George F. Corliss, Ph. D.

Name: George F. Corliss

Address:

University: Haggerty Engineering 296. 414-288-6599.

Home: 110 B E. Sutton Place, Waukesha, WI, 53188. 262-542-1340

Date and Place of Birth: June 22, 1947, Island Falls, Maine

Education:

Ph. D.: 1974, Michigan State University, Mathematics;

Thesis: Parallel Rootfinding Algorithms; Advisor: Jerry Taylor

BA: 1969, College of Wooster, Ohio. Major: Mathematics, 3.86/4.0, 5th in class, Phi Beta Kappa

Professional Experience:

  1. 1978 – present, Marquette University
    2001: Appointed Professor, Electrical and Computer Engineering
    Joint appointment with Mathematics, Statistics and Computer Science
    Joint appointment with College of Business Administration
    1990: Appointed Professor, Mathematics, Statistics and Computer Science
    1982: Appointed Associate Professor, Mathematics, Statistics and Computer Science
    1978: Appointed Assistant Professor, Mathematics and Statistics
  2. 1998-99 (sabbatical): Senior Consultant, Compuware, placed at Aurora Health Care as Project Manager
  3. 1991-92 (sabbatical): Senior Scientist, Argonne National Laboratory, Mathematics and Computer Science. Participated in development of ADOL–C and ADIFOR tools for automatic differentiation
  4. 1986 – 1990 (concurrent): Visiting Scientist, Institute for Applied Mathematics, University of Karlsruhe (Germany)
  5. Summer 1985: Visiting Scientist, ETH, Zurich
  6. 1984-85 (sabbatical): Army Mathematics Research Center, UW – Madison. Developed software for guaranteed bounds for numerical quadrature.
  7. 1974-78: University of Nebraska – Lincoln, Assistant Professor of Computer Science and of
    Mathematics and Statistics
  8. 1969-1972 & 1973-1974: Michigan State University, Assistant Instructor of Mathematics
  9. 1972-73: Unco, Inc., Washington DC, Analyst on social science research for State of Michigan

Current Teaching Interests:

Numerical analysis Mathematical modeling

Differential equations Linear algebra

Software development Computer languages

Operating systems Object-oriented programming

Numerical optimization E-Commerce web design

Software engineering Computer graphics

Computer architecture Software testing

Senior Design

Current Research Interests:

Energy analysis and forecasting

Scientific computation and mathematical modeling

Guaranteed enclosures of the solutions of ordinary differential equations

Industrial applications of mathematics and scientific computation

Numerical optimization

Automatic differentiation

High performance computing

Software engineering

Funded Research Grants:

  1. GasDay from industry. Licensing daily consumption estimation service, Oct. 2008– present.
  2. GasDay from industry. Licensing customer meter outlier detection service, July 2005– present.
  3. $9,500 from University of Wisconsin – Milwaukee (Southeastern Wisconsin Energy Technology Research Center), Developing a Business Case for Sustainable Asset Renewal of Existing Buildings,subcontract from MSOE from $85,000 total.
  4. Summer support from GasDay for providing services to industry, working with graduate andundergraduate students, and participating in the operation of the lab.
  5. $50,000 from Kern Family Foundation, Student Transformation through ‘Innovation Exercises’, Co-PI with Joe Schimmels, Fall, 2007.
  6. $2,500 from National Wildlife Federation awarded to student Edward Speck-Kern, Marquette University Electric Limo Student Transport,February, 2008, - May, 2009.
  7. 2005: 9,357 Pounds from British Engineering & Physical Sciences Research Council, John Pryce (PI), ISL-Design: Meetings to Design an Interval Subroutine Library
  8. 2005: GasDayfrom industry to support a graduate student research project to detect outliers in meter readings. PI Ron Brown. I supervised the student’s research.
  9. $50,000 from 3M Vision Opportunity Grant, $55,000 in hard university match,Challenges of Offshore Outsourcing: Educational Response,joint with Kate Kaiser and Monica Adya, MU College of Business Administration, 2003 - 06. The Industrial Advisory Board continues to meet.
  10. 2003: $16,900 from NCIAA, joint with Ron Brown, Development and Implementation of a Public Gas Company Web-based Demand Forecasting Service
  11. 2002: $15,000 from Michigan State University, Testing COSY and Taylor Arithmetics
  12. 2000 – 2002: $300,000 from MU ITS, Portal and Imaging projects. Team of 3 – 5 GRA’s prepared specifications for Web portal. Team of 1 – 4 GRA’s did business analysis and implementation of Feith imaging systems for about 15 university units
  13. $85,000 from Compuware for sabbatical leave, May 1998 - August 1999.
  14. $100,000 from Sun Microsystems for Validated Global Optimization, 1997-98.
  15. $140,000 list price of equipment donated by Sun Microsystems for JavaStation classroom, 1997.
  16. Industry-Based Graduate Research Assistantships, $59,788 from the NSF. $30,000 from Penta Technologies, and $30,000 from Johnson Controls, Inc., 1997-99. Joint with Steve Merrill and Peter Tonellato.
  17. Industry-Based Graduate Research Assistantships, $55,120 from the NSF. $24,000 from S.C. Johnson Wax, and $24,000 from Johnson Controls, Inc., 1995-97.
  18. $100,387 from the NSF for Acquisition of Laboratory Equipment for Research & Research Training in Industrial Mathematics, 1994-1997.
  19. 1995: $1,700 from NISA for research in optimization.
  20. 1993: $6,000 from Repete Corp., Sussex, WI, Object-Oriented Programming in C++.
  21. 1993: $2,700 from the Institute for Applied Mathematics, University of Karlsruhe, Germany, Numerical Toolbox for Verified Computing I: Basic Numerical Problems.
  22. 1992: $2,500 from the Institute for Applied Mathematics, University of Karlsruhe, Germany, C-XSC Reference Manual.
  23. $65,000 from Argonne National Laboratory, Scientist in Residence, Mathematics and Computer Science Division, for 1991-92 sabbatical leave salary.
  24. $68,006 from Cardiac Evaluation Center as part of a grant from the Wisconsin Department of Development, Electrocardiogram Compression and Analysis, January 23, 1989 - January 22, 1990. Joint with Anne Clough.
  25. 1989: $4,000 from the National Science Foundation Research Experiences for Undergraduates Program, Interval Techniques for the Numerical Solution of Ordinary Differential Equations.
  26. 1989: $15,000 from Numerical Algorithms Group, Oxford, England, to support the development of a computer program written in Ada for validated numerical quadrature.
  27. $95,195 from the National Science Foundation, Interval Techniques for the Numerical Solution of Ordinary Differential Equations, November 15, 1988 - April 30, 1991. Joint with Gary S. Krenz.
  28. $44,256 from IBM Deutschland, Self-Validating Quadrature Near Singularities, October 1985 - August 1986.
  29. 1985: $3000 from IBM Deutschland, Composition of Illustrated Mathematical Texts for the ACRITH Demonstration.
  30. 1985: $5,000 from ETH (Swiss Federal Institute of Technology), Zurich, research in interval mathematics and stiff ordinary differential equations.
  31. $45,000 from IBM - Germany Research & Development Lab, Adaptive, Self-Validating Numerical Quadrature, May 1984 - August 1985. Joint with L. B. Rall.
  32. $17,053 from the National Science Foundation, Automatic Taylor Series Solution of Differential Equations, June 1978-May 1979. Joint with Y.F. Chang.

Numerous small travel and equipment grants.

Other Research-related Activities (incomplete):

  1. Referee’s reports: 2008 – 12; 2007 – 15; 2006 – 16; 2005 – 11; 2004 – 9; 2003 – 9; 2002 – 12; 2001 – 17; 2000 - 6; 1999 - 6; 1998 - 12; 1997 - 16; 1996 - 25; 1995 - 19; 1994 - 11; 1993 - 7; 1992 - 9; 1991 - 12; 1990 - 9; 1989 - 1; 1988 - 5; 1986 - 1; 1985 – 2.
  2. 2008-present: Officer (Vote Tabulator) and active participant in IEEE P1788 Interval Arithmetic Working Group working toward in IEEE standard for interval arithmetic.
  3. 2005: Scientific Committee for Second Scandinavian Workshop on Interval Methods and their Applications, Technical University of Denmark, August 25 - 27, 2005.
  4. 2005: Program Committee, Gas Forecasters Forum, Hilton Head SC, October 26 – 28, 2005.
  5. 2004: Scientific Committee for SCAN 2004, 11th GAMM - IMACS International Symposium on Scientific Computing, Computer Arithmetic, and Validated Numerics, October 4 - 8, 2004, Fukuoka, Japan.
  6. 2004: Scientific Committee for PARA04, Workshop on the State-of-the-Art in Scientific Computing, June 20-23, 2004 Copenhagen.
  7. 2004: Organizing Committee, AD 2004: The 4th International Conference on Automatic Differentiation, Chicago, IL, July 19-23, 2004.
  8. 2004: I led an effort within the interval analysis research community to challenge the submission by Sun Microsystems of about 25 patent applications on material we believe to have appeared in the literature previously. I conducted research into the prior art, submitted a report, participated in several discussions with Sun management and attorneys, and tried to help the interval research community better understand the patent process.
  9. 2002 May 22-24: Lead organizer of SIAM Workshop on Validated Computing, Toronto, 80 participants.
  10. 2002 May 26-30: Co-organizer & Chair of Fields Institute Workshop on Validated ODE’s, University of Toronto.
  11. 2000: Organizing Committee, Automatic Differentiation 2000: From Simulation to Optimization, Nice, France, June, 2000.
  12. 1996: SIAM Computational Differentiation Workshop, Santa Fe, New Mexico, February 12 - 15, 1996.
  13. 1991: Organizing Committee, SIAM Workshop on the Automatic Differentiation of Algorithms in Breckenridge, Colorado, January 6 - 8, 1991.

Publications – Books edited:

  1. Martin Bücker, George Corliss, Paul Hovland, UweNaumann, and Boyana Norris, eds. Automatic Differentiation: Applications, Theory, and Tools, Springer Lecture Notes in Computational Science and Engineering, 2005.
  2. George Corliss,Christèle Faure, Andreas Griewank, Laurent Hascoët, and UweNaumann, eds. Automatic Differentiation: From Simulation to Optimization, Springer, New York, 2002.
  3. Martin Berz, Christian Bischof, George Corliss, and Andreas Griewank, eds. Computational Differentiation: Techniques, Applications, and Tools, SIAM, Philadelphia, 1996.
  4. Klatte, R., Kulisch, U., Lawo, C., Rauch, M., and Wiethoff, A., C-XSC: A C++ Class Library for Extended Scientific Computing, translated by Corliss, G.,Lawo, C., Klatte, R., Wiethoff, A., and Wolff, C., Springer Verlag, Berlin, 1993.
  5. Klatte, R., Kulisch, U., Neaga, M., Ratz, D., and Ullrich, Ch., PASCAL-XSC Language Reference with Examples, translated by Klatte, R., Ratz, D., and Corliss, G., Springer Verlag, 1992.
  6. Andreas Griewank and George F. Corliss,eds. Automatic Differentiation of Algorithms: Theory, Implementation, and Application, SIAM, Philadelphia, Penn., 1991.

Publications – Fully refereed journal articles:

  1. Joshua A. Enszer, Youdong Lin, Scott Ferson, George F. Corliss, Mark A. Stadtherr, Probability Bounds Analysis for Nonlinear Dynamic Process Models, to appear, AIChE Journal, 2010.
  2. George F. Corliss and John D. Pryce, Interval Arithmetic with Containment Sets, Computing 78(3): 251-276 (2006).
  3. George F. Corliss, Chris Foley, and R. Baker Kearfott, Formulation for Reliable Analysis of Structural Frames, Reliable Computing, 13/2, 2005, pp. 125-147.
  4. Ned S. Nedialkov (student), Ken R. Jackson, and George F. Corliss, Validated Solutions of Initial Value Problems for Ordinary Differential Equations, Appl. Math. & Comp., 105 (1), 1999, pp. 21-68.
  5. George F. Corliss, and Weldon A Lodwick, Correct Computation of Solutions of Differential Algebraic Control Equations, ZeitschriftfürAngewandteMathematik und Mechanik (ZAMM) special issue ``Numerical Analysis, Scientific Computing, Computer Science'', 1996, pp. 37-40.
  6. Y.F. Chang and George F. Corliss, ATOMFT: Solving ODEs and DAEs Using Taylor Series, Computers and Mathematics with Applications, 28/10-12, 1995, pp. 209-233.
  7. Andreas Griewank, Christian Bischof, George F. Corliss, Alan Carle, and Karen Williamson, Derivative Convergence for Iterative Equation Solvers, Optimization Methods and Software, vol. 2, 1993, pp 321-355.
  8. Christian Bischof, George F. Corliss, and Andreas Griewank, Structured Second- and Higher-Order Derivatives through Univariate Taylor Series, Optimization Methods and Software Vol. 2, 1993, 211-232.
  9. Christian Bischof, Alan Carle, George F. Corliss, Andreas Griewank, and Paul Hovland, ADIFOR -- Generating Derivative Codes from Fortran Programs, Scientific Programming, vol. 1, 1992, pp. 11-29.
  10. George F. Corliss and Louis B. Rall, Computing the Range of Derivatives, IMACS Annals on Computing and Applied Mathematics, Edgar Kaucher, S.M. Markov, and Gunter Mayer, eds., Vol. 12, J. C. Baltzer AG, 1991, pp. 195-212.
  11. Christian Bischof, George F. Corliss, Larry Green, Andreas Griewank, Ken Haigler, and Perry Newman, Automatic Differentiation of Advanced CFD Codes for Multidisciplinary Design, Journal on Computing Systems in Engineering, Vol. 3, No. 6, 1992, 625-637.
  12. George F. Corliss, Survey of Interval Algorithms for Ordinary Differential Equations, Journal of Applied Mathematics and Computation, 31, 1989, pp. 112-120.
  13. George F. Corliss and Gary S. Krenz, Indefinite Integration with Validation, ACM Trans. Math. Software, 15, 1989, pp. 375-393.
  14. George F. Corliss and Louis B. Rall, Adaptive, Self-Validating Numerical Quadrature, SIAM Journal on Scientific and Statistical Computing, 8/5, 1987, pp. 831-847.
  15. George F. Corliss, How is the Teaching of Software Engineering Related to the Teaching of ADA? Journal of Pascal, Ada, and Modula-2, May/June, 1984, pp. 31-33.
  16. George F. Corliss, On Computing Darboux Type Series Analysis, Nonlinear Analysis, Theory, Methods & Applications, V. 7, 1983, pp. 1247-1253.
  17. Y. F. Chang and George F. Corliss, Solving Ordinary Differential Equations Using Taylor Series, ACM Trans. Math. Software, 8, 1982, pp. 114-144. This is probably my single most influential paper.
  18. Y. F. Chang, George F. Corliss, Michael Tabor, and John Weiss, On the Analytic Structure of the HenonHeiles System, Phys. Letters A, 1981.
  19. George F. Corliss, Integrating ODE's in the Complex Plane-Pole Vaulting, Math. Comput., 35, 1980, pp. 1181-1189.
  20. Y. F. Chang and George F. Corliss, Ratio-like and Recurrence Relation Tests for Convergence of Series, J. Inst. Math. Appl., V. 25, 1980, pp. 349-359.
  21. George F. Corliss and David Lowery (student), Choosing a Stepsize for Taylor Series Methods for Solving ODE's, J. Comp. & Appl. Math., 4, 1977, pp. 251-256.
  22. George F. Corliss, Which Root Does the Bisection Algorithm Find? SIAM Reviews, 1977, pp. 325-327.
  23. George F. Corliss, Computer Graphics Assisted Numerical Analysis Instruction, Computers and Graphics, 1976, pp. 11-13.
  24. George F. Corliss,Parallel Rootfinding Algorithms, Ph.D. Thesis, Department of Mathematics, Michigan State University, 1974.
  25. George F. Corliss, Managing the Football Equipment, Scholastic Coach, 1969, pp. 46-48. Not a technical paper, but I wrote it unsupervised as a college junior, and it received more editorial review than any paper I’ve published since.

Publications – Fully refereed book chapters:

  1. George F. Corliss and Jun Yu (student), Interval Testing Strategies Applied to COSY's Interval and Taylor Model Arithmetic, in Springer Lectures Notes on Computer Science (LNCS no. 2992), Numerical Software with Result Verification: Platforms, Algorithms, Applications in Engineering, Physics, and Economics, Rene' Alt, Andreas Frommer, R. Baker Kearfott, Wolfram Luther eds., 2004, pp. 91 – 105.
  2. George F. Corliss and R. Baker Kearfott, Rigorous Global Search: Industrial Applications, in Developments in Reliable Computing,TiborCsendes (ed.), Kluwer, Dordrecht, Netherlands, 1999, pp. 1-16.
  3. George F. Corliss, Which Root Does the Bisection Algorithm Find? In Mathematical Modeling: Classroom Notes in Applied Mathematics, Murray S. Klamkin (ed.), SIAM, Philadelphia, 1997, pp. 186-188. Reprinting of earlier fully refereed paper.
  4. Andreas Griewank, George F. Corliss, Petra Henneberger, Gabriella Kirlinger, Florian A. Potra, and Hans J. Stetter, High-Order Stiff ODE Solvers via Automatic Differentiation and Rational Prediction, in Numerical Analysis and Its Applications, Lecture Notes in Computer Science, No. 1196, Springer, Berlin, 1997, pp. 114-125.
  5. George F. Corliss and Robert Rihm, Validating an A Priori Enclosure Using High-Order Taylor Series, in Scientific Computing, Computer Arithmetic, and Validated Numerics, G. Alefeld and A. Frommer (eds.), AkademieVerlag, Berlin, 1996, pp. 228--238.
  6. George F. Corliss, Where Is Validated ODE Solving Going? In Proceedings of the IMACS-GAMM International Symposium on Numerical Methods and Error Bounds, J. Herzberger, ed. AkademieVerlag, Berlin, 1996, pp. 48-57.
  7. Louis Rall and George F. Corliss, Introduction to Automatic Differentiation, in Computational Differentiation: Techniques, Applications, and Tools, Martin Berz, Christian Bischof, George Corliss, and Andreas Griewank, eds., SIAM, Philadelphia, 1996.
  8. George F. Corliss, Guaranteed Error Bounds for Ordinary Differential Equations, in Ainsworth, Levesley, Light, and Marletta (eds.), in Theory of Numerics in Ordinary and Partial Differential Equations, Oxford University Press, 1995, pp. 1 - 75. Lecture notes for a sequence of five lectures at the VI-th SERC Numerical Analysis Summer School, Leicester University, 25 – 29 July, 1994.
  9. Christian H. Bischof, Alan Carle, George F. Corliss, and Andreas Griewank, ADIFOR: Automatic Differentiation in a Source Translation Environment, in Proceedings of the International Symposium on Symbolic and Algebraic Computation, Paul S. Wang (ed.), ACM Press, New York, 1992, pp. 294-302.
  10. Gabriella Kirlinger and George F. Corliss, On Implicit Taylor Series Methods for Stiff ODEs, in Proceedings of SCAN 1991: International Symposium on Computer Arithmetic and Scientific Computing (Oldenburg, October 1 - 4, 1991), J. Herzberger (ed.), IMACS Annals on Computing and Applied Mathematics.
  11. Robert M. Corless and George F. Corliss, Rationale for Guaranteed ODE Defect Control, in Proceedings of SCAN 1991: International Symposium on Computer Arithmetic and Scientific Computing (Oldenburg, October 1 - 4, 1991), J. Herzberger (ed.), IMACS Annals on Computing and Applied Mathematics
  12. George F. Corliss, Overloading Point and Interval Taylor Operators, in Automatic Differentiation of Algorithms: Theory, Implementation, and Application, Andreas Griewank and George F. Corliss, (eds.), SIAM, Philadelphia, PA, 1991, pp. 139-146.
  13. George F. Corliss, Christian Bischof, Andreas Griewank, Steven J. Wright, and Thomas Robey, Automatic Differentiation for PDEs - Unsaturated Flow Case Study, in Advances in Computer Methods for Partial Differential Equations - VII, Robert Vichnevetshi, Doyle Knight, and Gerard Richter (eds.), IMACS, New Brunswick, NJ, 1992, 150-156.
  14. George F. Corliss and Y. F. Chang, G-Stop Facility in ATOMFT, a Taylor Series Ordinary Differential Equation Solver, in Computational Ordinary Differential Equations, Simeon Ola Fatunla (ed.), University Press, 1992, pp. 37-77.
  15. George F. Corliss, Overloading Point and Interval Taylor Operators, in Automatic Differentiation of Algorithms: Theory, Implementation, and Application, Andreas Griewank, and George F. Corliss (eds.), SIAM, 1991, pp. 139-146.
  16. George F. Corliss, Validated Anti-Derivatives, in Computer Aided Proofs in Analysis (Cincinnati, Ohio, March, 1989), Kenneth R. Meyer and Dieter S. Schmidt (eds.), Springer IMA Volumes in Mathematics and Its Applications, No. 28, 1991, pp. 90-96.
  17. George F. Corliss, Industrial Applications of Interval Techniques, in Computer Arithmetic and Self-Validating Numerical Methods, Notes and Reports in Mathematics in Science and Engineering, No. 7, Christian Ullrich (ed.), Academic Press, 1990, pp. 91-113.
  18. George F. Corliss, Applications of Differentiation Arithmetic, in Proceedings of the International Workshop on Reliability in Computing - The Role of Interval Methods in Scientific Computing (Columbus, Ohio, 1987), Ramon E. Moore (ed.), Academic Press, NY, 1988, pp. 127-148.
  19. George F. Corliss, Performance of Self-Validating Adaptive Quadrature, in Proceedings of the NATO Advanced Workshop on Numerical Integration: Recent Developments, Software and Applications, Patrick Keast and GrameFairweather (eds.), Reidel, Boston, 1987, pp. 239-259.
  20. George F. Corliss, Computing Narrow Inclusions for Definite Integrals, in Computer Arithmetic: Scientific Computation and Programming Languages, Edgar Kaucher, Ulrich Kulisch, and Christian Ullrich (eds.), Teubner, Stuttgart, 1987, pp. 150-169.

Publications – Lightly refereed or edited:

I assign work to this category if there was some external quality control, but low probability of rejection.

  1. George F. Corliss, R. Baker Kearfott, Ned Nedialkov, John D. Pryce, Spencer Smith, Interval Subroutine Library Mission, in Reliable Implementation of Real Number Algorithms: Theory and Practice, in the LNCS series of Springer Verlag, P. Hertling, C. Hoffmann, W. Luther, and N. Revol, eds., 2008: pp. 28-43.
  2. John D. Pryce, George F. Corliss, R. Baker Kearfott, Nedialko S. Nedialkov, Spencer Smith: Second Note on Basic Interval Arithmetic for IEEE754R. Numerical Validation in Current Hardware Architectures, 2008.
  3. George F. Corliss, An Industrial Mathematics Program, in War Stories from Applied Math: Undergraduate Consultancy Projects, Robert Fraga, ed., MAA Notes #71, Mathematical Association of America, Washington, D.C., 2007, pp. 5 – 24. Kick-off article from which the book title is taken.
  4. George F. Corliss, Course Integration, in War Stories from Applied Math: Undergraduate Consultancy Projects, Robert Fraga, ed., MAA Notes #71, Mathematical Association of America, Washington, D.C., 2007, pp. 47 – 54.
  5. George F. Corliss and Kaj Madsen, Second Scandinavian Workshop on Interval Methods and Their Applications, Reliable Computing, 12/2, April 2006, pp. 167 – 169.
  6. H. Martin Brücker and George F. Corliss, A Bibliography of Automatic Differentiation, in Automatic Differentiation: Applications, Theory, and Implementations, 2005, pp. 319 – 352.
  7. George F. Corliss, Automatic Differentiation Bibliography, in Automatic Differentiation: From Simulation to Optimization, George Corliss, Christèle Faure, Andreas Griewank, Laurent Hascoët, and UweNaumann (eds.), Springer, New York, 2002.
  8. George F. Corliss and Louis B. Rall, Bounding Derivative Ranges, in Encyclopedia of Optimization, vol. 1, Panos M. Pardalos and C. A. Floudas (eds.), Kluwer, Dordrecht, 2001, pp. 209 - 215.
  9. Louis B. Rall and George F. Corliss, Automatic Differentiation: Point and Interval, in Encyclopedia of Optimization, vol. 1,Panos M. Pardalos and C. A. Floudas (eds.), Kluwer, Dordrecht, 2001, pp. 108 - 113.
  10. James B. Walters (student) and George F. Corliss, Automatic Differentiation: Point and Interval Taylor Operators, in Encyclopedia of Optimization, vol. 1,Panos M. Pardalos and C. A. Floudas (eds.), Kluwer, Dordrecht, 2001, pp. 113 - 118.
  11. George F. Corliss, SCAN '98 Collected Bibliography, in Developments in Reliable Computing,TiborCsendes (ed.), Kluwer, Dordrecht, Netherlands, 1999, pp. 383-402.
  12. Paulina Chin (student), Robert M. Corless, and George F. Corliss, Optimization Strategies for the Floating-Point GCD, in Proceedings of the 1998 International Symposium on Symbolic and Algebraic Computation (ISAAC '98), Oliver Gloor (ed.), ACM Press, New York, 1998, pp. 228-235.
  13. Wenhong Yang (student) and George F. Corliss, Bibliography for Automatic Differentiation, in Computational Differentiation: Techniques, Applications, and Tools, Martin Berz, Christian Bischof, George Corliss, and Andreas Griewank, eds., SIAM, Philadelphia, 1996.
  14. George F. Corliss, Automatic Differentiation Bibliography, in Automatic Differentiation of Algorithms: Theory, Implementation, and Application, Andreas Griewank and George F. Corliss (eds.), SIAM, Philadelphia, PA, 1991, pp. 331-353.
  15. George F. Corliss, Design of Ada Library of Elementary Functions with Error Handling, Journal on Pascal, Ada, and Modula-2, 6, 1987.
  16. George F. Corliss, A Search for Interactive Computer Graphics Lessons in Numerical Analysis, SIGSCE Bulletin, June, 1978.
  17. George F. Corliss, Finding Eigenfunction Expansions of PDE's Using Taylor Series, Abstract appeared in Notices of the AMS, pp. A-161, 1978.

Publications – Conference proceedings (lightly refereed) (incomplete):