` Dr. Marwan Hassoun
`Tel. (978) 261-7404, Cambridge, MA
`E-mail: marwan@intellectualinspiration.com
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`
`
`Major Highlights
`30+ years of High-Tech Industrial, Academic, Intellectual Property, Entrepreneurship, and
`Innovation Experience
` MIT Sandbox Entrepreneurship and Innovation Fund –Director of Partnerships with responsibilities
`including: Creating partnerships and customization of the MIT Sandbox entrepreneurship and
`innovation program for other institutions with near term focus on Africa; Mentoring student groups at
`MIT on entrepreneurship, innovation, technology, organization, and intellectual property strategies;
`Present workshops on technical innovation and intellectual property strategy for startups; Review
`funding proposals from aspiring startup groups and coach them through prototyping, customer
`discovery, minimum viable product and fundraising stages; Since 2019, launch a sister innovation and
`entrepreneurship program in Morocco (as Executive Director of the UM6P Explorer Innovation Fund)
`including strategic planning, lectures, workshops, training on three campuses, 250+ students and over
`20 mentors.
`Founded, co-founded, partnered, launched, and managed multiple technology startups over the last 22
`years including RocketChips, KeyEye Communications, MadMax Optics, BooksOnBoard, TraChip,
`Green Semiconductor, Intellectual Inspiration and Intelligent Metabolomics spanning various
`technology areas and markets.
` Green Semiconductor Inc., Intellectual Inspiration, Consulting: Intellectual Property, Integrated
`Circuits, SoCs. Technical evaluation of IP portfolios; Expert witness for 30+ intellectual property, trade
`secret and technology dispute cases; Development of innovation and IP protection strategies for startups
`including development of new IP; Consulting with semiconductor companies on various design and
`strategic matters. Clients include Samsung, Texas Instruments, Qualcomm, Broadcom, MediaTek,
`STMicro, nVidia, Maxim, Marvell, HTC, ZTE, LG, Comcast, ViaSat, Huawei, Palo Alto Networks,
`Power Integration, Intellectual Ventures, RPX and Western Technology Ventures.
`Senior Vice President of Engineering at KeyEye Communication, Inc. Built and lead a team of 50+
`Analog, DSP, Systems and Digital engineers distributed in Sacramento, Minneapolis, Florida, India
`and Australia to the development of industry’s lowest power 10GBASE-T solution. The complex chip
`included custom DSP, 1Gsps 9-bit quad ADCs, 1Gsps 10-bit DACs, 3.2GHz PLLs and an IFFT/FFT
`custom ultra-low power processor for Echo/Next cancellation all operating as a single system. Also
`drove the intellectual property strategy, monetized the portfolio and directly involved in fund raising
`and M&A activities.
`Sr. Director of Engineering for the Communications Technology Division at Xilinx, Inc. This includes
`a team of 60+ engineers in Austin, Minneapolis, San Jose and Ames. Responsible for producing the
`high-speed serial Multi-Gigabit Transceiver technology in the platform FPGAs (Virtex Family)
`programmable to support over 10 different serial technologies. Producing 1st pass working silicon in
`extremely advanced process technologies using innovation in architecture, circuits, redundancy,
`calibration and error correction. Awarded innovation of the year award. Served on Patent Committee.
`President & Managing Partner in TraCHip, LLC, an intellectual property company and monetized
`various patent portfolios.
`Part of establishing and managing a startup company, RocketChips, INC (investor, partner and Vice
`President of Wired Products) from inception in 1997 till $280 Million acquisition. Managed multi-
`company and multi-country (Japan, India and US) IC design products as well as major customers
`including INTEL, SONY and OKI. Major products included cutting edge high-speed serial transceiver
`technology.
` Responsible for design of power management IC products and ASICs for mobile phones while
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`Curriculum Vitae
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`Marwan Hassoun
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`consulting for Texas Instruments.
` 56 patents granted (40 US and 16 International) and 3 pending (US and International) in the areas
`of multi-gigabit serial transceivers, Programmable Logic Devices (FPGAs), high-speed high-resolution
`ADCs and DACs, Memories, RFID, DSP filters, Power Management, Machine Automation and
`Networking.
` Over 70 technical publications in National and International Journals and Conferences.
` Tenured professor in Electrical and Computer Engineering, Chair of the VLSI group and Co-Founded
`the Analog and Mixed-Signal VLSI Design Center at Iowa State University. Served as Director of the
`Center. Attracted sponsorship for the Center from major companies that include Texas Instruments,
`Honeywell, Rockwell, RocketChips, Non-Volatile Electronics and VTC.
` Established, drove, participated, and negotiated Intellectual Property Strategy at all positions since
`1994.
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`Marwan Hassoun
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`Director of Partnerships (since 2020), Mentor (since 2017)
`MIT Sandbox Innovation Fund Program
`Massachusetts Institute of Technology, Cambridge, MA
`Responsible for creating partnerships and customization of
`the MIT Sandbox
`entrepreneurship and innovation program for other institutions with near term focus on
`Africa. Launched and currently serving as Executive Director at Université Mohammed VI
`Polytechnique (UM6P Explorer Innovation Fund Program), a sister program in Morocco.
`Mar `08 – Present President, CEO and Founder
`Green Semiconductor, Inc., Austin, TX and
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`Intellectual Inspiration, Boston, MA (relocated to Boston Area June 2017)
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`IP and technology consulting firm.
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`EXPERIENCE
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`Jun `17 – Present
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`General Areas: Integrated Circuits design and productization (Analog, Digital and
`Mixed-Signal), Memories, Wired Networking, Processors, RF)
`Technical evaluation of IP portfolios; Expert witness for intellectual property, trade secret
`and technology dispute cases; Development of IP protection strategy for startups including
`development of new IP through collaboration with companies’ executives and engineers;
`Consulting with semiconductor companies on various design and strategic issues. Clients
`include Samsung, Texas Instruments, Qualcomm, Broadcom, MediaTek, STMicro, nVidia,
`Maxim, Marvell, HTC, ZTE, LG, Comcast, ViaSat, Huawei, Palo Alto Networks, Power
`Integration, Intellectual Ventures, RPX and Western Technology Ventures.
`
`Litigation Services: Since 2003 included more than 30 cases retained as an expert
`witness. The work involved testimony and expert reports on invalidity, validity, non-
`infringement, and infringement as well as IPRs. The testimony included 15 depositions
`(some included 2- and 4-day depositions) and 5 court/hearing testimonies with 28+ expert
`reports authored. List of cases are attached at the end of the CV.
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`Aug `20 – Jul `21
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`Professor of the Practice
`Department of Electrical and Computer Engineering
`Tufts University, Medford, MA
`Teaching VLSI (Very Large-Scale Integration) senior/graduate class. CMOS circuit design,
`structure of transistors, theory of operation, fabrication, state machines, FPGAs, SoCs,
`processors, memories, system timing.
`Mar `03 – Aug `12 President & Managing Partner
`TraCHip, LLC, Austin, TX
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`Private intellectual property company.
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`Mar `08 – Mar `10 Chief Technology Officer
`Abbey House Media (dba BooksOnBoard), Austin, TX
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`Web commerce and software development startup focused on digital media including
`eBooks and Audio Books.
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`Oct `05 – Mar `08 Senior Vice President of Engineering
`KeyEye Communications, Inc., Sacramento, CA
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`Jul `01 – Oct `05
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`Mar `01 – Jul `01
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`Marwan Hassoun
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`Managed and built an organization with 50+ team members (Analog, Systems, DSP, Digital,
`Verification, Physical Design) with an innovative, startup oriented, staffing strategy across
`several design sites (Sacramento, Minneapolis, India and Australia). The result is industry’s
`lowest power 10GBASE-T single chip product. In addition to the management and the
`vision, had hands-on reasonability for the power architecture, modeling and execution.
`
`Senior Director of Engineering, Communications Technology Division
`Xilinx, Inc., Austin, TX
`Managed an organization with 60+ team members across 4 sites in analog, digital and
`mixed-signal IC design, modeling, application engineering, systems engineering, product
`characterization, product engineering, production test engineering, advanced technologies,
`layout, CAD and information technology.
` Organizational and technical vision for Xilinx’s high-speed serial I/O and ASSP
`technologies (180nm, 130nm, 90nm, 65nm and 45nm generations). This includes
`contributing to the vision for UXPi, an industry initiative for evangelizing 10Gbps
`technology, and the driving of industry standards to support further products.
` Products: Virtex-II PRO X (2 family members), Virtex-4 (5 family members) and
`RocketPHY (3 non-FPGA family members).
` Technical marketing support for both the platform FPGAs and the ASSPs.
` Customer support and interaction for current and future products.
` Partnership development with several tier 1 and tier 2 companies for process
`technology, packaging, licensing, high-speed connectors, high-speed backplanes
`and design. Including establishing industry initiatives at OIF and IEEE
`committees.
`Involvement in all aspects of the production of IC design including quality
`assurance and reliability.
` Served on patent committee for the Company.
` Recipient of the innovation of the year award for the Virtex-II Pro X product.
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`Co-Founder, President and CEO
`MadMax Optics, Inc., Austin, TX
`Co-Founded the company to produce revolutionary simulation software for the optical
`component industry. Opened the main design center in Hamden, CT. Guided the company
`through the seed round financing. This included putting together a 5 year business plan,
`prospectus and investor presentations.
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`Aug `98 – Feb `01 Vice President of Wired Products
`RocketChips, INC., Austin, TX (Acquired by Xilinx, Inc. in Nov 2000)
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`Contributed to the technical, managerial, organizational and marketing leadership for the
`company’s three design centers in Minneapolis (MN), Ames (IA) and Austin (TX). Directly
`responsible for approximately 35 employees in Wired.
`- Products and IP: SERDES and PCS layers for Gigabit Ethernet (IEEE 802.3z,
`802.3ab), 2.5Gbps products for serial backplane applications (including OC-48),
`10Gbps (IEEE 802.3ae and OC-192), IEEE 1394 and high-speed high-resolution
`ADCs and DACs (80Ms/s – 250Ms/s).
`Involved with the company since its inception in January 1997 as an early investor and
`technical and product development through the Iowa State University research work.
`- Managed multi-company and multi-country (Japan, India and US) projects as well as
`major customers including INTEL, SONY and OKI.
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`Aug `96 - Jul `98
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`Contract IC Designer (Cellular and wireless ICs - power management)
`Mixed-Signal Products Group
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`Jun `95 - Jul `96
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`Marwan Hassoun
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`Texas Instruments, Dallas, TX
`Contract design for mixed-signal power management ASICs for cellular applications.
`Involved in the design, implementation and test of several high volume production
`integrated circuits (TPS202X, TPS203X, TPS204X, TPS208X and TPS209X).
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`Contract IC Designer (Analog-to-Digital Converters)
`Defense Systems & Electronics Group
`Texas Instruments, Dallas, TX
`Investigation and recommendation of a very high-speed high-resolution pipelined multi-
`path analog-to-digital converter architecture for communication applications.
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`Software Development Engineer
`Cupertino Integrated Circuits Division,
`Hewlett Packard Company
`Santa Clara, CA
`Design, implementation, and maintenance of circuit design analysis product (HPSPICE).
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`Jan `85 - Jul `86
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`ACADEMIC EXPERIENCE
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`Aug `20 - Present
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`Professor of the Practice
`Department of Electrical and Computer Engineering
`Tufts University, Medford, MA
`Teaching VLSI (Very Large-Scale Integration) senior/graduate class. CMOS circuit design,
`structure of transistors, theory of operation, fabrication, state machines, FPGAs, SoCs,
`processors, memories, system timing.
`Collaborating Professor
`Department of Electrical and Computer Engineering
`Iowa State University, Ames, Iowa
`- MS and PhD graduate students and serve on MS and PhD committees at ISU and at
`University of Texas, Austin.
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`Associate Professor with Tenure
`Department of Electrical and Computer Engineering
`Iowa State University, Ames, Iowa
`(On leave of absence from Aug 98-Jul 00. Several leaves while
` consulting for Texas Instruments)
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`Assistant Professor
`Department of Electrical and Computer Engineering
`Iowa State University, Ames, Iowa
`Research & Teaching
`Hired in 1988 by ISU to start the VLSI area in the department. This included establishing research area in
`VLSI CAD (Symbolic Circuit Analysis, Synthesis Methods for Data Converters) and Analog and Mixed-
`Signal VLSI (Data Converters, Gigabit speeds Communication Circuits, Magneto-resistive devices).
`The largest impact has been the establishment of industrial contacts and the founding of the Analog and
`Mixed-Signal VLSI Design Center. The funding commitments on which Dr. Hassoun was a PI or Co-PI
`have grown to approximately $4.3 Million by 1998.
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`2000 – 2017
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`1994 – 2000
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`1988 - 1994
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`EDUCATION
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`Jan 86 - Aug 1988 Ph.D. in Electrical Engineering, Purdue University, West Lafayette, IN.
`
`Thesis: Symbolic Analysis of Large-Scale Networks
`- Research Assistant (NSF grant) and a Teaching Assistant (VLSI area).
`Jan 84 - Dec 1984 M.S. in Electrical Engineering, Purdue University, West Lafayette, IN.
`Thesis: A Study of a Semi-Direct Method for Computer Analysis of Large-
`Scale Circuits
`- Research Assistant (IBM grant).
`Aug 80 -Dec 1983 B.S. in Electrical Engineering, South Dakota State University, Brookings, SD.
`- Teaching assistant during senior year.
`- Minor in Computer Mathematics and Computer Science
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`
`PATENTS
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`56 patents granted (40 US and 16 International) and 7 pending (US and International) in the areas
`of multi-gigabit serial transceivers, Programmable Logic Devices (FPGAs), high-speed high-
`resolution ADCs and DACs, Memories (RAM), RFID, DSP filters, Power Management, Machine
`Automation and Networking.
`
`Granted US Patents:
`1. Richard Willham, Robert Weber, Marwan Hassoun, "Livestock Record System,” U. S. Patent
`No. 5,322,034, Jun 21, 1994.
`2. Richard Willham, Robert Weber, Marwan Hassoun, "Individual Descriptive Record System,” U.
`S. Patent No. 5,499,626, Mar 19, 1996.
`3. Roy Hastings, Marwan Hassoun, Neil Gibson, Marco Corsi, “Capacitive-summing switch-mode
`power conversion control,” U. S. Patent No. 6,066,943, May 23, 2000.
`4. William Black, Marwan Hassoun, “Non-volatile magnetic circuit,” U. S. Patent No. 6,317,359,
`Nov 13, 2001.
`5. William Black, Bodhisattva Das, Marwan Hassoun, “Non-volatile spin dependent tunnel junction
`circuit,” U. S. Patent No. 6,343,032, Jan 29, 2002.
`6. Yvette Lee, Marwan Hassoun, “Segmented DAC calibration circuitry and methodology,” U. S.
`Patent No. 6,489,905, Dec 3, 2002.
`7. Yvette Lee, Marwan Hassoun, “Current source calibration circuit,” U. S. Patent No. 6,507,296,
`Jan 14, 2003.
`8. William Black, Bodhisattva Das, Marwan Hassoun, Edward Lee, “Nonvolatile programmable
`logic devices,” U. S. Patent No. 6,542,000, Apr 1, 2003.
`9. Weibiao Zhang, Marwan Hassoun, “Apparatus for and method of performing a conversion
`operation,” U. S. Patent No. 6,563,444, May 13, 2003.
`10. Justin Gaither, Marwan Hassoun, “Analog Signal Test Circuit and Method”, U. S. Patent No.
`6,653,827 B2, Nov 25, 2003.
`11. Ahmed Younis, Marwan Hassoun, “Method and System for VCO-Based Analog-To-Digital
`Conversion (ADC),” U. S. Patent No. 6,809,676 B1, Oct 26, 2004.
`12. Moises Robinson, Shahriar Rokhsaz, Marwan Hassoun, Earl Swartzlander, Jr, “Voltage
`Controlled Oscillator “, U. S. Patent No. 7,315,220, Jan 1, 2008.
`13. Moises Robinson, Marwan Hassoun, Earl Swartzlander, Jr, “Method and Apparatus for
`Capacitance Multiplication within a Phase Locked Loop”, U. S. Patent No. 7,307,460, Dec 11,
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`2007.
`14. Marwan Hassoun, Moises Robinson, David Tetzlaff, “Method and Apparatus for Redundant
`Transceiver Architecture,” U. S. Patent No. 7,408,380, Aug 5, 2008.
`15. David Tetzlaff, Erich Goetting, Steven Young, Marwan Hassoun, Moises Robinson,
`“Method and Apparatus for Providing Frequency Synthesis and Phase Alignment in an
`Integrated Circuit,” U. S. Patent No. 7,499,513, Mar 3, 2009.
`16. David Tetzlaff, Marwan Hassoun, “Method and Apparatus for Dynamic Port Provisioning
`Within A Programmable Logic Device”, U. S. Patent No. 7,598,768, Oct 6, 2009.
`17. James Little, Marwan Hassoun, David Tetzlaff, Chang-Chi Liu, “Combined echo and
`crosstalk cancellation,” U. S. Patent No. 7,920,461, Apr 5, 2011.
`18. James Little, Marwan Hassoun, David Tetzlaff, Chang-Chi Liu, “Combined echo and
`crosstalk cancellation,” U. S. Patent No. 8,488,438, Jul 16, 2013.
`19. Charles Studor, J. Kevin Nater, Marwan Hassoun, “System and method for managing the
`generation of brewed beverages using shared resources,” U. S. Patent No. 8,515,574, Aug 20,
`2013.
`20. Charles Studor, J. Kevin Nater, Marwan Hassoun, “Apparatus and method for brewed and
`espresso drink generation,” U. S. Patent No. 8,688,277, Apr 1, 2014.
`21. James Little, Marwan Hassoun, David Tetzlaff, Chang-Chi Liu, “Combined echo and
`crosstalk cancellation,” U. S. Patent No. 8,947,992, Feb 3, 2015.
`22. Charles Studor, Brent Clafferty, Stephen Miller, Marwan Hassoun, Pete Garcia, Lynn
`Hamrick, “Frothing assembly and method of operating the same,” U. S. Patent No.
`8,991,795, Mar 31, 2015.
`23. Charles Studor, J. Kevin Nater, Marwan Hassoun, “System and method for managing the
`generation of brewed beverages using shared resources,” U. S. Patent No. 8,996,178, Mar 31,
`2015.
`24. Charles Studor, Raymond Hudy, John Craparo, Marwan Hassoun, “Automated beverage
`generating system and method of operating the same,” U. S. Patent No. 9,533,866, Jan 3,
`2017.
`25. Charles Studor, J. Kevin Nater, Marwan Hassoun, “Automated beverage generation system
`and method of operating the same,” U. S. Patent No. 9,545,170, Jan 17, 2017.
`26. Shahriar Rokhsaz, Brian Young, Marwan Hassoun, “Radio frequency identification (rfid)
`moisture tag(s) and sensors with extended sensing via capillaries,” U. S. Patent No.
`9,582,981, Feb 28, 2017.
`27. Shahriar Rokhsaz, Brian Young, Ahmed Younis, John Paulos, Abhay Misra, Benjamin
`Cooke, Marwan Hassoun, “Radio frequency identification (rfid) tag(s) and sensor(s),” U. S.
`Patent No. 9,607,188, Mar 28, 2017.
`28. Shahriar Rokhsaz, Brian Young, Ahmed Younis, John Paulos, Abhay Misra, Benjamin
`Cooke, Marwan Hassoun, “Radio frequency identification (rfid) tag(s) and sensor(s),” U. S.
`Patent No. 9,748,632 Aug 29, 2017.
`29. Brian Young, Shahriar Rokhsaz, Ahmed Younis, Marwan Hassoun, “Power harvesting
`circuit and applications thereof,” U. S. Patent No. 9,768,707, September 19, 2017.
`30. Charles Studor, Raymond Hudy, John Craparo, Marwan Hassoun, “Automated beverage
`generation system and method of operating the same,” U. S. Patent No. 9,950,918, Apr 24,
`2018.
`31. Shahriar Rokhsaz, Brian Young, Marwan Hassoun, “Radio frequency identification (rfid)
`moisture tag(s) and sensors with extended sensing via capillaries,” U. S. Patent No.
`10,069,205, Sep 4, 2018.
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`32. John Craparo, Charles Studor, J. Kevin Nater, Jeffrey Mulhausen, Marwan Hassoun,
`“Facilitating beverage ordering and generation,” U. S. Patent No. 10,043,226, August 7,
`2018.
`33. Brian Young, Shahriar Rokhsaz, Ahmed Younis, Marwan Hassoun, “Power harvesting
`circuit and applications thereof,” U. S. Patent No. 10,243,479, Mar 26, 2019.
`34. Shahriar Rokhsaz, Brian Young, Ahmed Younis, John Paulos, Abhay Misra, Benjamin
`Cooke, Marwan Hassoun, “Radio frequency identification (rfid) tag(s) and sensor(s),” U. S.
`Patent No. 10,243,255, Mar 26, 2019.
`35. Charles Studor, Brent Clafferty, Stephen Miller, Marwan Hassoun, Pete Garcia, Lynn
`Hamrick, “Frothing assembly and method of operating the same,” U. S. Patent No.
`10,271,680, Apr 30, 2019.
`36. Charles Studor, Raymond Hudy, John Craparo, Marwan Hassoun, “Automated beverage
`generation system and method of operating the same,” U. S. Patent No. 10,315,908, Jun 11,
`2019.
`37. Charles Studor, J. Kevin Nater, Marwan Hassoun, “Automated beverage generation system
`and method of operating the same,” U. S. Patent No. 10,638,870, May 5, 2020.
`38. Shahriar Rokhsaz, Brian Young, Marwan Hassoun, “Radio frequency identification (rfid)
`moisture tag(s) and sensors with extended sensing via capillaries,” U. S. Patent No.
`10,734,727, Aug 4, 2020.
`39. Charles Studor, Brent Clafferty, Stephen Miller, Marwan Hassoun, Pete Garcia, Lynn
`Hamrick, “Frothing assembly and method of operating the same,” U. S. Patent No.
`10,966,565, April 6, 2021.
`40. Shahriar Rokhsaz, Brian Young, Marwan Hassoun, “Radio frequency identification (rfid)
`moisture tag(s) and sensors with extended sensing via capillaries,” U. S. Patent No.
`11,205,851, Dec 21, 2021.
`
`Granted International Patents:
`41. R. Hastings, M. Hassoun, N. Gibson, M. Corsi, “Capacitive-summing switch-mode power
`conversion control and method,” EP0993104, Jan 14, 2009
`42. R. Hastings, M. Hassoun, N. Gibson, M. Corsi, “Method and control for capacitive
`totalization in a switching part,” AT421184, Jan 15, 2009
`43. R. Hastings, M. Hassoun, N. Gibson, M. Corsi, “Method and control for capacitive
`summation in a switched-mode power supply,” DE69940292, Mar 5, 2009
`44. M. Robinson, M. Hassoun, E. Swartzlander Jr, “Method and apparatus for capacitance
`multiplication in a phase-locked loop,” JP4856191, Jan 18, 2012
`45. E. Swartzlander Jr, M. Robinson, M. Hassoun, “Method and apparatus for capacitance
`multiplication within a phase locked loop,” CN101326721, Mar 6, 2013
`46. M. Robinson, M. Hassoun, E. Swartzlander Jr, “Method and apparatus for capacitance
`multiplication within a phase locked loop,” CA2632006, Jul 16, 2013
`47. C. Studor, J. K. Nater, M. Hassoun, “Apparatus and method for brewed and espresso drink
`generation,” EP2651270, Feb 15, 2017
`48. C. Studor, J. K. Nater, M. Hassoun, “Apparatus and method for brewed and espresso drink
`generation,” CN103596473, May 17, 2017
`49. C. Studor, R. Hudy, J. Craparo, M. Hassoun, “Automated beverage production system and
`method of operating the same,” JP6262329, Jan 17, 2018
`50. C. Studor, J. K. Nater, M. Hassoun, “Apparatus and method for brewed and espresso drink
`generation,” KR101859595, May 18, 2018
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`51. J. Craparo, C. Studor, J. K. Nater, J. Mulhausen, M. Hassoun, “Promotion of ordering and
`production of beverages,” JP6409119, Oct 17, 2018
`52. C. Studor, J. K. Nater, M. Hassoun, “Apparatus and method for brewed and espresso drink
`generation,” KR101970614, Apr 19, 2019
`53. C. Studor, J. K. Nater, M. Hassoun, “Automatic beverage production system, method and
`storage medium,” JP6672135, Mar 25, 2020
`54. J. Craparo, C. Studor, J. K. Nater, J. Mulhausen, M. Hassoun, “Beverage ordering and
`production promotion,” JP6686089, Apr 22, 2020
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`
`GRANTS AND CONTRACTS
`-During academic career from 1988 – 1998, secured 25 research grants while at Iowa State
`University and as part of the Analog and Mixed-Signal VLSI Design Center totaling
`approximately $4.3 Million from 1988- 1998. The sponsors included: Texas Instruments,
`Honeywell, Rockwell, RocketChips, Computing Devices International, Control Data
`Corporation (CDC), Defense Advanced Research Projects Agency (DARPA), National
`Science Foundation, Carver Trust Foundation, US Department of Education, Center for
`Non-Destructive Evaluation
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`
`1. Co-Principal Investigator (with Black, W., Lee, E. and Geiger, R.), “Mixed-Signal Circuits
`Laboratory,” Carver Trust Foundation, $1,000,000 (includes $500,000 required matching
`from Iowa State University), August 1998 - July 2000.
`2. Principal Investigator (with Geiger, R., Black, W. and Lee, E.), “Analog and Mixed-Signal
`Center Membership,” Texas Instruments, Inc., $1,000,000, Jan 1998 - Dec 2000
`(continuation of grant 9).
`3. Co-Principal Investigator (with Black, W., Lee, E.K.F. and Geiger, R.), “High Density and
`Low-energy Magneto-resistive Memory Circuits,” Honeywell, Inc. (DARPA), $151,091, Sep
`1997 - Dec 1998.
`4. Co-Principal Investigator (with Geiger, R., Black, W., Lee, K., Wright, C.), “Restructuring
`Basic Electronic Circuits Education Around Integrated Circuit Technology of the 1990s,"
`National Science Foundation Instrumentation and Laboratory Infrastructure Program
`$200,000, Aug 1997 - Jun 1999.
`5. Co-Principal Investigator (with Black, W., Geiger, R., Lee, E.), Honeywell, Inc. (DARPA),
`$22,400, "Testing of Magneto-resistive Structures," Feb 1997 - April 1997 (continuation of
`grant 8).
`6. Co-Principal Investigator (with Black, W., Geiger, R., Lee, E, Bergland, D., Sapatnekar, S.,
`Tridandapani, S. and Weber, R.), "Gigabit Silicon Integrated Circuits," RocketChips, Inc.,
`$1,000,000, Jan 1997 - Dec 2001.
`7. Principal Investigator, “Linear IC Product Design”, Texas Instruments, Dallas, TX, $110,000,
`Sep 96 - Aug 97.
`8. Co-Principal Investigator (with Black, W., Geiger, R., Lee, E., Honeywell, Inc. (DARPA),
`$100,000, "Magneto-resistive Memories," May 1996 - April 1997.
`9. Co-Principal Investigator (with Geiger, R., Black, W., Hassoun, M., and Lee, E., Texas
`Instruments, Inc., $450,000, "Analog and Mixed-Signal Center Membership," Jan 1996 - Dec
`1998.
`10. Principal Investigator (with Geiger, R., Lee, E. and Black, W., Rockwell International Inc.,
`$300,000, "Analog and Mixed-Signal Center Membership," Aug 1996 - Dec 1999.
`11. Principal Investigator, “Verification of a Pipeline Analog to Digital Converter for
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`Communication”, Texas Instruments, Dallas, TX, $10,017, Jan 96 - Aug 96 (continuation of
`grant 11).
`12. Principal Investigator, “Pipeline Analog to Digital Converter for Communication”, Texas
`Instruments, Dallas, TX, $27,755, Aug 95 - Aug 96.
`13. Principal Investigator, “An Investigation of a Pipelined Analog-to-Digital Converter”, Texas
`Instruments, Dallas, TX, $37,105, Jun 95 - Aug 95.
`14. Co-Principal Investigator (with Richard Hester), “Low Power Analog-To-Digital Converter”,
`Texas Instruments, Dallas, Texas, $27,000, Aug 93 - May 95.
`15. Principal Investigator (with Jim Davis), "High Speed Multi-Protocol ActiveBus Prototype
`Development,” Computing Devices International, Bloomington, Minnesota, $2,500, Aug 93-
`Dec 93 (continuation of grant 16).
`16. Principal Investigator (with Jim Davis), "High Speed Multi-Protocol ActiveBus Prototype
`Development,” Computing Devices International, Bloomington, Minn, $15,000, Aug 92-Aug
`93.
`17. Co-Principal Investigator (with V. Dalal, S. Burns, H. Hsieh, R. Weber, P. Garikepati),
`"Graduate Assistance in Microelectronics and Photonics," Department of Education,
`Washington, D.C., $351,000, Aug 90-Aug 93.
`18. Principal Investigator, "Symbolic Analysis of Nonlinear Large-Scale Systems," Engineering
`Research Institute, Ames, Iowa, $3,848, Oct 92- Jul 93.
`19. Faculty Associate (with Charles Wright, Jr.), "A laboratory to Support Computer-Aided Digital
`Systems Design," National Science Foundation Instrumentation and Laboratory Improvement
`Program, $218,317, Aug 90-Aug 92.
`20. Principal Investigator, "Symbolic Sensitivity Analysis of Large-Scale Circuits," University
`Research Initiation Grant, Ames, Iowa, $6,600, Jul 91-Jun 92.
`21. Principal Investigator, "Symbolic Circuit Simulation in the Time Domain," Engineering
`Research Institute, Ames, Iowa, $4,240, Oct 91- Jun 92.
`22. Principal Investigator, "Application of VLSI Circuit Partitioning Technique to Dynamic
`Clustering of Distributed Multiprocessor Systems," Engineering Research Institute, Ames,
`Iowa, $1,660, Oct 90-Jun 91.
`23. Co-Principal Investigator (with Art Pohm and Jim Davis), "Design of a New High Speed Serial
`Bus,” Control Data Corporation (CDC), Minneapolis, Minnesota, $114,000, Aug 89-Dec 91.
`24. Principal Investigator, "Investigation Proposal for Hardware Implementation of Non-
`Destructive Evaluation software," Center for Non-Destructive Evaluation, Ames, Iowa,
`$5,000, Aug 89-Jun 90.
`25. Principal Investigator, "ASIC Hardware for Image Processing Applications," Engineering
`Research Institute, Ames, Iowa, $4,000, Oct 89- Jun 90.
`
`
`GRADUATE STUDENTS
`
`Major Professor for 26 Graduate Students (8 PhDs and 20 MS (all thesis option)) from 1988 –
`2005.
`
`TECHNICAL PUBLICATIONS
`
`Authored or co-authored over 70 technical publications in Technical Journals, Conferences and
`six chapters of three different books on circuit analysis.
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`Refereed Journals
`1. Jorgenson, J., Hassoun, M., Hsu, H., “Breakdown Verification for Fault Modeling in Laminate
`Microstrip Conductors," International Journal of Microelectronics and Electronic Packaging.
`2. Zhang, R., Hassoun, M., Black, W., Das, B, Wong, K, “Demonstration of a Sensing Four States
`From A Single Pseudo-Spin Valve GMR Device," IEEE Transactions on Magnetics.
`3. Shah, J., Younis, A., Sapatnekar, S., Hassoun, M., “A New Method for the Analysis of Power
`and Ground Busses and its Symbolic Implementation," IEEE Transactions on Circuits and
`Systems II.
`4. Hassoun, M. M., Black, W., Lee, K. F., and Geiger, R. L., “Field Programmable Logic Gates
`Using GMR Devices," IEEE Transactions on Magnetics, September 1997.
`5. Hassoun, M. M. and Lin, P. M., "A New Method for Symbolic Analysis of Large-Scale
`Networks," IEEE Transactions on Circuits and Systems I, March 1995.
`6. Ranmuthu, I., Ranmuthu, K., Pohm, A., Kohl, C., Comstock, C. and Hassoun, M., "A Sensing
`Scheme for Giant Magneto-Resistive Memories," IEEE Transactions on Magnetics, VOL 30,
`No. 5, September 1994.
`7. Hassoun, M. M., Atawale, P., “Hierarchical Symbolic Analysis On A Ncube Multi-
`Processor," Alta Frequenza , (top Italian technical Journal in EE), invited submission, VOL
`5, No. 6, December 1993, pp. 56-64.
`8. Ranmuthu, K., Ranmuthu, I., Pohm, A., Comstock, C. and Hassoun, M., "High Speed (10-
`20ns) Nonvolatile MRAM with Folded Storage Elements," IEEE Transactions on Magnetics,
`VOL 28, No. 5, September 1992, pp. 2359-2361.
`9. Hassoun, M. M. and McCarville, K., "Hierarchical Symbolic Signal-Flow Graph Analysis,"
`Journal of Analog VLSI and Signal Processing, Kluwer Publishing, January 1993, pp. 31-42,
`invited submission.
`10. Ranmuthu, I., Ranmuthu, K., Kohl, C., Comstock, C. and Hassoun, M., "A 512 Kbit Magneto
`Resistive Memory with Switched Capacitor Self Referencing Sensing Scheme," IEEE
`Transactions on Circuits and Systems II, VOL. 39, NO. 8, August 1992, pp. 585-587.
`11. Ranmuthu, K., Ranmuthu, I., Pohm, A., Comstock, C. and Hassoun, M., "10-35 Nanosecond
`Magneto-Resistive Memories," IEEE Transactions on Magnetics, VOL. 26, No. 5, Sep 1990,
`pp. 2532-2534.
`12. Ranmuthu, I., Ranmuthu, K., Pohm, A., Comstock, C. and Hassoun, M., "Reprogrammable
`Logic Array Using M-R Elements," IEEE Transactions on Magnetics, VOL. 26, No. 5, Sep
`1990, pp. 2828-2830.
`
`Refereed Proceedings Articles
`
`13. Zhang, W., Hassoun, M., “A Redundant-Cell-Relay Continuous Self-Calibration Method for
`Current-Steering DACs,” European Solid-State Circuits Conference, Villach, Austria,
`September 2001.
`14. Xia, H., Hassoun, M., “An analog self-calibration algorithm for multibit per stage pipelined
`Analog to Digital Converters,” Proceedings of the Midwest Symposium on Circuits and
`Systems, Dayto