January, 2019

Michael William Haney: Curriculum Vitae Education:

Ph.D., Electrical Engineering (1986) California Institute of Technology, Pasadena, CA Thesis: "Acousto-Optical Time-and-Space Integrating Processors for Real-Time Synthetic Aperture Radar."

MS, Electrical Engineering (1978) University of Illinois, Urbana, IL Master's Thesis: "An Electron Gun for the Acceleration of Frozen Hydrogen Pellets by Ablation."

BS, Physics (1976) University of Massachusetts, Amherst, MA

Employment History (with highlights of responsibilities and achievements): 2014-present: Program Director, Advanced Research Projects Agency – Energy (ARPA-E)

(full-time assignment from the University of Delaware) Developing and managing a portfolio of R&D programs focused on advancing solar cell, lighting, and energy-efficient computing systems via the integration of micro-scale technology. Program development and management activities include: “ENLITENED,” “OPEN 2015,” “MOSAIC,” and “SOLAR ADEPT.” Current funding commitments for portfolio are ~$25M/year.

2001-present: Professor, Electrical and Computer Engineering, University of Delaware 2001-4: Lead PI and Associate Center Director for intra-chip interconnect research thrust in DARPA University Opto-Centers Program (involved several faculty from UD and other universities); 2001-5: Concept originator and co-PI for large “VIVACE” industry/university team (Honeywell prime, UD as key subcontractor) on multi-chip free-space optical interconnect architecture that motivated the development of hybrid integrated dense VCSEL/PD arrays on Silicon; 2005-6: Lead contributor to critical micro-optics-based solar concentrator section in DARPA’s Very High Efficiency Solar Cell proposal and developer of key ideas for several micro-concentrator patent applications during program; 2010-15: Co-PI for DARPA study on “Optical Computational Primitives,” 3-year collaboration with Sandia’s “Grand Challenge” IRAD and ONR-sponsored projects on “Microsystems Enabled Photovoltaics” – contributing micro-optical design and system performance analysis.

2006-2010: Program Manager, DARPA/Microsystems Technology Office (full-time assignment from the University of Delaware) Developed and managed a large portfolio of R&D programs that advanced the technology and expanding the application domain of Photonic Integrated Circuits for: Energy-efficient interconnects and switching (“C2OI” and “DOD-N” programs); Integrated sub-wavelength-scale lasers (“NACHOS” program); Programmable analog filtering (“PhASER” and “Silicon PhASER” programs);

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Remote sensing with optical phased arrays (“SWEEPER” program); Coherent optical processing, chip-scale bio-sensing, and neuro-photonics (“CIPhER” university center program). Also developed various SBIRs/STTRs and seedling projects in integrated photonic/optical micro-systems for imaging, integrated micro-solar concentration (“Sun-DIALER” program), bio-sensing, and optical signal processing, photonic computing, and photonic interconnects.

1998-2006: Co-founder, Applied Photonics, Inc., Fairfax, VA Led several efforts in free-space optical interconnects engineering analysis and prototype development for industrial and government customers.

1994-2001: Associate Professor Department of Electrical and Computer Engineering

George Mason University, Fairfax, VA PI or co-PI for multiple R&D efforts in industry/university teams on optical signal processing, inter-chip VCSEL-based optical interconnects, and micro-mirror array-based sensor signal processing; lead PI for DARPA “FAST-Net” program that advanced free-space interconnect technology and led to subsequent Honeywell-led VIVACE demonstration program.

1986-1994: Senior Principal Staff Member, Director of Photonics Programs BDM Federal, Inc., McLean, VA Developed multiple sponsored research programs including RAPID SAR optical radar signal processing and FIND folded free-space interconnects programs.

1978-1986: Staff Member and then Group Leader, Optoelectronic Signal Processing General Dynamics Corp., Pomona, CA (note: part-time positions while at Caltech). Led group of 7 engineers and co-directed several IRAD and CRAD efforts in optical signal processing IR sensor development.

Overview of Research: Interests span the application of photonics technologies for efficient computing, switching, signal processing, and power conversion. A recurrent theme is the development of “multi-scale” optical system concepts (i.e., those that combine micro- through macro-optical-sized elements) that enable and optimize the exploitation of new photonic active technologies, such as integrated VCSEL arrays, micro-mirror arrays, and multiple quantum well modulator-based transceiver arrays. Research activities include: New miniature solar cell concentrator concepts that are co-designed with novel integrated lateral cell concepts; New chip-scale photonic computer interconnection technologies and architectures; and flat form-factor camera approaches that exploit integrated micro-mirror technology.

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Professional Affiliations, Awards, and Conference Leadership Activities:

Fellow of the Optical Society of America (2000), Senior Member of IEEE Photonics Society

2011-13 Chairman of IEEE Photonics Society’s Annual Meeting Sub-committee for “Optical Interconnects.”

2010 Awarded: “Office of the Secretary of Defense Medal for Exceptional Public Service” for achievements while at DARPA.

2002-5 Founding Director of Photonics Center at the University of Delaware.

2002 Lead Guest Editor for IEEE Journal of Selected Topics in Quantum Electronics special issue on Optical Interconnects

2001-2 IEEE-LEOS Co-chair for 2002 LEOS Annual Meeting sub-committee on Optical Interconnects and Processing Systems

2000 Associate Director of one of DARPA’s 4-year Optoelectronics Centers: lead the Center’s Photonic “System-on-a-Chip” research thrust

2000 Co-guest Editor, IEEE Proceedings Special Issue on Optical Interconnections for Digital Systems (published June, 2000)

1999 Vice Chair, OSA Optical Computing Technical Group

1999 Program Co-chair for Parallel Interconnects’99 (formerly known as MPPOI)

1999 Co-Chair: Symposium on Optics in Computing, Optical Society Annual Meeting

1995-8 Chair, IEEE Comm. Soc. Tech. Committee on High-speed Digital Interconnections

1996 Chair, Optical Packaging Symposium, Optical Society Annual Meeting

1993 Conference Chair for IEEE Workshop on Interconnections within High-Speed Digital Systems

1992-4 Co-Chair of SPIE's Conference on Very Large Optical Memories: Materials and System Architectures

1991-2 Member of NSF Site Evaluation Team for University of Illinois's Engineering Research Center on Compound Semiconductor Microelectronics

1989 Co-chair of SPIE's Conference on Millimeter Wave and Synthetic Aperture Radar

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PhD Students Graduated:

University of Delaware:

• Tian Gu (2012) • Rohit Nair (2012) • Muzammil Iqbal (2006) • Michael McFadden (2005)

George Mason University:

• Pelin Aksoy (2005) • Predrag Milojkovic (2001) • Marc Christensen (2001)

Refereed Journal Publications and Book Chapters:

1. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, Experimental characterization of phase tuning using fine wavelength offsets in a tunable complex-coefficient optical tapped-delay-line, Optics Letters, Vol. 39, No. 4, 02/2014.

2. B. H. Jared, M. P. Saavedra, B. J. Anderson, R.S. Goeke, W. C. Sweatt, G. N. Nielson, M. Okandan, B. Elisberg, D. Snively, J.Duncan, T. Gu, G. Agrawal, and M. W. Haney, “Micro-concentrators for a microsystems-enabled photovoltaic system,” Optics Express, Vol. 22, Issue S2, pp. A521-A527 (2014).

3. Mohammad Reza Chitgarha, Salman Khaleghi, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, "Coherent Correlator and Equalizer using a Reconfigurable All-Optical Tapped Delay Line,"Optics Letters, vol. 38, no. 13, pp. 2271-2273, 2013.

4. Tian Gu, Rohit Nair, and Michael W. Haney,“Chip-Level Multiple Quantum Well Modulator-Based Optical Interconnects,” IEEE Journal of Lightwave Technology, Vol. 31, Issue 24, pp. 4166-4174 (2013).

5. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner Reconfigurable optical quadrature amplitude modulation converter/encoder using a tunable complex coefficient optical tapped delay line, Optics Letters, Vol. 38, No. 10, 05/2013.

6. Lan Li, Yi Zou, Hongtao Lin, Juejun Hu, Xiaochen Sun, Ning-Ning Feng, Sylvain Danto, Kathleen Richardson, Tian Gu, and Michael Haney, “A Fully-Integrated Flexible Photonic Platform for Chip-to-Chip Optical Interconnects,” IEEE Journal of Lightwave Technology, Vol. 31, Issue 24, pp. 4080-4086 (2013)

7. Mohammad Reza Chitgarha, Salman Khaleghi, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, ``Demonstration of channel-spacing-tunable demultiplexing of optical orthogonal-frequency-division-

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multiplexed subcarriers utilizing reconfigurable all-optical discrete Fourier transform,'' OSA Optics Letters 37, 3975-3977 (2012)

8. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, ``Experimental performance of a fully tunable complex-coefficient optical FIR filter using wavelength conversion and chromatic dispersion,'' OSA Optics Letters 37, 3420-3422 (2012).

9. Salman Khaleghi, Omer F. Yilmaz, Mohammad Reza Chitgarha, Moshe Tur, Nisar Ahmed, Scott R. Nuccio, Irfan M. Fazal, Xiaoxia Wu, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, ``High-Speed Correlation and Equalization Using a Continuously Tunable All-Optical Tapped Delay Line,'' IEEE Photonics Journal, vol. 4, no.4, pp.1220-1235, August 2012.

10. R. Nair, K. W. Goossen, M. W. Haney, “Dual-prism coupler for board-level free-space optical interconnects: Design and simulations,” Optical Engineering, Vol. 51, No. 4, April 2012.

11. M. Haney, “Comments on ‘Design and characterization of thin multiple aperture infrared cameras,” Applied Optics, Vol. 50, No. 11, 10 April 2011, pp. 1584-1586.

12. T. Gu, R. Nair, and M. W. Haney, “Prismatic Coupling Structure for Intrachip Global Communication,” IEEE Journal of Quantum Electronics, vol. 45, no. 4, 388-395, April 2009.

13. M. J. McFadden, M. Iqbal, T. Dillon, R. Nair, T. Gu, D. W. Prather, and M. W. Haney, “Optical Interconnects for Intra-chip Global Communication: Motivation, Analysis and Experimental Validation,” in Feature Issue of Applied Optics on Information Photonics, Vol. 45, No. 25, September 2006, pp. 6358-6366.

14. P. Milojkovic, M. P. Christensen, and M. W. Haney, “Tradeoffs between Lens Complexity and Real Estate Utilization in a Free space Multi-chip Global Interconnection Module,” Journal of the Optical Society of America A, Vol. 23, No. 7, July 2006, pp. 61787-61795.

15. Marc P. Christensen, Vikrant Bhakta, Dinesh Rajan, Tejaswini Mirani, Scott C. Douglas, Sally L. Wood, and Michael W. Haney, “Adaptive Flat Multi-resolution Multiplexed Computational Imaging Architecture utilizing Micro-mirror arrays to Steer Sub-imager Fields-of-view,” Applied Optics Special Issue on Task Specific Sensing, Vol. 45, No. 13, May 2006, pp. 2884-2892.

16. M. W. Haney, “Performance Scaling in Flat Imagers,” Applied Optics Special Issue on Task Specific Sensing, Vol. 45, No. 13, May 2006, pp. 2901-2910.

17. Y. Zuo, F. Kiamilev, P. Gui, J. Ekman, X. Wang, M. J. McFadden, and M. W. Haney “Power-efficient dual-rate optical transciever,” Applied Optics, Vol. 44, Issue 33, pp. 7112-7124, November 2005

18. X. Wang, F. Kiamilev, G. C. Papen, J. Ekman, P. Gui, M. J. McFadden, J. C. Deroba, M. W. Haney, C. Kuznia “Performance-based adaptive power optimization for digital optical interconnects,” Applied Optics, Vol. 44, Issue 29, pp. 6240-6252, October 2005.

19. P. Gui, F. Kiamilev, X. Wang, M. J. McFadden, C. Kuznia, J. Ekman, J. Deroba, M. W. Haney, "A Source-Synchronous Double Data Rate (DDR) Optical Transceiver IC", IEEE Transactions on VLSI Systems, Vol. 13, Issue 7, July 2005.

20. M. W. Haney, M. J. McFadden, M. Iqbal, D. W. Prather, T. Dillon, “Optical Interconnects: A Potential Solution to the Intrachip Interconnect Problem?” IEEE LEOS Newsletter “Hot

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Topics” Article, June, 2005. 21. Joseph N. Mait, M. W. Haney, Keith W. Goossen, and Marc P. Christensen, “Shedding

Light on the Battlefield: Tactical Applications of Photonic Technology,” Defense & Technology Paper Series (number 7), Center for Technology and National Security Policy, National Defense University, November 2004.

22. P. Gui, F. Kiamilev, X. Wang, M. J. McFadden, M. W. Haney, C. Kuznia, "A 2-GB/s 0.5mm Parallel Optical Transceiver with Fast Power on Capability," Journal of Lightwave Technology, Vol. 22, No. 9, September 2004.

23. X. Wang, F. Kiamilev, P. Gui, J. Ekman, G. C. Papen, M. J. McFadden, M. W. Haney, C. Kuznia, "A 2-Gb/s Optical Transceiver With Accelerated Bit-Error-Ratio Test Capability," Journal of Lightwave Technology, Vol. 22, No. 9, September 2004.

24. M. W. Haney, H. Thienpont, and T. Yoshimura, “Introduction to the Special Issue on Optical Interconnects,” IEEE Journal of Special Topics in Quantum Electronic, Vol. 9, No. 2, March/April 2003, pp. 347-349.

25. M. Christensen, P. Milojkovic, M. J. McFadden, and M. W. Haney, “Multi-scale optical design for global chip-to-chip optical interconnections and misalignment tolerant packaging,” IEEE Journal of Special Topics in Quantum Electronic, Vol. 9, No. 2, March/April 2003, pp. 548-556.

26. P. Chandramani, P. Gui, J Ekman, X. Wang, F. Kiamilev, M. Christensen, P. Milojkovic, M. Haney, J Anderson, K. Driscoll, B Vanvoorst, “Design of a Multi-Gigabit Optical Network Interface Card,” IEEE Journal of Special Topics in Quantum Electronic, Vol. 9, No. 2, March/April 2003, pp. 636-646.

27. M. P. Christensen, M. J. McFadden, P. Milojkovic, M. W. Haney, “Experimental Validation of a Hybrid Micro/Macro-optical Method for Distortion Removal in Free-space Optical Interconnections,” Applied Optics, Vol. 41, Issue 35, December 2002, pp 7480-7486.

28. M. P. Christensen, P. Milojkovic, M. W. Haney, “Analysis of a Hybrid Micro/Macro-optical Method for Distortion Removal in Free-space Optical Interconnections,” JOSA A, Vol. 19, No. 12, December 2002 pp 2473.

29. M. P. Christensen, G. Euliss, M. J. McFadden, K. M. Coyle, P. Milojkovic, M. W. Haney, J. van der Gratch, R. Athale, “ACTIVE-EYES: An Adaptive Pixel-by-Pixel Image Segmentation Sensor Architecture for High Dynamic Range Hyperspectral Imaging,” in Feature Issue of Applied Optics on Integrated Analysis and Design of Analog and Digital Processing in Imaging Systems, Vol. 41, Issue 29, October 2002, pp. 6093.

30. (Invited Paper) M. W. Haney, M. P. Christensen, P. Milojkovic, G. Fokken, M. Vickburg, B. Gilbert, J. Rieve, J. Ekman, P. Chandramani, F. Kiamilev, “Description and Evaluation of the FAST-Net Smart Pixel-based Optical Interconnection Prototype,” IEEE Proceedings Special Issue on Optical Interconnections for Digital Systems, Vol. 88, No. 7, June, 2000, pp. 819-828.

31. M. W. Haney, M. P. Christensen, P. Milojkovic, J. Ekman, P. Chandramani, R. Rozier, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, “Multi-chip Free-space Global Optical Interconnection Demonstration with Integrated Arrays of Vertical-Cavity Surface-Emitting Lasers and Photodetectors,” Applied Optics, Vol. 38, No. 29, October 1999, pp. 6190-6200.

32. M. P. Christensen, P. Milojkovic, and M. W. Haney, “Low-distortion Hybrid Optical Shuffle Concept,” Optics Letters, Vol. 24, No. 3, February 1, 1999, pp. 169-171.

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33. M. W. Haney, M. P. Christensen, P. Milojkovic, J. Ekman, P. Chandramani, R. Rozier, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, J. Nohava, E. Kalweit, S. Bounnak, T. Marta, B. Walterson, “FAST-Net Optical Interconnection Prototype Demonstration,” Journal of Optics A, Pure and Applied Optics 1 (1999), pp. 228-232.

34. M. W. Haney and M. P. Christensen, “Performance Scaling Comparison for Free-space Optical and Electrical Interconnection Approaches,” Applied Optics, special issue on Optics in Computing, Vol. 37, No. 14, May, 1998, pp. 2886-2894.

35. M. P. Christensen and M. W. Haney, “Two-Bounce Optical Arbitrary Permutation Network,” Applied Optics, special issue on Optics in Computing, Vol. 37, No. 14, May, 1998, pp. 2879-2885.

36. M. W. Haney and M. P. Christensen, “Sliding Banyan Network Performance Analysis,” Applied Optics, Vol. 36, No. 11, April, 1997, pp. 2334-2342.

37. R. R. Michael, M. P. Christensen, and Michael W. Haney, “Experimental Evaluation of the 3-D Optical Shuffle Module of the Sliding Banyan Architecture.,” Journal of Lightwave Technology, Vol. 14, No. 9, September 1996, pp. 1970-1978.

38. M. W. Haney and M. P. Christensen, “Sliding Banyan Network,” Journal of Lightwave Technology, Vol. 14, No. 5, May 1996, pp. 703-710.

39. (Book Chapter) C. S. Anderson, M. W. Haney, and J. P. Pellegrino, "Signal Delay and Compression," in: Acousto-optic Signal Processing: Theory and Implementation, 2nd Edition, publisher: Marcel Dekker, Inc. (1995), pp. 401-446.

40. (Invited Paper) M. W. Haney, “Compact Acousto-optic Processor for Synthetic Aperture Radar Image Formation,” Proceedings of IEEE, Vol. 82, No. 11, November, 1994, pp. 1735-1748.

41. M. W. Haney, "Self-similar Grid Patterns in Free-space Shuffle/Exchange Networks," Optics Letters, Vol. 18, No. 23, December 1, 1993, pp. 2047-2049.

42. R. A. Athale and M. W. Haney, "Optical Implementation of Numerical Inequality and its Application to Database Machines," Optics Letters, Vol. 17, No. 22, November 15, 1992, pp. 1611-1613.

43. M. W. Haney, "Pipelined Optoelectronic Free-Space Permutation Network," Optics Letters, Vol. 17, No. 3, February 15, 1992, pp. 282-284.

44. M. W. Haney and J. J. Levy, "Optically Efficient Free-space Folded Perfect Shuffle Network," Applied Optics, Vol. 30, No. 20, July, 1991, pp. 2833-2840.

45. (Invited Paper) M. W. Haney, R. A. Athale, and R. A. Geesey, "Optical Techniques for Increasing the Efficiency of Heuristic Search," Optical Engineering, Vol. 28, No. 4, April, 1989, pp. 417-424.

46. M. L. Heinrich, R. A. Athale, and M. W. Haney, "Numerical Optical Computing in the Residue Number System with Outer-product Lookup Tables," Optics Letters, Vol. 14, No. 16, August 15, 1989, pp. 487-489.

47. M. Haney and D. Psaltis, "Real-time Acousto-optic Spot-light Mode SAR Processor," Applied Optics, Vol. 27, No. 9, May 1988, pp. 1786-1796.

48. C. W. Stirk, R. A. Athale, and M. W. Haney, "Folded Perfect Shuffle Optical Processor," Applied Optics, Vol. 27, No. 2, January 1988, pp. 202-203.

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49. (Book Chapter) D. Psaltis and M. Haney, Book Chapter: "Real-time Synthetic Aperture Radar Processors," in: Optical Signal Processing, J. Horner ed., Academic Press, 1987, pp. 191-216.

50. M. Haney and D. Psaltis, "Measurement of the Temporal Coherence Properties of Pulsed Laser Diodes," Applied Optics, Vol. 24, No. 13, July 1985, pp. 1926-1932.

Patents Issued: 1. 5,467,211, “Optoelectronic Sliding Banyan Network” (1995)

2. 6,326,600, “Low-distortion Global Optical Interconnection Module” (2001) 3. 7,526,159, “Method and Apparatus for Coupling Spatial Light Modulators” (2009) 4. 7,873,280, “Method and apparatus for free-space optical interconnects between arbitrary

locations in a field using lenses, steering elements and a curved reflecting surface” (2011)

5. 8,903,204, “Optical Interconnect Systems and Methods” (2014) Pending Patent Applications: 1. Micro-scale optical sensing and methods for making the same (Inventors: T. Gu and M. W.

Haney, Patent application number: 61/924,940, 01/08/2014). 2. Dispersive optical systems and methods and related electricity generation systems and

methods (Inventors: T. Gu and M. W. Haney, Patent application number: 14/075,368, 11/08/2013).

3. Methods and apparatuses for hybrid photovoltaic systems (Inventors: T. Gu, M. W. Haney, Gautam Agrawal, Patent application number: 61/787,079, 03/15/2013).

4. T. Gu and M. W. Haney, Dispersive optical systems and methods and related electricity generation systems and methods (2012).

5. T. Gu and M. W. Haney, Ultra-compact dispersive concentrating photovoltaics (2012), UD12-30.

6. M. W. Haney, T. Gu and J. Hu, Minimum mass solar tracking and reconfigurable micro-concentrator (2012), UD12-15.

7. J. Hu, L. Li, Lin, H. Zou, Yi, M. Haney, Integrated Flexible Glass Photonics (October, 2012), UD13-01.

8. M. McFadden and M. Haney, “Ultra and very high efficiency solar cells,” 2010. 9. R. Nair, T. Gu and M. W. Haney, “Dual-channel optical multiplexer and 4-level optical

pulse amplitude modulator,” 2010.

10. T. Gu and M. W. Haney, “Integrated concentrating photovoltaics,” 2010 11. T. Gu, R. Nair and M. W. Haney, “Multi-reflection prismatic coupling structures and

tapered remote couplers for optical interconnections,” 2010. 12. T. Gu, R. Nair and M. W. Haney, “Method and apparatus for modulator-based optical

interconnections, (Vertical prismatic coupling fabrics for optical interconnections),” 2009.

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Invited, Keynote, and Plenary Conference Presentations:

1. M. W. Haney “The ARPA-E ENLITENED Program: Making Datacenters More Efficient Through Integrated Photonics,” 44th European Conference on Optical Communications, Sept. 24, 2018, Rome, Italy.

2. (Plenary Talk) M. W. Haney “Can Co-packaged Integrated Photonics Make Datacenters More Efficient?,” IEEE Photonics in Switching and Computing Conference, Sept. 19, 2018, Limassol, Cyprus.

3. M. W. Haney and Zigurts Majumdar, “Micro-scale non-imaging concentration approaches being developed in the ARPA-e MOSAIC Program,” SPIE Optics and Photonics, 10758-1 (Non-imaging Optics XV), August 19, 2018, San Diego, CA.

4. (Plenary Talk) M. W. Haney “The ARPA-E ENLITENED Program: Will Co-Packaged Integrated Photonic Interconnects Transform Future Data-Centers?” IEEE Optical Interconnects Conference, paper MA.1, June 4, 2018, Santa Fe, NM.

5. M. W. Haney, “The ARPA-E MOSAIC Program: Advancing Micro-scale Concentrated Photovoltaics, OSA Energy and the Environment Congress, Nov. 8, 2017.

6. M. W. Haney, “Photonics in Data Centers,” IEEE IPC Conference, Oct. 1, 2017. 7. M. W. Haney, “Integrated Photonic Networks for Data Centers - the ARPA-e ENLITENED

Program, OSA Photonic Devices and Networks Topical Meeting, July 26, 2017. 8. M .W. Haney, “Can Micro-CPV Technology Change the Paradigm of Flat-Plate PV?” IEEE

PVSC, June 28, 2017. 9. M. W. Haney, “Integrated Photonic Networks for Data Centers - Overcoming the Chip-scale

I/O Performance Barriers,” ITHERM Conference, May 31, 2017. 10. M. W. Haney, Hybrid PV/CSP and Micro-concentrated Solar PV Programs at ARPA-E, MRS

Annual Spring Meeting, April 19, 2017. 11. M. W. Haney, “Integrated Photonic Networks for Data Centers - the ARPA-e ENLITENED

Program,” OIDA Workshop on Manufacturing Trends for Integrated Photonics, March 19, 2017.

12. M. W. Haney “The Last Mile - Can we realize the ~10,000X wireless energy reduction opportunity?” ARPA-E Energy Summit, March 1, 2017.

13. M. W. Haney “Can Integrated Photonics Light the Pathway to Energy-efficient Data Centers?” ARPA-E Summit, Feb. 29, 2016.

14. (Plenary Talk) M. W. Haney “Can integrated micro-optical concentrator technology revolutionize flat-plate photovoltaic solar energy harvesting?” Power MEMS Conference, Dec. 2, 2015, Boston, MA.

15. M. W. Haney, “Can Integrated Photonics Technology Transform Data-Centers?” IEEE Integrated Photonics Conference, paper TuG2.1, Oct. 6, 2015, Reston, VA.

16. M. W. Haney, “Can micro-scale concentrated photovoltaics be a technologically disruptive approach to flat-panel solar cells?”, Interagency Power Working Group Meeting on Renewable Energy, Washington, DC, March 26, 2015.

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17. M. W. Haney, “Can Integrated Micro-optics Transform Flat Panel Solar Cells?,” ARPA-E Summit, Feb. 9, 2015.

18. M. W. Haney, “Micro-scale concentrated photovoltaics: A technologically disruptive approach to flat-panel solar cells?” OSA Optics for Solar Topical Meeting, paper JTh4B, Dec. 4, 2014.

19. M. W. Haney, “How close can we get to the fundamental limits of solar energy harvesting?” OIDA Incubator Meeting: Fundamental Limits on Solar Energy Conversion, Nov. 13, 2014.

20. M. W. Haney, “Can Integrated Micro-optics Transform Flat Panel Solar Cells?” Optoelectronics Industry Development Association Annual Forum, Nov. 4, 2014.

21. Michael, W. Haney, “Hybrid Integrated Chip-scale Interconnects - Overcoming the Packaging and Density Challenges,” Optical Society of America’s Annual Meeting, Frontiers in Optics, Oct. 8, 2013.

22. Michael, W. Haney, “Overcoming the Packaging and Density Challenges in Hybrid Integrated Chip-scale Interconnects -,” MIT Microphotonics Center Meeting, Oct. 15, 2013.

23. (Keynote Presentation), M. W. Haney, “How will photonic integrated circuits develop?” SPIE Photonics West, Proc. SPIE 8629-20 (Silicon Photonics VIII), San Francisco, CA, USA, Feb. 5, 2013.

24. M. W. Haney, T. Gu, and R. Nair, "Lithographically-defined 3-D Chip-scale Optical Interconnects Enabling Ultra-small Footprint Vertical Waveguide Couplers," OSA Frontier in Optics Conference 2012 (FiO 2012), Rochester, NY, USA, 14-18 October, 2012.

25. Michael Haney, Rohit Nair, Tian Gu, “Chip-scale Integrated Optical Interconnects – A Key Enabler for Future High Performance Computing,” presented at SPIE Photonics West, Proc. SPIE 7607 (Optoelectronic Interconnects XII), San Francisco, CA, USA, January 2012.

26. M. W. Haney, Photonic Integrated Circuits for Analog Signal Processing: Progress and Challenges, presented at the IEEE AVFOP Conference, September, 2010.

27. (Plenary Talk) M. W. Haney, “The Future of Optical Interconnects,” at the IEEE Workshop on High Speed Interconnects, May 3, 2010.

28. M. W. Haney, D. Sparacin, J. Hodiak, C. Dohrman, “The Transition to Chip-level Optical Interconnects, Symposium on Computer Communications, OFC, March 22, 2010.

29. M. W. Haney, “Photonic Integrated Circuits: Ready for Prime Time?” presented at CapSci’08, Arlington, VA, March 29, 2008.

30. M. W. Haney, M. J. McFadden, M. Iqbal, “Progress Toward Intra-chip Optical Interconnects,” Symposium on Integrated Optoelectronic Devices, Photonics West 2006, Photonics Integration and Packaging VI, Proc. of SPIE Vol. 6126, 15 pages, San, Jose, CA, January 25, 2006.

31. M. W. Haney, M. J. McFadden, M. Iqbal," Intra-chip Optical Interconnects: Challenges and Possible Solutions," 16th Annual Workshop on Interconnections within High-Speed Digital Systems, Santa Fe, NM, May, 2005.

32. M. Haney, K. Goossen, F. Kiamilev, R. Hunsperger, D. Prather. V. Stoleru, J. Kolodzey

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"Photonics at the University of Delaware," presented at the University Forum event of the SPIE’s Optics East, October 27, 2004.

33. M. W. Haney, M. J. McFadden, M. Iqbal, U. Hameed, "Intrachip Optical Interconnects: Challenges and Solutions," Proceedings of the ICO, Tokyo, Japan, 12-15 July 2004.

34. M. W. Haney, “Architecture and Technology Issues for Optical Interconnects at the Chip Level,” Technical Digest of the Optical Society of America’s Annual Meeting, Paper WDD1, October, 2003.

35. M. W. Haney, et al, “Smart Pixel-based Free-space Interconnects: Solving the High-speed Multi-chip Bottleneck,” ITCOM, August, 2001.

36. M. W. Haney, “Macro vs. Micro in Free-space optical Interconnects,” presented at the OSA Diffractive Optical and Micro-optics Topical Meeting (joint session with Optics in Computing Topical Meeting), SPIE Vol. 4089, pp. 630-632, June 20, 2000.

37. M. W. Haney “Exploiting the Advantages of Free-space Interconnections in Multiprocessor Systems,” IMAPS Workshop on Next Generation IC and Packaged Design, July 1999.

38. M. W. Haney, M. P. Christensen, P. Milojkovic, J. Ekman, P. Chandramani, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, E. Strzelecka, G. Fokken, M. Vickberg, “FAST-Net Optical Interconnection Module Design and Development,” Optics in Computing Topical Meeting, OSA Technical Digest Series, April, 1999, pp. 227-229.

39. M. W. Haney, “VCSEL Array Test Module for the Evaluation of Multi Chip Smart Pixel Systems,” Workshop of the US-Japan Joint Optoelectronics Project, March 1999.

40. Michael W. Haney and James Cullen, “University/Industrial Collaborations in Photonics,” “Three Presidents CEO Summit,” organized by the presidents of GMU, University of Maryland, and Johns Hopkins to showcase and foster university/industrial collaborations in R&D. I represented GMU with a presentation on our collaborations with industry and other universities in the DARPA FAST-Net consortium, March 27, 1998.

41. M. W. Haney, M. P. Christensen, P. Milojkovic, J. Ekman, P. Chandramani, R. Rozier, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, J. Nohava, E. Kalweit, S. Bounnak, T. Marta, B. Walterson, “FAST-Net Optical Interconnection Prototype Demonstration Program,” SPIE Proceedings, Vol. 3288, January 1998, pp. 194-203.

42. M. W. Haney, J. J. Levy, and R. R. Michael, Jr. "Acousto-optic Time and Space Integrating Spot-light Mode SAR Processor," SPIE Proceedings, Vol. 1958, April 1993, pp. 26-37.

43. M. W. Haney, M. P. Christensen, P. Milojkovic, G. Fokken, M. Vickberg, B. Gilbert, J. Rieve, J. Ekman, P. Chandramani, F. Kiamilev, Y. Liu, E. M. Strzelecka, J. Nohava, and Mary K. Hibbs-Brenner, "FAST-Net Smart Pixel-based Optical Interconnection Demonstration Program: Prototype Evaluation,” presented at OSA Annual Meeting, October, 2000.

44. M. W. Haney, “The Relationship between the Joint Optoelectronics Program and MPPOI,” presented at U.S.-Japan Second JOP Experts Workshop, October 30, 1996.

45. M. W. Haney, “Topological Advantages of Free-space Optical Interconnections,” presented at Joint Optoelectronics Program Experts Workshop, April, 1996.

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46. M. W. Haney, "Free-space Interconnects for Multistage Shuffle/Exchange Networks," presented at: Optical Society Symposium on Information Processing, October 1993.

47. M. W. Haney, "Free-Space Folded Perfect Shuffle Interconnect Topology," First Annual Workshop on Interconnections within High-Speed Digital Systems, Santa Fe, NM, May, 1990.

Conference Papers: 1. Tian Gu, Gautam Agrawal, Alyssa Vessey, William C Sweatt, Bradley H Jared, Jose Luis

Cruz-Campa, Ronald Goeke, William K Miller, David L Zamora, Eric Langlois, Murat Okandan, Gregory N Nielson, Michael W Haney, “Micro-concentrator Module for Microsystems-enabled Photovoltaics: Optical Performance Characterization, Modelling and Analysis,” 42th IEEE Photovoltaic Specialist Conference (PVSC), paper 310, June 16, 2015.

2. T. Gu, W. C. Sweatt, G. Agrawal, B. H. Jared, B. J. Anderson, R. S. Goeke, B. Elisberg, S.

M. Paap, J. L. Cruz-Campa, V. P. Gupta, M. Okandan, G. N. Nielson, and M. W. Haney, "Decentralized nonimaging micro-optical concentrator", in Nonimaging Optics: Efficient Design for Illumination and Solar Concentration XI , Proceedings of SPIE Vol. 9191 (SPIE, Bellingham, WA 2014), 91910G.

3. L. Li, Y. Zou, H. Lin, J. Hu, X. Sun, N. Feng, S. Danto, K. A. Richardson, T. Gu, and M. W. Haney, "Chip-to-chip optical interconnects based on flexible integrated photonics", in Optical Interconnects XIV, Proceedings of SPIE Vol. 8991 (SPIE, Bellingham, WA 2014), 89910T.

4. M. W. Haney, T. Gu, and G. Agrawal, “Hybrid micro-scale CPV/PV architecture,”40th IEEE Photovoltaic Specialist Conference (PVSC), 8-13 June 2014, pp. 2122 – 2126.

5. G. Agrawal, T. Gu, M. W. Haney, “Performance characterization of a small form-factor 100X micro-optic concentrator,” 40th IEEE Photovoltaic Specialist Conference (PVSC), 8-13 June 2014, pp. 2912 – 2916.

6. J.L. Cruz-Campa, .., T. Gu, M. W. Haney, …,et al., “Flat Plate Concentrators with Large Acceptance Angle Enabled by Microcells and Mini Lenses: Performance Evaluation”, 28th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC), 30 September 2013 - 4 October 2013, Paris.

7. T. Gu, A. P. Venkataraman, and M. W. Haney, “Vertical Optical Power Delivery and Inter-chip Interconnect Concept Based on Surface-normal MQW Modulators,” IEEE Photonics Society Annual Conference, 8-12 September, 2013.

8. T. Gu, A. P. Venkataraman, and M. W. Haney, “Surface-normal Electro-aborption MQW Modulator-based Chip-scale Optical Interconnects”, IEEE Photonics Society Summer Topicals Conference, 8-10 July 2013.

9. G. N. Nielson, .., T. Gu, M. W. Haney, …,et al., "216 Cell Microconcentrator Module with Moderate Concentration, ±4° Acceptance Angle, and 13.3 mm Focal Length," 39th IEEE Photovoltaic Specialists Conference, Tampa, FL, June 16-21, 2013.

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10. G. Agrawal, A. L. Lentine, T. Gu, G. N. Nielson, and M. W. Haney, "Performance Improvements in Microsystems Enabled Photovoltaics with Wider Acceptance Angles", 39th IEEE Photovoltaic Specialists Conference, Tampa, FL, June 16-21, 2013.

11. Juejun Hu, Lan Li, Hongtao Lin, Yi Zou, Tian Gu, Michael Haney, “A fully-integrated flexible photonic platform for chip-to-chip optical interconnects,” IEEE Optical Interconnects Conference, May 2013.

12. M. W. Haney, T. Gu, and A. P. Venkataraman, "Energy-per-bit Advantages of Chip-scale Hybrid-integrated Optical Interconnects using Surface-normal Electro-aborption MQW Modulators", IEEE Optical Interconnects Conference, May 2013.

13. T. Gu, M. Haney, B. Sweatt, B. Jared, B. Anderson, M. Okandan, V. Gupta and G. Nielson, "High-efficiency Ultra-compact Dispersive Solar Concentrators," OSA Optics for Solar Energy (SOLAR), Eindhoven, Netherlands, 11-15 November, 2012.

14. B. Sweatt, B. Jared, G. Nielson, M. Okandan, V. Gupta, B. Anderson, B. Elisberg, B. Chambers, J. Luis Cruz-Campa, T. Gu and M. Haney, "Concentrating Photo-Voltaic Systems Using Micro-Optics," OSA Optics for Solar Energy (SOLAR), Eindhoven, Netherlands, 11-15 November, 2012.

15. T. Gu, R. Nair, and M. W. Haney, "Chip-scale Optical Interconnects Based on Hybrid Integrated Multiple Quantum Well Devices," 2012 IEEE Photonics Conference, Burlingame, CA, USA, 23 – 27 September, 2012.

16. T. Gu, R. Nair, and M. W. Haney, "Integrated Free-space Optical Interconnects: All Optical Communications On- and Off-chip," Optical Interconnects Conference, Santa Fe, NM, USA, 20-23 May 2012.

17. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, Alan E. Willner, "Experimental Characterization of Phase Tuning using Fine Wavelength Offset in a Complex-Coefficient Optical FIR Filter," APS/IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), paper CM2B.4, San Jose, CA, June 2012 (Optical Society of America, Wash., D.C., 2012).

18. M. R. Chitgarha, S. Khaleghi, O. F. Yilmaz, M. Tur, M. W. Haney, and A. Willner, "Tunable Complex- Weight All-Optical IIR Filter Design based on Conversion/Dispersion Delays," APS/IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), paper CF2I.4, San Jose, CA, June 2012 (Optical Society of America, Wash., D.C., 2012).

19. Mohammad Reza Chitgarha, Salman Khaleghi, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Alan E. Willner, "Coherent Multi-Pattern Correlator and All-Optical Equalizer Enabling Simultaneous Equalization, Wavelength Conversion and Multicasting," IEEE/OSA Conference on Optical Fiber Communications (OFC) and National Fiber Optics Engineers Conference (NFOEC), Los Angeles, CA, Mar. 2012 (Optical Society of America, Washington, D.C., 2012).

20. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Alan E. Willner, "Universal QAM Encoder/Converter using Fully Tunable Complex-Coefficient Optical Tapped- Delay Line," IEEE/OSA Conference on Optical Fiber Communications (OFC) and National Fiber Optics Engineers Conference (NFOEC), Los Angeles, CA, Mar. 2012 (Optical Society of America, Washington, D.C., 2012).

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21. R. Nair, T. Gu, and M. W. Haney, "Hybrid chip-scale optical interconnects using multiple quantum well devices bonded to silicon," Optical Interconnects Conference, Santa Fe, NM, USA, 20-23 May 2012.

22. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, Carsten Langrock, Martin M. Fejer, and Alan E. Willner, ``Experimental Characterization of Phase Tuning using Fine Wavelength Offset in a Complex-Coefficient Optical FIR Filter,'' Proceedings of the IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), CM2B.4, San Jose, CA, May 2012.

23. Mohammad Reza Chitgarha, Salman Khaleghi, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, and Alan E. Willner, ``Tunable Complex-Weight All-Optical IIR Filter Design based on Conversion/Dispersion Delays,'' Proceedings of the IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), CF2I.4, San Jose, CA, May 2012.

24. Mohammad Reza Chitgarha, Salman Khaleghi, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, and Alan E. Willner, ``Coherent Multi-Pattern Correlator and All-Optical Equalizer Enabling Simultaneous Equalization, Wavelength Conversion and Multicasting'', Proceedings of the IEEE/OSA Conference on Optical Fiber Communications (OFC), Los Angeles, CA, March, 2012.

25. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Moshe Tur, Michael W. Haney, and Alan E. Willner, ``Universal QAM Encoder/Converter using Fully Tunable Complex-Coefficient Optical Tapped-Delay Line'', Proceedings of the IEEE/OSA Conference on Optical Fiber Communications (OFC), OTh4H.6, Los Angeles, CA, March, 2012.

26. T. Gu and M. W. Haney, "Common-plane Spectrum-splitting Concentrating Photovoltaic Module Design and Development," in Renewable Energy and the Environment, OSA Technical Digest, Austin, Texas, November 2, 2011.

27. R. Nair, T. Gu, K. W. Goossen, F. Kiamilev, and M. W. Haney, "Demonstration of chip-scale optical interconnects based on the integration of polymer waveguides and multiple quantum well modulators on silicon," IEEE Photonics 2011 Conference, Arlington, VA, USA, 9-13, October 2011.

28. T. Gu, R. Nair, and M. W. Haney, "On-chip guided-wave optical interconnects using multiple quantum well modulators," IEEE Photonics 2011 Conference, Arlington, VA, USA, 9-13 October 2011.

29. R. Nair, T. Gu, M. E. Teitelbaum, K. W. Goossen, F. Kiamilev, and M. W. Haney, "Chip-scale multiple quantum well based optical interconnects," Conference on Lasers and Electro-Optics (CLEO) 2011 (Science and Innovation Technical Sessions), Baltimore, MD, USA, May 2011.

30. Salman Khaleghi, Mohammad Reza Chitgarha, Omer F. Yilmaz, Alan E. Willner and Michael W. Haney, \Experimental Performance of a Continuously Tunable 40-GHz Complex Weight Optical FIR Filter using Wavelength Conversion and Chromatic Dispersion", Proceedings of the IEEE/OSA Conference on Lasers and Electro-Optics (CLEO), CTuW4, Maryland, MA, May 2011.

31. T. Gu, R. Nair, and M. W. Haney, "Modulation-enabled tapered remote coupler: All-optical communication on and off chip," Proc. SPIE 7607 (Optoelectronic Interconnects and

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Component Integration IX), San Francisco, CA, USA, January 2010. 32. T. Gu, R. Nair, and M. W. Haney, “Modulator-based surface-normal optical sources for

intrachip optical interconnects,” 20th Annual Workshop on Interconnections within High-Speed Digital Systems, May 3-6, 2009, Santa Fe, NM, USA.

33. T. Gu, R. Nair, and M. W. Haney, “Novel coupling structure and multi-layer optical interconnects for intrachip global communication,” 19th Annual Workshop on Interconnections within High-Speed Digital Systems, May 18-21, 2008, Santa Fe, NM, USA.

34. A. Barnett, C. Honsberg, D. Kirkpatrick, S. Kurtz, D. Moore, D. Salzman, R. Schwartz, J. Gray, S. Bowden, K. Goosen, M. Haney, D. Aiken, M. Wanlass, K. Emery, T. Moriarty, J. Kiehl, “50% Efficient Solar Cell Architectures and Designs”, 4th World Photovoltaic Science and Energy Conference, Hawaii, USA, May 7, 2006, pages 2560 - 2564

35. R. Nair, M. Iqbal, and M. W. Haney, “Novel coupling structure for integration of multiple quantum well modulators (MQWM) as efficient sources and sinks for intrachip global communication,” 17th Annual Workshop on Interconnections within High-Speed Digital Systems, May 14-17, 2006, Santa Fe, NM, USA.

36. T. Gu, M. Iqbal, M. J. McFadden, R. Nair, and M. W. Haney, “Experimental validation of application specific interconnection fabric (ASIF) system,” 17th Annual Workshop on Interconnections within High-Speed Digital Systems, May 14-17, 2006, Santa Fe, NM, USA.

37. R. Nair, M. Iqbal, T. Gu, and M. W. Haney, “Coupling Structure for Intrachip Optical Global Communication: Design and Simulation,” 19th Annual Meeting of the IEEE Lasers and Electro-Optics Society, Montreal, Canada, pp.815-816, October 2006.

38. T. Gu, M. Iqbal, M. J. McFadden and M. W. Haney, “Experimental Validation of a Multi-scale Optical Interconnection Fabric Concept,” 19th Annual Meeting of the IEEE Lasers and Electro-Optics Society, Montreal, Canada, pp.813-814, October 2006.

39. M. W. Haney, M. Iqbal, M. J. McFadden, “Optical Interconnects for Intra-chip Global Communication: Motivation & Validation,” LEOS Annual Meeting, paper TuE3, October 25, 2005.

40. M. Iqbal, T. Dillon, M. J. McFadden, D. Prather, and M. W. Haney, “Fabrication of Beam Steering Elements, Couplers, and Lenses with Gray Scale Lithography using HEBS Glass,” Proceedings of OSA 89th Annual Meeting, October 2005.

41. M. Iqbal, M. J. McFadden, M. W. Haney, “Intrachip Global Communication – Interconnect Modeling, Challenges & Potential Solutions,” Proceedings of OSA 89th Annual Meeting, October 2005.

42. M. Iqbal, M. J. McFadden, M. W. Haney, "Intrachip Global Interconnects and the Saturation of Moore's Law," 15th Annual Workshop on Interconnects Within High-Speed Digital Systems, Santa Fe, New Mexico, May 2004.

43. M. J. McFadden, M. Iqbal, M. W. Haney, "Multi-scale optical interconnects for intra-chip global communication," Proceedings of IEEE-LEOS Summer Topical: Optical interconnects & VLSI Photonics, Sand Diego, CA, July 2004.

44. M. Iqbal, M. J. McFadden, M. W. Haney, "Intra-chip Global Interconnects and the Saturation of Moore's Law," Proceedings of IEEE-LEOS Summer Topical: Optical interconnects &

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VLSI Photonics, Sand Diego, CA, July 2004. 45. M. J. McFadden, T. Dillon, M. Iqbal, D. Prather, M. W. Haney, "Towards demonstrating

multi-scale free-space optical interconnects for intrachip global communication," Proceedings of OSA 88th Annual Meeting, Rochester, NY, October 2004.

46. M. Iqbal, T. Dillon, M. J. McFadden, D. Prather, M. W. Haney, "Novel structures for optical sources based on quantum well modulators for intra-chip global communication," Proceedings of OSA 88th Annual Meeting, Rochester, NY, October 2004. 2. Michael J McFadden, Muzammil Iqbal, and Michael W Haney, “An Application Specific Interconnection Fabric for Intra-chip Global Communications,” IEEE Workshop on Interconnections within Digital Systems, May, 2003.

47. Muzammil Iqbal, Michael J McFadden, and Michael W Haney, “Performance Characterization of IC Interconnects,” IEEE Workshop on Interconnections within Digital Systems, May, 2003.

48. Michael W Haney, Michael J McFadden, and Muzammil Iqbal, “An Application Specific Interconnect Fabric (ASIF) for free-space global optical intra-chip interconnects, Technical Digest of the Optics in Computing Topical Meeting, June, 2003, pp. 105-107.

49. M. Christensen, P. Milojkovic, C. Kuznia, and M. W. Haney, “160 Gbps Free-space Optical Interconnection Fabric for Fully Connected Multi-chip Applications,” Technical Digest of the Optics in Computing Topical Meeting, June 2003, pp. 120-122.

50. D. Schmid, F. Kiamilev, J. Ekman, X., Wang, P. Gui, M. Haney, M. Christensen, P. Milojkovic, C. Kuznia, “ Programmable interface for a 160 Gbps free-space optical interconnection deomonstration system,” Technical Digest of the Optics in Computing Topical Meeting, June 2003, pp. 123-125.

51. Pelin Aksoy and Michael W. Haney, “Free-space optical interconnects for Viterbi decoding,” Technical Digest of the Optics in Computing Topical Meeting, June 2003, pp. 140-142.

52. P. Aksoy. M. Iqbal, and M. W. Haney, “System Level Performance Estimation of an Optoelectronic Viterbi Decoder,” Technical Digest of the Optical Society of America’s Annual Meeting, Paper WDD3, October, 2003.

53. X. Wang, F. Kiamilev, G. Papen, J. Ekman, P. Gui, M. McFadden, J. Deroba, M. Haney, C. Kuznia, "Packaging Friendly Parallel Optical Transceivers,” Proceedings of InterPACK03, July, 2003.

54. P. Gui, F. Kiamilev, X. Wang, M. McFadden,J. Ekman, J. Deroba, C. Kuznia, M. Haney, "Source-synchronous Double Data Rate (DDR) parallel optical interconnects," Proceedings of InterPACK03, July, 2003.

55. Michael W Haney, Muzammil Iqbal, Michael J McFadden, An Arbitrarily Configurable Optical Interconnect Fabric for Intra-chip Global Communication,” Proceedings of InterPACK03, July, 2003.

56. M. Christensen, P. Milojkovic, M. McFadden, and M. W. Haney, “Multi-scale Optical Design for global Chip-to-chip Optial Interconnections and Misalignment Tolerant Packaging,” Proceedings of InterPACK03, July, 2003.

57. M. Christensen, P. Milojkovic, C Kuznia, and M. W. Haney, “Design of a 160 Gbps Free-

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space Optical Interconnection Fabric for Fully Connected Multi-chip Applications,” IEEE LEOS Annual Meeting November 11, 2002, Paper MG4, Vol. 1, pp 61-62.

58. P. Aksoy and M. W. Haney, Optoelectronic Viterbi Decoder for High performance Digital Communications Applications, presented at Optical Society of America’s Annual Meeting, October 1, 2002.

59. M. W. Haney, et al, “Optomechanical Design and Implementation of the FAST-Net Smart Pixe-Based Free-space Optical Interconnection Prototype,” ASME International Electronic packaging Confercne, July, 2001.

60. P. Milojkovic, et al, “Multi-scale Lens Design for the Global Mulit-chip FAST-Net Interconnection Module,” 14th Annual meeting of the IEEE LEOS Society, November 2001.

61. P. Gui, et al, “gigabit Optical network Interface Card Using Parallel Data Fiber Link for a Free-space Switch Local Area network System,” 14th Annual meeting of the IEEE LEOS Society, November 2001.

62. J. Ekman, P. Gui, P. Chandramani, X. Wang, F. Kiamilev, M. P. Christensen, P. Milojkovic, M. W. Haney, K. Driscoll, B. Vanvoost, Y. Liu, “Gigabit Switch Using Free-space and Parallel Optical Data Links for a PCI-based Workstation Cluster,” LEOS Annual Meeting Conference Proceedings, November 14, 2000, pp. 494-495.

63. Marc P. Christensen, Predrag Milojkovic, and Michael W. Haney, “Aberration Analysis of Beam-Steering in the FAST-Net Global Interconnection System,” LEOS Annual Meeting Conference Proceedings, November 14, 2000, pp. 236-237.

64. Marc P. Christensen, Predrag Milojkovic, Michael J. McFadden, and Michael W. Haney, “Experimental Validation of a Distortion-free multi-chip free space interconnection module concept,” OSA Annual Meeting, November, 2000.

65. Predrag Milojkovic, Marc P. Christensen, and Michael W. Haney, “Minimum Lens Complexity Design Approach for the FAST-Net Macro-optical Multi-chip Global Interconnection Module,” OSA Annual Meeting, November, 2000.

66. Pelin A. Aksoy, Sumeet Bhatia, Jennifer Kehoe, and Michael W. Haney, “Evaluation of a Two-dimensional Vertical Cavity Surface Emitting Laser/Photodetector Array for Free-space Optical Interconnects, OSA Annual Meeting, November, 2000.

67. Predrag Milojkovic, Marc P. Christensen, and Michael W. Haney, “Minimum Lens Complexity Design Approach for A Free-space Macro-optical Multi-chip Global Interconnection Module,” Optics in Computing Topical Meeting, SPIE Vol. 4089, pp. 917-926, June, 2000.

68. P. Chandramani, J. Ekman, P. Gui, X. Wang, F. Kiamilev, K. Driscoll, B. Vanvoorst, F. Rose, J. Nohava, J. A. Cox, M. Christensen, P. Milojkovic, M. Haney, "High-Speed Free-Space Scalable Switching Network for Parallel Computing," Optics in Computing Topical Meeting, SPIE Vol. 4089, pp. 578-583, June, 2000.

69. Michael McFadden, Marc P. Christensen, Predrag Milojkovic, and Michael W. Haney, “Distortion-free global optical shuffle approach for VCSEL based smart pixels: Experimental Analysis,” Student Presentation Session of the 11th Annual Workshop on

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Interconnections within High-speed Digital Systems, May, 2000. 70. J. Ekman, et al, "CMOS Test Chip for Flip-chip Integration with VCSEL and Photodetector

Arrays," Spatial Light Modulators, Topical Meeting, OSA Technical digest Series, April 1999, pp 73-74.

71. Marc P. Christensen, Predrag Milojkovic, and Michael W. Haney “Distortion-free Global Optical Shuffle Approach for VCSEL-based Smart Pixels: Design & Analysis,” OSA Annual Meeting, September 28, 1999.

72. Pelin Aksoy, F. Sun, and M. W. Haney, “VCSEL Array Test Module for Evaluation of Multi-chip Smart Pixel Systems,” OSA Annual Meeting, October 1998.

73. P. Milojkovic, M. P. Christensen, and M. W. Haney, “Analysis of FAST-Net Prototype Module,” OSA Annual Meeting, October 1998.

74. M. P. Christensen, P. Milojkovic, and M. W. Haney, “Design Tradeoffs for a Low Distortion Multi-chip Free-Space Interconnection Module,” OSA Annual Meeting, October 1998.

75. M. P. Christensen, P. Milojkovic, and M. W. Haney, “Design Tradeoffs for a Low Distortion Multi-chip Free-space Optical Interconnection Module,” Proceedings of the International Conference on Telecommunications, Vol. III, June 1998, pp. 519-522.

76. M. W. Haney, M. P. Christensen, P. Milojkovic, J. Ekman, P. Chandramani, R. Rozier, F. Kiamilev, Y. Liu, M. Hibbs-Brenner, J. Nohava, E. Kalweit, S. Bounnak, T. Marta, B. Walterson, “FAST-Net Optical Interconnection Prototype Demonstration,” International Topical Meeting on Optical Computing, June, 1998, pp. 568-571.

77. M. W. Haney, M. P. Christensen, R. R. Michael, P. A. Wasilousky, and D. R. Pape, “Compact Acousto-optic System for Real-time Synthetic Aperture Radar Image Formation,” International Topical Meeting on Optical Computing, June, 1998, pp. 74-77.

78. M. W. Haney, M. P. Christensen, K. Raj, and Predrag Milojkovic, “Packaging Advantages of Macro-optical Free-Space Interconnections over Micro-Optical and Electrical Interconnections,” Proceedings of “Advances in Electronic Packaging” EEP-Vol. 19-1, ASME, June, 1997, pp. 811-817.

79. M. P. Christensen and M. W. Haney, “Two-Bounce Free-space Arbitrary Interconnection Architecture, Proceedings of the 4th International Conference on Massively Parallel Processing using Optical Interconnections, June, 1997, pp. 61-67.

80. M. W. Haney and M. P. Christensen, “Fundamental Geometric Advantages of Free-space Optical Interconnects,” Digest of the 3rd International Conference on Massively Parallel Processing using Optical Interconnections, October, 1996, pp. 16-23.

81. M. W. Haney, C. Osborne, and M. P. Christensen, “Smart Pixel Algorithmic Tradeoffs for the Sliding Banyan Network, IEEE/LEOS Summer Topical Meeting on Smart Pixels, Aug, 1996.

82. M. P. Christensen and M. W. Haney, “Smart Pixel I/O Layout Constraints for a Free-space Parallel Shuffle Module,” IEEE/LEOS Summer Topical Meeting on Smart Pixels, Aug, 1996.

83. M. W. Haney, M. P. Christensen, and R. R. Michael, “Free-space Optoelectronic Viterbi

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Decoder: Prototype Demonstration System,” International Topical Meeting on Optical Computing, April, 1996.

84. M. W. Haney and M. P. Christensen, “Performance Analysis and Optical Interconnection Module Evaluation for the Free-space Sliding Banyan Network,” International Topical Meeting on Photonics in Switching, April, 1996.

85. M. W. Haney and M. P. Christensen, "Free Space Optical Sliding Banyan Network: Performance Analysis," OSA Annual Meeting, September, 1995.

86. M. P. Christensen, S. Acharya, and M. W. Haney, "Smart Pixel Based Viterbi Decoder: Prototype Evaluation," OSA Annual Meeting, September, 1995.

87. M. W. Haney and M. P. Christensen, Free-Space Optical Sliding Banyan Switching Network: Performance Analysis, IEEE ATM Workshop'95.

88. M. W. Haney and M. P. Christensen, “Free-space Optical Sliding Banyan Switching Fabric,” (invited article) submitted to Newsletter of SPIE's Working Group on Optical Processing and Computing, April, 1995.

89. M. W. Haney, J. J. Levy, R. R. Michael, and M. P. Christensen, "Compact time- and space-integrating SAR Processor: Performance Analysis," SPIE Proceedings, Vol. 2489, April, 1995.

90. M. W. Haney and M. P. Christensen, “Free-space Optical Sliding Banyan Network,” Photonics in Switching, OSA Spring Topical Meeting, March, 1995.

91. M. W. Haney and M. P. Christensen, “Smart Pixel Based Viterbi Decoder,” Optical Computing, OSA Spring Topical Meeting, March, 1995.

92. J. Van der gracht, R. A. Athale, and M. W. Haney, “Seeing is Believing: The Role of Computer Generated Holograms in Optics Education,” OSA Annual Meeting Forum on Education, Paper WSS3, October, 1994.

93. M. W. Haney and M. P. Christensen, “Free-space Optical Sliding Tandem Banyan Network,” presented at the 1994 OSA Annual Meeting, October 1994.

94. M. W. Haney and M. P. Christensen, “The Application of Smart Pixels to High-performance Convolutional Decoders,” 1994 OSA Annual Meeting, October, 1994.

95. M. W. Haney and M. P. Christensen, “Optical Free-space Sliding Tandem Banyan Architecture for Self-routing Switching Networks,” International Optical Computing Conference, August, 1994.

96. M. W. Haney and M. P. Christensen., “Optical Free-space Sliding Tandem Banyan Architecture for Self-routing Switching Networks,” IEEE/LEOS Topical Meeting on Smart Pixels, July 1994.

97. M. W. Haney, J. J. Levy, R. R. Michael, M. P. Christensen, and M. W. Mock, “Compact Time- and Space-integrating SAR Processor Design and Development Status,” SPIE Proceedings, Vol. 2236, April , 1994.

98. M. W. Haney, "The Application of Self-Similar Patterns to Opto-electronic Shuffle/Exchange Network Design," Optical Computing Topical Meeting, March, 1993.

99. M. W. Haney, J. J. Levy, and M. S. Christensen, "Time and Space Integrating Acoustooptic

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SAR Image-Formation Processor," SPIE Proceedings, Vol. 1704, April 1992. 100. R. A. Athale, M. W. Haney, J. J. Levy, and G. W. Euliss, "Minimum Complexity Optical

Architecture for Look-up Table Computation in the Residue Number System," SPIE Proceedings, Vol. 1703, April 1992.

101. M. W. Haney, "Compact Acousto-optic Processor for Real-time Synthetic Aperture Radar Imaging," IEEE/LEOS Topical Meeting on Spaceborne Photonics, July, 1991.

102. M. W. Haney, "Optoelectronic Shuffle/Exchange for Multiprocessing Architectures," OSA Proceedings on Photonic Switching, March 1991.

103. J. J. Levy, R. A. Athale, and M. W. Haney, "Simulation of Weight Noise in Back Propagation Architectures," OSA Annual Meeting, November 1990.

104. R. A. Athale and M. W. Haney, "Optical Implementation of SELECTION Operation in Database Machines," OSA Proceedings on Optical Computing, March 1991.

105. M. W. Haney, "Real-time Acoustooptic Processor for Spotlight Mode Synthetic Aperture Radar," SPIE Proceedings, Vol. 1291, April 1990.

106. M. W. Haney and J. J. Levy, "Low Loss Free-space Folded Perfect Shuffle Network," Conference Record of the International Topical Meeting on Optical Computing, Kobe, Japan, April 1990.

107. M. W. Haney and J. J. Levy, "Optically Cascadable Folded Perfect Shuffle," OSA Annual Meeting, October 1989.

108. M. L. Heinrich, R. A. Athale, and M. W. Haney, "Optical Outer Product Look-up Table Architecture for Residue Arithmetic,” Proceedings of the Topical Meeting on Optical Computing (Salt Lake City), March 1989.

109. M. W. Haney and R. A. Athale, "Application of Optical Boolean Matrix Processing to Search Problems," Digital Optical Processing Workshop, Rome Air Development Center, November 1988.

110. M. W. Haney, "Real-time Acousto-optic SAR Processors," Conference Record of MILCOM'88, October 1988.

111. M. W. Haney and R. A. Athale, "Optical Matrix Manipulation Techniques for Search Problems," OSA Annual Meeting, October, 1988.

112. M. W. Haney and R. A. Athale, "Optical Techniques for Increasing the Efficiency of Tree Search Algorithms," Proceedings of Optical Computing'88 (Toulon, France), August 1988, SPIE Proceedings, Vol. 963.

113. S. M. Rovnyak, R. A. Athale, C. W. Stirk, and M. W. Haney, "16-bit Binary Multiplication with Digital Optics: A Comparison with Electronics," OSA Annual Meeting, October 1987.

114. M. W. Haney, R. A. Athale, and D. Psaltis, "Comparison of Optical Processing Techniques for Synthetic Aperture Radar," OSA Annual Meeting, October 1987.

115. M. W. Haney and D. Psaltis, "Generalization of the Acousto-optic Time-and-space Integrating Architecture for Real-time SAR Processing," OSA Annual Meeting, October 1987.

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116. M. W. Haney, R. A. Athale, and R. A. Geesey, "Application of Optical Techniques to the Consistent Labeling Problem," OSA Annual Meeting, October 1987.

117. C. W. Stirk, R. A. Athale, and M. W. Haney, "The Folded Perfect Shuffle Optical Processor," OSA Annual Meeting post deadline paper, October 1987.

118. M. Haney and D. Psaltis, "Real-time Acousto-optic Spot-light Mode SAR Processor," Proceedings of the Topical Meeting on Optical Computing, March 1987.

119. R. Athale, C. Stirk, and M. Haney, “A Unified Approach to Analyzing Optical Computing Systems,” Proceedings of the Topical Meeting on Optical Computing, March 1987.

120. M. Haney and D. Psaltis, “Acousto-optic Techniques for Real-time SAR Processing,” SPIE Proceedings, Vol. 545, April 1985.

121. M. Haney, K. Wagner, and D. Psaltis, “Acousto-optic SAR Image Formation, “IEEE QE Society local chapter meeting,” Caltech, November, 1984.

122. M. Haney, K. Wagner, and D. Psaltis, “Programmable Real-time Acousto-optic/CCD SAR Processor,” SPIE Proceedings, Vol. 495, August 1984.

123. D. Psaltis, M. Haney, and K. Wagner, “Real-time Synthetic Aperture Radar Processing,” Proceedings of the NASA Optical Information Processing Conference, August 1983.

124. M. Haney and D. Psaltis, “Coherence Properties of Pulsed Laser Diodes,” Proceedings of the 10th International Optical Computing Conference, April 1983.

125. D. Psaltis, K. Wagner, and M. Haney, “Synthetic Aperture Radar Imaging Using Acousto-optic and Charged Coupled Devices,” SPIE Proceedings, Vol. 352, August 1982.