leakage
`Current for a Semiconductor Device,” issued April 29, 1997.
`21. U.S. Patent 5,625,220, “Sublithographic Antifuse,” (with K.L. Chen), issued April 29,
`1997.
`22. U.S. Patent 5,646,430, “Non-volatile Memory Cell Having Lightly-Doped Source
`Region” (with C. Kaya), Issued July 8, 1997.
`23. U.S. Patent 5,650,964, “Method of Inhibiting Degradation of Ultra Short Channel
`Charge-carrying Devices during Discharge,” (with Jian Chen), Issued July 22, 1997.
`24. U.S. Patent 5,652,155, “Method for Making Semiconductor circuit Including Non-ESD
`Transistors with Reduced Degradation Due to an Impurity Implant,” Issued July 27,
`1997.
`25. U.S. Patent 5,656,509, “Method and Test Structure for Determining Gouging in a Flash
`EPROM Cell During SAS Etch,” Issued July 29, 1997
`26. U.S. Patent 5,661,059, “Boron Penetration to Suppress Short Channel Effect in P-
`channel Device,” Issued August 26, 1997.
`27. U.S. Patent 5,674,764, “Method of Making Asymmetrical Non-volatile Memory Cell,”
`Issued October 7, 1997.
`28. U.S. Patent 5,693,972, “Method and System for Protecting a Stacked Gate Edge in a
`Semiconductor Device from Self-Aligned Source (SAS) Etch in a Semiconductor
`Device,” Issued December 2, 1997.
`29. U.S. Patent 5,751,631, “Flash memory cell and a new method for sensing the content
`of the new memory cell,” Issued May 12, 1998
`30. U.S. Patent 5,789,295, “Method of Eliminating or Reducing Poly1 Oxidation at Stacked
`Gate Edge in Flash EPROM Process,” Issued August 4, 1998.
`31. U.S. Patent 5,814,854, “Highly scalable FLASH EEPROM cell,” Issued September 29,
`1998.
`32. U.S. Patent 5,814,864, “Semiconductor Circuit Including Non-ESD Transistors with
`Reduced Degradation Due to an Impurity Implant,” Issued September 29, 1998.
`33. U.S. Patent 5,912,836, “Circuit for Detecting Both Charge Gain and Charge Loss
`Properties in a Non-Volatile Memory Array,” Issued June 15, 1999.
`34. U.S. Patent 5,930,174, “Circuit and Method for Erasing Flash Memory Array,” Issued
`July 27, 1999.
`35. U.S. Patent 5,981,994, “Method and Semiconductor circuit for Maintaining Integrity of
`Field Threshold Voltage Requirements,” Issued November 9, 1999.
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`Micron Ex. 1058, p. 9
`Micron v. Vervain
`IPR2021-01549
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`36. U.S. Patent 5,995,418, “Circuit and Method for Erasing Flash Memory Array,” Issued
`November 30, 1999.
`37. U.S. Patent 6,026,017, “Compact nonvolatile memory,” Issued February 15, 2000.
`38. U.S. Patent 6,027,974, “Nonvolatile memory,” Issued February 22, 2000.
`39. U.S. Patent 6,088,263, “Non-volatile memory using substrate electrons,” Issued July
`11, 2000.
`40. U.S. Patent 6,091,636, “Flash memory cell and a new method for sensing the content
`of the new memory cell,” Issued July 18, 2000.
`41. U.S. Patent 6,127,225, “Memory cell having implanted region formed between select
`and sense transistors,” Issued October 3, 2000.
`42. U.S. Patent 6,159,800, “Method of forming memory cell,” Issued December 12, 2000.
`43. U.S. Patent 6,188,604, “Flash memory cell & array with improved pre-program and
`erase characteristics,” Issued February 13, 2001.
`44. U.S. Patent 6,185,133, “Flash EPROM using junction hot hole injection for erase,”
`Issued February 6, 2001.
`45. U.S. Patent 6,252,799, “Device with embedded Flash and EERPOM memories,” Issued
`June 26, 2001.
`46. U.S. Patent 6,326,265, “Device with Embedded Flash and EPROM Memories,” Issued
`December 4, 2001.
`47. U.S. Patent 6,417,550, “High voltage MOS devices with high gated-diode breakdown
`voltage and punch-through voltage,” Issued July 9, 2002.
`48. U.S. Patent 6,479,862, “Charge trapping device and method for implementing a
`transistor having a negative differential resistance mode,” Issued November 12, 2002.
`49. U.S. Patent 6,512,274, “CMOS-process compatible, tunable NDR (negative differential
`resistance) device and method of operating same,” Issued January 28, 2003.
`50. U.S. Patent 6,596,617, “CMOS compatible process for making a tunable negative
`differential resistance (NDR) device,” Issued July 22, 2003.
`51. U.S. Patent 6,624,026, “Nonvolatile Memory,” Issued September 23, 2003.
`52. U.S. Patent 6,680,245, “Method for making both a negative differential resistance
`(NDR) device and a non-NDR device using a common MOS process,” Issued January
`20, 2004.
`53. U.S. Patent 6,686,631, “Negative differential resistance (NDR) device and method of
`operating same,” Issued February 3, 2004.
`54. U.S. Patent 6,693,027, “Method for configuring a device to include a negative
`differential resistance (NDR) characteristic,” Issued February 17, 2004.
`55. U.S. Patent 6,700,155, “Charge trapping device and method for implementing a
`transistor having a configurable threshold,” Issued March 2, 2004.
`
`Micron Ex. 1058, p. 10
`Micron v. Vervain
`IPR2021-01549
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`
`56. U.S. Patent 6,711,063, “EEPROM memory cell array architecture for substantially
`eliminating leakage,” Issued March 23, 2004.
`57. U.S. Patent 6,835,979, “Nonvolatile Memory,” Issued December 28, 2004.
`58. U.S. Patent 6,969,894, “Variable threshold semiconductor device and method of
`operating same,” Issued November 29, 2005.
`59. U.S. Patent 6,972,234, “High Voltage MOS Devices with High Gated-Diode Breakdown
`Voltage and Punch-through Voltage,” Issued December 6, 2005.
`60. U.S. Patent 6,972,465, “CMOS process compatible, tunable negative differential
`resistance (NDR) device and method of operating same,” Issued December 6, 2005.
`61. U.S. Patent 7,067,873, “Charge Trapping Device,” Issued June 27, 2006.
`62. U.S. Patent 7,091,077, “Method of directionally trimming polysilicon width,” Issued
`August 15, 2006.
`63. U.S. Patent 7,109,078, “CMOS compatible process for making a charge trapping
`device,” Issued September 19, 2006.
`64. U.S. Patent 7,301,194, “Shrinkable and highly coupled double poly EEPROM with
`Inverter,” Issued November 27, 2007.
`65. U.S. Patent 7,436,710, “EEPROM memory device with cell having NMOS in a P pocket
`as a control gate, PMOS program/erase transistor, and PMOS access transistor in a
`common well,” Issued October 14, 2008.
`66. U.S. Patent 7,535,758, “One or Multiple-Times Programming Device,” Issued May 19,
`2009.
`67. U.S. Patent 7,782,668, “Integrated circuit embedded with Non-volatile One-Time-
`Programmable and Multiple-Time Programmable memory,” Issued August 24, 2010.
`68. U.S. Patent 7,787,295, “Integrated circuit embedded with Non-volatile Multiple-Time
`Programmable memory having variable coupling,” Issued August 31, 2010.
`69. U.S. Patent 7,787,304, “Method of making integrated circuit embedded with Non-
`volatile One-Time-Programmable and Multiple-Time Programmable memory,” Issued
`August 31, 2010
`70. U.S. Patent 7,787,309, “Method of operating integrated circuit embedded with Non-
`volatile One-Time Programmable and Multiple-Time Programmable memory,” Issued
`August 31, 2010.
`71. U.S. Patent 7,791,955, “Method of erasing a block of memory cells,” Issued September
`7, 2010.
`72. U.S. Patent 7,835,184, “EEPROM memory cell with first-dopant-type control gate
`transistor, and second-dopant type program/erase and access transistors formed in
`common well,” Issued November 16, 2010
`73. U.S. Patent 7,835,186, “Method of programming a selected memory cell,” Issued
`November 16, 2010.
`
`Micron Ex. 1058, p. 11
`Micron v. Vervain
`IPR2021-01549
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`
`“Integrated Circuit embedded with Non-Volatile
`74. U.S. Patent 7,852,672,
`programmable memory having variable coupling,” Issued December 14, 2010
`75. U.S. Patent 7,876,615, “Method of operating integrated circuit embedded with Non-
`Volatile programmable memory having variable coupling related application data,”
`Issued January 25, 2011
`76. U.S. Patent 7,920,426, “Non-volatile memory programmable through areal capacitive
`coupling,” Issued April 5, 2011
`77. U.S. Patent 7,944,750, “Multi-programmable Non-Volatile Memory Cell,” Issued May
`17, 2011
`78. U.S. Patent 8,203,861, “Non-Volatile One-Time Programmable and Multiple-Time
`Programmable Device,” Issued June 19, 2012
`79. U.S. Patent 8,208,299, “Integrated Circuit Embedded with Non-Volatile Programmable
`Memory Having Variable Coupling and Separate Read/Write Paths,” Issued June 26,
`2012
`80. U.S. Patent 8,300,470, “Two Terminal Programmable Hot Channel Electron Non-
`Volatile Memory,” Issued October 30, 2012
`81. U.S. Patent 8,305,805, “Common Drain Non-Volatile Multiple-Time Programmable
`Memory,” Issued November 6, 2012
`82. U.S. Patent 8,325,519, “Method of Operating Integrated Circuit Embedded with Non-
`Volatile Programmable Memory having Variable Coupling Ratio,” Issued December 4,
`2012.
`83. U.S. Patent 8,580,622, “Method of Making Integrated Circuit Embedded with Non-
`Volatile Programmable Memory having Variable Coupling,” Issued November 12,
`2013.
`84. U.S. Patent 8,582,342, “Non-Volatile One-Time-Programmable and Multiple-Time
`Programmable Memory Configuration Circuit,” Issued November 12, 2013.
`85. U.S. Patent 8,599,612, “Method of Operating Integrated Circuit Embedded with Non-
`Volatile Programmable Memory having Variable Coupling Related Application data,”
`Issued December 3, 2013.
`86. U.S. Patent 8,705,263, “Non-Volatile One-Time-Programmable and Multiple-Time
`Programmable Memory Configuration Circuit,” Issued April 22, 2014.
`87. U.S. Patent 8,988,103, “Capacitively Coupled Logic Gate,” Issued March 24, 2015.
`88. U.S. Patent 9,064,192, “Automatic Valid Vote Count Storage using Secure Embedded
`Non-Volatile Memory,” Issued June 23, 2015.
`89. U.S. Patent 9,224,739, “Method of Making Integrated Circuit Embedded with Non-
`Volatile Programmable Memory having Variable Coupling,” Issued December 29,
`2015.
`90. U.S. Patent 9,305,931, “Zero Cost NVM Cell Using High Voltage Devices in Analog
`Process,” Issued April 5, 2016.
`
`Micron Ex. 1058, p. 12
`Micron v. Vervain
`IPR2021-01549
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`
`91. U.S. Patent 9,324,438, “Method of Operating Incrementally Programmable Non-
`Volatile Memory,” Issued April 26, 2016.
`92. U.S. Patent 9,558,813, “Method of Operating Incrementally Programmable Non-
`Volatile Memory,” Issued January 31, 2017.
`93. U.S. Patent 9,570,161, “Method of Operating Incrementally Programmable Non-
`Volatile Memory,” Issued February 14, 2017.
`94. U.S. Patent 9,570,175, “Incrementally Programmable Non-Volatile Memory,” Issued
`February 14, 2017.
`95. U.S. Patent 10,061,738, “Ephemeral Peripheral Device,” Issued August 28, 2018.
`96. U.S. Patent 10,115,467, “One time Accessible (OTA) Non-Volatile Memory,” Issued
`October 30, 2018.
`97. U.S. Patent 10,198,889, “Automatic Valid Vote Count Storage Using Secure Embedded
`Non-Volatile Memory,” Issued February 5, 2019
`98. U.S. Patent 10,559,700, “Zero Cost ANVM Cell Using High Voltage Devices in Analog
`Process,” Issued February 11, 2020.
`99. U.S. Patent 10,629,207, “Semiconductor CMOS Non-Volatile Memory Device,” Issued
`April 21, 2020
`
`
`(additional patent applications pending)
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`Micron Ex. 1058, p. 13
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`IPR2021-01549
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`
`PUBLICATIONS
`
`1. S.D. Leeke, D. K. Y. Liu and J. P. McVittie, “Plasma mode trench etching with direct
`hydrocarbon injection,” Materials Research Society Symposium Proceedings, Vol. 68,
`pp. 21-27, 1986.
`2. D. K. Y. Liu and J. D. Plummer, “A novel trench-injector power device with low ON-
`resistance and high switching speed,” IEEE Electron Device Letters, Vol. 9, No. 7, pp.
`321-323, 1988.
`3. D. M. Boisvert, D. K. Y. Liu and J. D. Plummer, “Circuit approaches to increasing IGBT
`switching speed,” IEEE Journal of Solid-State Circuits, Vol. 23, No. 5, pp. 1276-1279,
`1988.
`4. D. K. Y. Liu and J. D. Plummer, “Device physics and optimization of conductivity-
`modulated power MOSFET’s,” IEEE Transactions on Electron Devices, Vol. 35, No. 12,
`pp. 2457-2458, 1988.
`5. D. K. Y. Liu, K.-L. Chen, H. Tigelaar, J. Paterson and S. O. Chen, “Scaled dielectric antifuse
`structure for field-programmable gate array applications,” IEEE Electron Device
`Letters, Vol. 12, No. 4, pp. 151-153, 1991.
`6. M. Wong, D. K. Y. Liu, M. M. Moslehi and D. W. Reed, “Preoxidation treatment using
`HCl/HF vapor,” IEEE Electron Device Letters, Vol. 12, No. 8, pp. 425-426, 1991.
`7. D. K. Y. Liu, C. Kaya, M. Wong, J. Paterson and P. Shah, “Optimization of a source-side
`injection FAMOS cell for flash EPROM applications,” International Electron Devices
`Meeting Technical Digest, pp. 315-318, 1991.
`8. K.-L. Chen, D. K. Y. Liu, G. Misium, W. M. Gosney, S.-J. Wang, J. Camp and H. Tigelaar, “A
`sublithographic antifuse structure for field-programmable gate array applications,”
`IEEE Electron Device Letters, Vol. 13, No. 1, pp. 53-55, 1992.
`9. K. T. San, C. Kaya, D. K. Y. Liu, T. P. Ma, and P. Shah, “A new technique for determining
`capacitive coupling coefficients in flash EPROMs,” IEEE Electron Device Letters, Vol. 13,
`No. 6, pp. 328-331, 1992.
`10. C. Kaya, D. K. Y. Liu, J. Paterson and P. Shah, “Buried source-side injection (BSSI) for
`flash EPROM programming,” IEEE Electron Device Letters, Vol. 13, No. 9, pp. 465-467,
`1992.
`11. M. Wong, D. K. Y. Liu and S. S.-W. Huang, “Analysis of the subthreshold slope and the
`linear transconductance techniques for the extraction of the capacitance coupling
`coefficients of floating-gate devices,” IEEE Electron Device Letters, Vol. 13, No. 11, pp.
`566-568, 1992.
`12. D. K. Y. Liu and J. D. Plummer, “Design and analysis of a new conductivity-modulated
`power MOSFET,” IEEE Transactions on Electron Devices, Vol. 40, No. 2, pp. 428-438,
`1993.
`13. J. Z. Peng, S. Haddad, H. Fang, C. Chang, S. Longcor, B. Ho, Y. Sun, D. Liu, Y. Tang, J. Hsu,
`S. Luan, J. Lien, “Flash EPROM endurance simulation using physics-based models,” In
`International Electron