BIOGRAPHICAL SKETCH AND PROFESSIONAL ACTIVITIES RENSSELAER POLYTECHNIC INSTITUTE Instructions: Type in the information. If you feel that there is significant information about yourself that is not covered by the listed categories, make the necessary additions. Use extra sheets if necessary. I. Personal Data Name: Joseph E. Flaherty Current Rank: Amos Eaton Professor Department: Computer Science and Mathematical Sciences School: Science Year and rank of first academic appointment at Rensselaer (e.g. instructor, assistant, associate, or full professor). Give dates and rank for subsequent promotions. 1972 1978 1983 1984 1986 1991 1998 2000 2001

Assistant Professor Associate Professor Professor - 1986 Acting Chairperson, Department of Computer Science - 1991 Chairperson, Department of Computer Science Amos Eaton Professor Professor of Information Technology - 2001 Acting Chairperson, Department of Computer Science Dean, School of Science

Date of Birth: September 16, 1943 Educational Preparation (1) Baccalaureate and graduate degree(s), institution, date B.S. (A.E.) Polytechnic Institute of Brooklyn, 1964 M.S. (Applied Mechanics) Polytechnic Institute of Brooklyn, 1966 Ph.D. (Applied Mechanics) Polytechnic Institute of Brooklyn, 1969 (2) Non-degree preparation 1962-64 Research Technician, Polytechnic Institute of Brooklyn 1964-68 NASA Pre-Doctoral Traineeship, NSF Pre-Doctoral Traineeship, Polytechnic Research Fellowship, Adjunct Instructor of Applied Mechanics, Polytechnic Institute of Brooklyn

1

II. Professional Experience (Give postdoctoral, teaching, industrial, governmental, and private practice experience prior to joining Rensselaer, giving position, employer, and dates.) 1969

Engineer, Structural Mechanics Section, Grumman Aerospace Corporation, Bethpage, New York 1968-70 Instructor of Applied Mechanics, Polytechnic Institute of Brooklyn 1969-70 Consultant with M. A. Goldberg Associates, Naval Architects 1970-72 Assistant Professor of Mathematics, New York University III. Teaching A. Courses (List the number and title of each course taught and approximate number of students in each course; Include undergraduate project supervision and courses that you have supervised with the number of instructors and students involved.) Date Number Title Enrol. 1973

Spring

65.441 65.441 65.441 65.697

Computing I Computing I Computing I Numerical Methods for Partial Differential Equations

31 28 33 21

January

JTC543

3

Spring

66.202 65.441 66.110 65.641

Mathematical Meteorology (with D. A. Drew and W. L. Siegmann) Introduction to Computer Science Computing I Computing Fundamentals Numerical Analysis I

Fall

1974

Fall

1975

January

JTC545

Spring

65.442 65.642 66.110 66.110 65.441 66.110

Fall

Population Genetics (with G. M. Odell and E. H. Rogers) Numerical Methods II Numerical Analysis II Computing Fundamentals Computing Fundamentals Numerical Computing Computing Fundamentals (Course Supervisor, 14 sections)

2

69 37 34 14 10 7 10 54 58 35 850

Date 1976

Number Spring 65.442 66.110 Fall

66.113 66.641 66.113

1977

Spring 66.642

Fall

66.113 65.415 66.113

Title

Enrol.

Advanced Numerical Computing 18 Computing Fundamentals (Course 350 Supervisor, 6 sections) Computing Fundamentals for 360 Engineers (2 sections) Numerical Analysis I 11 Computing Fundamentals for 720 Engineers (Course Supervisor, 18 sections, 6 faculty, 15 teaching assistants) Numerical Analysis I Advisor to J. Ried on Undergraduate Computer Science project Computing Fundamentals for Engineers (2 sections) Differential Equations Computing Fundamentals for Engineers (Course Supervisor, 21 sections, 6 faculty, 14 teaching assistants)

9

220 20 720

1978

Spring 65.6T02 Fall 65.441 65.641

Finite Element Analysis Numerical Computing Numerical Analysis I

11 18 19

1979

Spring 65.442 65.642 Fall 66.110 66.113

Advanced Numerical Computing Numerical Analysis II Computing Fundamentals Computing Fundamentals for Engineers Numerical Computing Computing Fundamentals (Course Supervisor, 3 sections, 1 faculty 2 teaching assistants, 2 graders)

11 11 34 185

65.441 66.110

3

41 270

Date

Number

Title

Enrol.

65.441 65.643

Numerical Computing Numerical Solution of Partial Differential Equations

75 20

1981

Fall

1982

Spring 65.442 65.644 Fall 66.111

Advanced Numerical Methods 21 Finite Element Analysis 19 Computing Fundamentals: Pascal 47

1983

Fall

Numerical Solution of Partial Differential Equations

33

1984

Spring 65.644 Fall 66.6963

Finite Element Analysis Adaptive Methods for Partial Differential Equations

30 10

1985

Fall

Numerical Solution of Partial Differential Equations

26

1986

Spring 66.644

Finite Element Analysis

26

1987

Fall

Numerical Solution of Partial Differential Equations

31

1988

Spring 66.644

Finite Element Analysis

24

1989

Spring 66.642

Approximation and Numerical Solutions of Ordinary Differential Equations Numerical Solution of Partial Differential Equations

17

Fall

65.643

65.643

66.643

66.643

26

1990

Spring 66.644

Finite Elements Analysis

25

1991

Spring 66.642

Approximation and Numerical Solution of Ordinary Differential Equations Numerical Computing

15

22

Finite Element Analysis

15

Fall 1992

66.441

Spring 66.644

4

Date

Number

Title

Enrol.

65,66.6430

Numerical Solutions of Partial Differential Equations

31

1993

Fall

1994

Spring 65,66.644 Fall 66.441

Finite Element Analysis Numerical Computing

35 49

1995

Spring 66.642

Approximation and Numerical Solution of Ordinary Differential Equations Numerical Solutions of Partial Differential Equations

20

Fall

65,66.643

31

1996

Spring 65,66.644 Fall 65,66.641

Finite Element Analysis Computational Algebra and Optimization

25 25

1997

Spring 37,66.496, 37,66.696 Fall 65,66.684

Computational Science and Engineering Numerical Solution of Partial Differential Equations Numerical Solution of Partial Differential Equations

17

65,66.684

1998 1998 1999

2000

Spring 65,66.686 Fall CSCI 6800

Finite Element Analysis Computational Linear Algebra (with F. Luk and W. Turner) Spring CSCI 6820 Numerical Solution of Ordinary Differential Equations Fall CSCI, MATH Numerical Solution of Partial 6840 Differential Equations Spring CSCI, MATH Finite Element Analysis 6860

11 31

13 30 16 24 18

B. Student Thesis Supervision (List student’s name, title of thesis, and year completed.) a. Bachelors Rebecca Kiesman (Computer Science), “Solving Two-Point Boundary Value Problems,” May, 1974. Jin Chang (Computer Science), “Heterogeneous Load Balancing,” expected completion, May 2003. b. Masters Michael Donahue (Computer Science), “The Computational Solution of Hydrodynamic Stability Problems,” May 1977. 5

Rohit Patel (Computer Science), “Three-Dimensional Graphics Software,” May 1977. Gail Worthington (Computer Science), “Two-Dimensional Graphics Software,” May 1977 (co-advisor with G.M. Odell). Peter Smyton (Applied Mathematics), “Evolution of Sand Bed Formation,” June 1977 (co-advisor with D.A. Drew). Rohit Patel (Computer Science), “Effective Conductivity of a Matrix of Circular Cylinders in a Square Lattice,” May 1978. William Mathon (Applied Mathematics), “The Solution of Two-Point Boundary Value Problems Using Splines Under Tension,” August 1978. Steven Marlin (Computer Science), “Comparative Solutions of Two-Point Boundary Value Problems Using Finite Difference and Shooting Methods,” December 1978. G. Mathew Heitker (Computer Science), “Solving Systems of Second Order Two-Point Boundary Value Problems,” May 1979. C.L. Chai (Computer Science), “PADL Version for PRIME 500,” August 1979 (co-advisor with M.J. Wozny). J. Michael Coyle (Applied Mathematics), “A Numerical Method for Approximating Solutions of Two-Point Boundary Value Problems by Averaging and Using a Spline Under Compression,” December 1979. Angela Chen (Computer Science), “Numerical Solution of Singularly-Perturbed Boundary Value Problems,” May 1982. William Harte (Computer Science), “Adaptive Software for Systems of Singularly-Perturbed Two-Point Boundary Value Problems,” June 1983. Dennis Rochette (Applied Mathematics), “Software for Large Sparse, Nonsymmetric Linear Algebraic Systems by Conjugate Gradient Methods,” June 1983. Robin Melvin (Applied Mathematics), “Automatic Mesh Generation for Fluid Flow Problems,” June 1983. William J. Schroeder (Applied Mathematics), “Numerical Comparison of Five Finite Elements for Shell Analysis,” December 1983. James Hayes (Applied Mathematics), “Graphics Subroutines for Partial Differential Equations,” May 1984. Geoffrey Weigle (Computer Science), “Automation of Chromium Plating Experiment,” May 1984 (co-advisor with Dr. E.S. Chen). David Letizia (Applied Mathematics), “Numerical Methods for Elastic-Plastic Impact Problems,” May 1984 (co-advisor with D.A. Drew). Fabio Guerinoni (Computer Science), “Solving the Euler Equations in Two Spatial Dimensions Using Modified Quadtree Meshes,” May 1986. Rupak Biswas (Computer Science), “Adaptive Finite Difference Schemes for Hyperbolic Systems,” May 1987. X.-L. C. Wu (Computer Science), “Adaptive Finite Element Method for Elliptic System in Two-Dimensional Space by Using Multigrid Technique,” December 1987. Karen Dragon (Computer Science), “A Low-Cost Hypercube Load Balance 6

Algorithm,” May 1989. Qi Yan (Computer Science), “Computational Methods for Radiation Problems,” May 1997. Hongwei Li (Computer Science), “Interdisciplinary Thermal Analysis in the Czochralski Crystal Growth Process Using a hp Adaptive Finite Element Environment,” May 1998 (co-advisor with M.S. Shephard). L. Gervasio (Computer Science), “Dynamic Load Balancing Strategies for Parallel Adaptive Computation,” M.S., December 1998. Paul Campbell (Computer Science), “The Performance of an Octree Load Balancer for Parallel Adaptive Finite Element Computation,” May 2001 (coadvisor with J. D. Teresco of Williams College). Dali Wang (Computer Science), “Investigation of Turbulent Fluctuations in Liquid Encapsulated Czochralski (LEC) Crystal Growth Systems,” August 2001 (co-advisor with K. Jansen). Current M.S. Students c. Doctoral (After listing these, add number of theses in which you participated as a committee member.) Thesis Supervisor Stephen F. Davis, An Adaptive Grid Finite Element Method for InitialBoundary Value Problems, March 1980. Current position: Director Numerical Mathematics, U.S. Army Research Office. Kahlid Bukhari (Nuclear Engineering), Phase Separation and Distribution Phenomena in a Two-Dimensional Test Section, May 1985 (co-advisor with R.T. Lahey). D. Christopher Arney (Applied Mathematics), An Adaptive Mesh Algorithm for Solving Systems of Time Dependent Partial Differential Equations, August 1985. Current position: Chair of Mathematics, United States Military Academy. Slimane Adjerid (Mathematics), Adaptive Finite Element Methods for Time Dependent Partial Differential Equations, October 1985. Recipient of the J.B. Diaz prize. Current position: Associate Professor, Virginia Polytechnic Institute and State University. S.S. Sim (Nuclear Engineering), Phase Distribution Phenomena in Triangular Conduits, March 1986 (co-advisor with R.T. Lahey). Peter K. Moore (Mathematics), A Local Adaptive Finite Element Method for Solving One- and Two-dimensional, Systems of Parabolic Partial Differential Equations, May 1988. Current position: Professor, Tulane University. Gautam Shroff (Computer Science) Parallel Jacobi Algorithms for the Algebraic Eigenvalue Problem, March 1990 (co-advisor with R. Schreiber). Current position: Professor, Indian Institute of Technology, Kanpoor. Raymond Schmidt (Mathematics) Adaptive Quadtree Discretization for Fluid Flow Problems, April 1991. Fabio Guerinoni (Computer Science) Parallel Solution of the Three-Dimen-

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sional Euler Equations Using Finite Octree Meshes, April 1991. Rupak Biswas (Computer Science) Parallel and Adaptive Methods for Hyperbolic Partial Differential Systems, August 1991. Current position: Scientist, NASA Ames Research Center. Yun Wang (Mathematics) An Adaptive Local HPR-Refinement Finite Element Method for Parabolic Partial Differential Equations, August 1991. Messaoud Benantar (Computer Science) Parallel and Adaptive Algorithms for Elliptic Partial Differential Systems, August 1992. Current position: Computer Scientist: IBM Steven Hammond (Computer Science) Mapping Unstructured Grid Computations to Massively Parallel Computers, August 1992 (co-advisor with R. Schreiber). Current position: Director of Computing, National Center for Atmospheric Research. Juhyeon Yoon (Nuclear Engineering and Engineering Physics), A Streamline Upwinding Finite Element Method for Multiphase Flow and Heat Transfer Analysis, May 1993 (co-advisor with R. T. Lahey). J. Michael Coyle (Mathematics), An Hr-Refinement Finite Element Method for Systems of Parabolic Partial Differential Equations with Stability Analyses for Mesh Movement, May 1993. Current position: Mathematician, Ben´et Laboratories. Steven P. Antal (Mechanical Engineering), Phase Distribution in Bubbly Two-Phase Flows, May 1994 (co-advisor with R. T. Lahey). Current position: Section Head, Knolls Atomic Power Laboratory. Karen D. Devine (Computer Science), An Adaptive HP-Finite Element Method with Dynamic Load Balancing for the Solution of Hyperbolic Conservation Laws on Massively Parallel Computers, May 1994. Current position: Scientist, Sandia National Laboratory. Van-Duc Nguyen (Computer Science), Extract Models From Images with Parameterized Templates, May 1994 (co-advisor with J. L. Mundy). Current postion: Scientist, G.E. Corportate Research and Development Center. Augusto C. M. deMoraes (Mechanical Engineering), Analysis of Compressible Laminar Boundary layers at Mach Numbers up to 30 Considering Real Gas Effects, May 1995 (co-advisor with H. Nagamatsu). Current position: Engineer, Centric Engineering. ¨ Can Ozturan (Computer Science), Distributed Environment and Load Balancing for Adaptive Unstructured Meshes, May 1995 (co-advisor with B. K. Szymanski). Current position: Assistant Professor, Department of Computer Engineering, Bo˘gazi¸ci University. Mohammed Aiffa (Mathematics), Adaptive hp-Refinement Methods for Singularly-Perturbed Elliptic and Parabolic Systems, December 1997 (co-advisor with S. Adjerid). Current position: Assistant Professor, Texas A&M University. Markus Hitz (Computer Science), Efficient Algorithms for Computing the Nearest Polynomial with Constrained Roots, May 1998 (co-advisor with E. Kaltofen). 8

Raymond M. Loy (Computer Science), Adaptive Local Refinement with Octree Load-Balancing for the Parallel Solution of Three-Dimensional Conservation Laws, May 1998. Current position: Staff Scientist, Argonne National Laboratories. James D. Teresco (Computer Science) A Hierarchical Partition Model for Parallel Adaptive Finite Element Computation, August 2000. Founders Award and Mc Naughton prize recipient. Current positon: Assistant Professor, Williams College. Wesley D. Turner (Computer Science) Multilevel Preconditioning Methods for the Parallel, Iterative Solution of Large, Sparse, Systems of Equations, December 2000. Founders Award and Mc Naughton prize recipient. Current position: Computer Scientist, GE CR&D. Eric Kathe (Mechanical Engineering) Rarefaction Wave Gun Propulsion, May 2002 (co-advisor with H. Nagamatsu). Current position: Engineer, Ben´et Laboratories. Lilia Krivodonova (Mathematics) Error Estimation for Discontinuous Galerkin Solutions of Hyperbolic Problems, August 2002. Founders Award and J.B. Diaz prize recipient. Current position: Postdoctoral fellow, Courant Institute of Mathematical Sciences, New York University. Toshiro Ohsumi (Computer Science) Efficient Methods for Solving Biomechanical Equations, May 2003. Current position: Assistant Professor, Colgate University. Current Ph.D. Students Jamal Faik (Computer Science) is studying dynamic load balancing strategies for heterogeneous systems. Passed candidacy. Expected completion: December 2004.. Luis Gervasio (Computer Science) is studying dynamic load balancing and parallel memory management schemes. Expected completion: May 2005. Peng Hu (Computer Science) is studying discontinuous Galerkin methods for hyperbolic problems. Expected completion: May 2005. Jianguo Xin (Mathematics) is studying error estimation for adaptive computation. Passed candidacy. Expected completion: May 2005. Vishwanath Ramakkagari (Computer Science) is studying error estimation for adaptive computation. Expected completion: May 2006. Committee Memberships

9

1974

S. Kang, Nuclear Engineering T. E. Laskaris, Mechanical Engineering

1975

J. Glowienka, Electrophysics

1976

M. Barry, Mathematical Sciences F. Fang, Physics T. Genoni, Physics T. McManus, Physics C. Mong, Mathematical Sciences S. Y. Mui, Electrical Engineering A. Parvez, Nuclear Engineering E. Pate, Mathematical Sciences

10

1977

A. Ancona, Nuclear Engineering J. Biffer, Nuclear Engineering

1978

E. Amorim, Nuclear Engineering A. Nourai, Electrical Engineering 1979 A. Badruzzaman, Nuclear Engineering F. Baldasaro, Nuclear Engineering F. Ferrandino, Physics K. Hamilton, Mathematical Sciences B. Quan, Nuclear Engineering J. Ryskamp, Nuclear Engineering J. Saghri, Systems Engineering 1980

L. W. Chen, Mechanical Engineering R. H. V. Gallucci, Nuclear Engineering S. Kim, Nuclear Engineering

1981

J. Buckler, Nuclear Engineering H. Hattori, Mathematical Sciences

1982

R. Taleyarkhan, Nuclear Engineering A. Eghlima, Chemical Engineering C.-T. Chien, Nuclear Engineering

1983

R. Clare, Physics G. H. Ganser, Mathematics S. T. Dziuban, Operations Research A. Prati, Nuclear Engineering

1984

W.F. Bessler, Mechanical Engineering P. Feigenbaum, Nuclear Engineering S.-J. Peng, Nuclear Engineering I. H. Yang, Mechanical Engineering J. W. Trolier, Aeronautical Engineering J. P. Peng, Electric Power Engineering S. M. Yunus, Civil Engineering

1985

S.-F. Huang, Nuclear Engineering T. L. Jackson, Mathematics A. Sherman, Physics M. Sutcu, Mechanical Engineering

1986

C. Andrade, Mechanical Engineering K.H. Hedengren, Electrical Engineering B.R. Koh, Nuclear Engineering L. Salasoo, Electrical Power Engineering H.T. Tran, Mathematics 11

1987

D. Yao, Mechanical Engineering H. Zhang, Computer Science Y. Zhou, Mechanical Engineering C. Hong, Mechanical Engineering Z. Gu, Mathematics J.B. Attili, Electrical Engineering

1988

S. Cheng, Mechanical Engineering Y. Rhim, Mechanical Engineering M. Kodeih, Computer Science J. Pessanha, Mechanical Engineering M.Y. Ariyapadi, Chemical Engineering L. Yagati, Computer Science

1989

P. Baehmann, Mechanical Engineering M. Georges, Mechanical Engineering Y.S. Suk, Mechanical Engineering N.-M. Yeh, Mechanical Engineering M. Vermilyea, Mechanical Engineering Y. Zhou, Mechanical Engineering

1990

M.A. Wu, Electrical Engineering M.E. Vermilyea, Mechanical Engineering Y.S. Suh, Mechanical Engineering D.J. Powell, Computer Science

1991

W. Schroeder, Mechanical Engineering M. Minucci, Mechanical Engineering

1992

M. King, Mechanical Engineering C. Borkowski, Mechanical Engineering K. Herd, Mechanical Engineering B. Sinharoy, Computer Science S. Chung, Chemical Engineering

1993

B. Webster, Mechanical Engineering

1994

S.W. Kim, Nuclean Engineering

R.J. Jardine, Mathematics 1995 P. Caprioli, Mathematics 1996

C. Norton, Computer Science D. Vandevoorde, Computer Science

12

1997

S. Blythe, Computer Science M.L. Egan, Computer Science M.D. Zahler, Mathematics R.R. Collar, Mechanical Engineering

1998

H.L. deCougny, Civil Engineering M.L. Simone, Mechanical Engineering R. Gamarella, Mechanical Engineering

1999

D. Messitt, Mechanical Engineering S. Duan, Mechanical Engineering M. Beall, Mechanical Engineering C. Whiting, Mechanical Engineering T.E. Giddings, Mechanical Engineering

2000

Y. Qu, Civil Engineering J. Byrne, Mathematics J. Nesheiwat, Computer Science

2001

R. Kalan, Mechanical Engineering

2002

C. Volpe, Computer Science G. A. Pavliotis, Mathematics R. V. Abramov, Mathematics I. Fatkullin, Mathematics A. Clark, Mathematics A. Tejada-Mart´ınez, Mech. Engng. R. Wang, Mathematics, Dahlhousie Univ. d. Postdoctoral Slimane Adjerid, Rensselaer Polytechnic Institute, Postdoctoral fellow, December 1985 - August 1986. Universit´e des Science et de la Technologie Hourari Boum`ediene, Visiting Research Scientist, September 1990 - August 1991 and September 1992 - August 1994. Martin Berzins, University of Leeds, Visiting Associate Professor, December 1988 - September 1989. Peter K. Moore, Rensselaer Polytechnic Institute, May 1998 - August 1990. Yun Wang, Rensselaer Polytechnic Institute, September 1991 - August 1993. Dan Givoli, Technion, Israel Institute of Technology, Visiting Associate Professor, September 1995 - August 1996 (joint with M.S. Shephard). John C. Butcher, University of Auckland, Visiting Professor, January 1997 - April 1997. Vadim Korneev, Saint Petersberg Univeristy, Visiting Professor, April 1998 - December 1998 (joint with J. Fish). Hongyi Yu, Tulane University, September 1997 - July 1999 (joint with M.S. Shephard). 13

Raymond Loy, Postdoctoral Fellow, Rensselaer Polytechnic Institute, January 1998 - August 1998. Mohammed Aiffa, Rensselaer Polytechnic Institute, Postdoctoral Fellow, January 1998 - August 1998. Ping Lin, Stanford University, Postdoctoral Fellow, September 1998 - December 1998. Kang Wang, Townsville University, Postdoctoral Fellow, November 1998 June 1999. Jean-Francois Remacle, University of Montreal, Research Associate, September 1999 - 2002 (with M.S. Shephard). Current Position: Professor, Universit´e Catholique de Louvain. Katia Pinchedez, Strathclyde University, Postdoctoral Fellow, SCOREC, September 2001 - March 2003. Nicolas Chevaugeon, University of Nantes, Postdoctoral Fellow, January 2002 - March 2004 (joint with Mark Shephard). Srinivas Lankalapalli, North Carolina State University, Postdoctoral Fellow, SCOREC, February 2002 - date. C. Course and Curriculum Development 1980. Chaired a committee to reorganize two semester graduate Numerical Analysis sequence (65.6410, 6420) into a four semester sequence (65,66.64106440). 1984. Introduced a special topics course on adaptive numerical methods for partial differential equations. 1996. Chaired a committee to create Computational Science and Engineering Degree Programs. Administering this interdisciplinary program since its inception. Thus far, the program has awarded 13 Ph.D. and 5 M.S. degrees. 1996 Chaired a committee to create a Computational Science and Engineering studio. 1997 Developed the Computational Science and Engineering Studio and offered the course to an interdisciplinary group of computer science, mathematics, and mechanical engineering undergraduate and graduate students. 1997 Developed a M.S. program in Computational Mechanics which is given on-site to computer scientists and engineers at the Knolls Atomic Power Laboratory. IV. Publications A. Books, Monographs (Give title, co-authors if any, publisher, date. State if a contributing author to an edited compilation.) 1. J.E. Flaherty and J. Chandra, Eds., Computational Aspects of Penetration Mechanics, Lecture Notes in Engineering, Vol. 3, Springer-Verlag, Berlin, 1983, 221 pages. 14

2. I. Babuˇska, J. Chandra, and J.E. Flaherty, Eds., Adaptive Computational Methods for Partial Differential Equations, SIAM, Philadelphia, 1983, 251 pages. 3. D.A. Drew and J.E. Flaherty, Eds., Mathematics Applied to Fluid Mechanics and Stability: Proceedings of a Conference Dedicated to Richard C. DiPrima, SIAM, Philadelphia, 1986, 295 pages. 4. M. Bieterman, J.E. Flaherty, and P.K. Moore, “Adaptive refinement methods for nonlinear parabolic partial differential equations,” Chapter 19 in I. Babuˇska, O.C. Zienkiewicz, J.R. Gago, and E.R. de A. Oliveira, Eds., Accuracy Estimates and Adaptive Refinements in Finite Element Computations, John Wiley and Sons, Ltd., London, pp. 339-358, 1986. 5. J.E. Flaherty, P.J. Paslow, M.S. Shephard and J.D. Vasilakis, Eds., Adaptive Methods for Partial Differential Equations, SIAM, Philadelphia, 1989, 265 pages. 6. M. Benantar, R. Biswas, J.E. Flaherty, and P.K. Moore, “Symbolic and parallel adaptive methods for partial differential equations,” Chapter 12 in B.R. Donald, D. Kapur and J.L. Mundy, Eds., Symbolic and Numerical Computation for Artificial Intelligence, Academic Press, London, pp. 277-302, 1992. ¨ 7. M. Benantar, J.E. Flaherty, C. Ozturan, M.S. Shephard, and B.K. Szymanski, “Parallel computation in adaptive finite element analysis,” Chapter 7 in C.A. Brebbia and M.H. Aliabadi, Eds., Adaptive Finite Element and Boundary Element Methods, Computational Mechanics Publications., Southampton, co-published with Elsevier Applied Science, London, 1993. 8. K. Clark, J.E. Flaherty, and M.S. Shephard, Eds., Applied Numerical Mathematics, 14, Nos. 1-3, April 1994, 365 pages. Guest Editors, special edition on Adaptive Methods for Partial Differential Equations. 9. I. Babuˇska, J.E. Flaherty, W.D. Henshaw, J.E. Hopcroft, J.E. Oliger, and T. Tezduyar, Eds., Modeling, Mesh Generation, and Adaptive Numerical Methods for Partial Differential Equations, The IMA Volumes in Mathematics and its Applications, Vol. 75, Springer-Verlag, New York, 1995, 450 pages. ¨ 10. M.S. Shephard, J.E. Flaherty, H.L. de Cougny, C.L. Bottasso, and C. Ozturan, “Parallel automatic mesh generation and adaptive mesh control,” in M. Papadrakakis, Ed., Solving Large Scale Problems in Mechanics: Parallel and Distributed Computer Applications, John Wiley and Sons, Chichester, pp. 459-493, 1997. 11. S. Adjerid, M. Aiffa, and J.E. Flaherty, “Computational methods for singularly perturbed systems,” in J.D. Cronin and R.E. O’Malley, Jr., Eds., Analyzing Multiscale Phenomena Using Singular Perturbation Methods, Proceedings of Symposia in Applied Mathematiccs, Vol. 56, AMS, Providence, pp. 47-83, 1999. 12. J.E. Flaherty, R.M. Loy, M. Dindar, M.S. Shephard, B.K. Szymanski, J.D. Teresco, and J.H. Ziantz, “An Adaptive and Parallel Framework for Partial 15

Differential Equations,” in D.F. Griffiths, D.J. Higham, and G.A. Watson, Eds., Numerical Analysis 1997, Pitman Research Notes in Mathematics Series 380, Addison Wesley Longman, Harlow, pp. 74 - 90. 13. M. Bern, J.E. Flaherty, and M. Luskin, Eds., Grid Generation and Adaptive Algorithms, The IMA Volumes in Mathematics and its Applications, Vol. 113, Springer, New York, 1999, 181 pages. B. Journal Articles (Give title, co-authors if any, journal, volume, issue, date, paging. List spinoffs (i.e., publications essentially on same piece of work) from a major work under the major item. Provide copies for at least the past six years of all journal articles, abstracts, and book reviews if they are not already with the department file. This list should also contain articles accepted but not yet in print and those submitted and not yet reviewed.) 1. In refereed journals (articles which are reviewed by peers in the field prior to publication). (a) Major articles 1. J.E. Flaherty and W.P. Vafakos, “Analysis of singly symmetric oval rings with variable cross section,” Journal of Ship Research, 14, No. 3, pp. 143-152, 1970. 2. J.E. Flaherty and W.P. Vafakos, “Asymptotic solution for pressurized noncircular cylinders with nonuniform rings,” A.I.A.A. Journal, 9, No. 9, pp. 1725-1732, 1971. 3. J.E. Flaherty, J.B. Keller, and S.I. Rubinow, “Post buckling behavior of elastic tubes and rings with opposite sides in contact,” SIAM Journal of Applied Mathematics, 23, No. 4, pp. 446-455, 1972. 4. J.E. Flaherty and J.B. Keller, “Contact problems involving a buckled elastica,” SIAM Journal of Applied Mathematics, 24, No. 2, pp. 215-225, 1973. 5. J.E. Flaherty and J.B. Keller, “Elastic behavior of composite media,” Communications on Pure and Applied Mathematics, XXVI, No. 4, pp. 565-580, 1973. 6. J. Buckmaster and J.E. Flaherty, “The bursting of two-dimensional drops in slow viscous flow,” Journal of Fluid Mechanics, 60, Pt. 4, pp. 625-639, 1973. 7. J.E. Flaherty and R.E. O’Malley, Jr., “The numerical solution of boundary value problems for stiff differential equations,” Mathematics of Computation, 31, No. 137, 66-93, 1977. 8. J.E. Flaherty and R.E. O’Malley, Jr., “On the computation of singular controls,” IEEE Transactions on Automatic Control, AC-22, No. 4, pp. 640-647, 1977. 9. R.E. O’Mally, Jr. and J.E. Flaherty, “Singular singular-perturbation problems,” in Lecture Notes in Mathematics: Singular Perturbation and Boundary Layer Theory, No. 594, Springer-Verlag, Berlin, 1977. 16

10. F. C. Hoppensteadt and J.E. Flaherty, “Frequency entrainment of a forced Van der Pol oscillator,” Studies in Applied Mathematics, 58, pp. 5-15, 1978. 11. J.E. Flaherty and R.C. DiPrima, “Numerical investigation of the effect of a Coriolis force on the stability of plane Poiseuille Flow,” The Physics of Fluids, 21, No. 5, pp. 718-726, 1978. 12. F. C. Hoppensteadt and J.E. Flaherty, “Nonunique stable responses of externally forced oscillatory systems,” in O. Gurel and O. E. Rossler, Eds., Bifurcation Theory and Applications in Scientific Disciplines, Annals of the New York Academy of Science, Vol. 316, pp. 511-516, 1979. 13. J.E. Flaherty and R. E. O’Malley, Jr., “The numerical solution of singular singularly-perturbed initial value problems,” in P.W. Hemker and J.J.H. Miller, Eds., Numerical Analysis of Singular Perturbation Problems, Academic Press, London, pp. 143-180, 1979. 14. R.T. Lahey, Jr., L. Y. Cheng, D.A. Drew, and J.E. Flaherty, “The effect of virtual mass on the numerical stability of accelerating two-phase flows,” International Journal of Multiphase Flow, 6, pp. 281-294, 1980 15. J.E. Flaherty and R.E. O’Malley, Jr., “Analytical and numerical methods for nonlinear singular singularly-perturbed initial value problems,” SIAM Journal on Applied Mathematics, 38, pp. 225-247, 1980. 16. J.E. Flaherty and W. Mathon, “Collocation with polynomial and tension splines for singularly-perturbed boundary value problems,” SIAM Journal on Scientific and Statistical Computing, 1, No. 2, pp. 260-289, 1980. 17. J.E. Flaherty and W. Mathon, “Collocation methods for singularly-perturbed boundary value problems,” in J.J.H. Miller, Ed., Boundary and Interior Layers - Computational and Asymptotic Methods, Boole Press, Dublin, pp. 77-92, 1980. 18. R.E. O’Malley, Jr. and J.E. Flaherty, “On the numerical integration of two-point boundary value problems for stiff systems of ordinary differential equations,” in J.J.H. Miller, Ed., Boundary and Interior Layers Computational and Asymptotic Methods, Boole Press, Dublin, pp. 93-102, 1980. 19. S.F. Davis and J.E. Flaherty, “An adaptive finite element method for initial-boundary value problems for partial differential equations,” SIAM Journal on Scientific and Statistical Computing, 3, pp. 6-27, 1982. 20. J.E. Flaherty, “A rational function approximation for the integration point in exponentially weighted finite element methods,” International Journal of Numerical Methods in Engineering, 18, pp. 782-791, 1982. 21. J.E. Flaherty, “Explicit difference schemes for wave propagation and impact Problems,” Trans. 27th Conf. Army Mathematicians, ARO Rep. 82-1, pp. 321-338, 1982. 22. R.E. O’Malley, Jr. and J.E. Flaherty, “Singularly-perturbed boundary value problems for nonlinear systems, including a challenging problem for 17

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nonlinear beams,” in W. Eckhaus and E.H. de Jager, Eds., Proceedings of a Conference on Singular Perturbations and Applications, Lecture Notes in Mathematics, 942, Springer-Verlag, Berlin, pp. 170-191, 1982. J.E. Flaherty and R.E. O’Malley, Jr., “Asymptotic and numerical methods for vector systems of boundary value problems,” Proceedings 1982 Army Numerical Analysis and Computers Conference, ARO Report 82-3, pp. 381-395, 1982. J.E. Flaherty and R.E. O’Malley, Jr., “On the numerical solution of singularly-perturbed vector boundary value problems,” in R.S. Stepelman, M. Carver, R. Reskin, W.F. Ames, and R. Vichnevetsky, Eds., Proceedings 10th IMACS World Congress, Montreal, pp. 105-112, 1982. J.E. Flaherty and R.E. O’Malley, Jr., “Numerical methods for stiff systems of two-point boundary value problems,” SIAM Journal on Scientific and Statistical Computing, 5, pp. 865-886, 1984. J.M. Coyle, J.E. Flaherty, R. Ludwig, and S.F. Davis, “Adaptive finite element methods for parabolic partial differential equations,” in I. Babuˇska, J.E. Flaherty and J. Chandra, Eds., Adaptive Computational Methods for Partial Differential Equations, SIAM, Philadelphia, pp. 144-164, 1983. D.A. Drew and J.E. Flaherty, “Adaptive finite element methods and the numerical solution of shear band problems,” in M. Gurtin, Ed., Phase Transitions and Material Instabilities in Solids, Academic Press, New York, pp. 37-60, 1984. 28. P.K. Moore and J.E. Flaherty, “An adaptive local refinement finite element method for parabolic partial differential equations,” Proceedings of a Conference on Accuracy Estimates and Adaptive Refinements in Finite Element Computations, Center for Structural Mechanics and Engineering, Technical University of Lisbon, Vol. 2, pp. 139-152, June 1984. M. Slemrod and J.E. Flaherty, “Numerical integration of a Riemann problem for a van der Waals fluid,” in E.C. Aifantis and J. Gittus, Eds., Phase Transformations, Elsevier Applied Science, Amsterdam, pp. 203212, 1986. J.E. Flaherty, M.L. Frankel, V. Roytburd, and G.I. Sivashinsky, “Numerical study of quenching of inward propagating spherical flames,” Combustion Science and Technology, 43, pp. 245-257, 1985. D.C. Arney and J.E. Flaherty, “A mesh moving technique for time dependent partial differential equations in two space dimensions,” in Transactions of the Second Army Conference on Applied Mathematics and Compututing, ARO Report 85-1, U.S. Army Research Office, Research Triangle Park, pp. 611-634, 1985. P.K. Moore and J.E. Flaherty, “A local refinement finite element method for time dependent partial differential equations,” in Transations of the Second Army Conference on Applied Mathematics and Compututing, ARO Report 85-1, U.S. Army Research Office, Research Triangle Park, pp. 58518

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596, 1985. P.C.T. Chen, J.E. Flaherty, and J. Vasilakis, “Dynamic response in an elastic-plastic projectile due to normal impact,” in Transactions of the Second Army Conference on Applied Mathematics and Compututing, ARO Report 85-1, U.S. Army Research Office, Research Triangle Park, pp. 839858, 1985. J.M. Coyle, J.E. Flaherty, and R. Ludwig, “On the stability of mesh equidistribution strategies for time dependent partial differential equations,” Journal of Computational Physics, 62, pp. 26-39, 1986. S. Adjerid and J.E. Flaherty, “A moving finite element method for time dependent partial differential equations with error estimation and refinement,” SIAM Journal on Numerical Analysis, 23, pp. 778-796, 1986. D.C. Arney and J.E. Flaherty, “A two-dimensional mesh moving technique for time dependent partial differential equations,” Journal of Computational Physics, 67, pp. 124-144, 1986. S. Adjerid and J.E. Flaherty, “A moving mesh finite element method with local refinement for parabolic partial differential equations,” Computer Methods in Applied Mechanics and Engineering, 55, pp. 3-26, 1986. S. Adjerid and J.E. Flaherty, “A local refinement finite element method for two-dimensional parabolic systems,” SIAM Journal on Scientific and Statistical Computing, 9, No. 5, pp. 792-811, 1988. D.C. Arney and J.E. Flaherty, “An adaptive local mesh refinement method for time-dependent partial differential equations,” Applied Numerical Mathematics, 5, pp. 257-274, 1989. K.M. Bukhari, R.T. Lahey, Jr., and J.E. Flaherty, “Finite element analysis of two dimensional single and two-phase flows,” Fourth MIAMI International Symposium on Multiphase Transform and Particulate Phenomena, December 15-17, Miami, 1986. D.C. Arney and J.E. Flaherty, “An adaptive method with mesh moving and local refinement for time-dependent partial differential equations,” Transactions of the Fourth Army Conference on Applied Mathematics and Computing, ARO Report 87-1, U.S. Army Research Office, Research Triangle Park, pp. 1115-1142, 1987. S. Adjerid and J.E. Flaherty, “Adaptive finite element methods for parabolic systems in one and two space dimensions,” Transactions of the Fourth Army Conference on Applied Mathematics and Computing, ARO Report 87-1, U.S. Army Research Office, Research Triangle Park, pp. 1077-1098, 1987. J.M. Coyle and J.E. Flaherty, “A posteriori error estimation in a finite element method for parabolic partial differential equations,” Transactions of the Fourth Army Conference on Applied Mathematics and Computing, ARO Report 87-1, U.S. Army Research Office, Research Triangle Park, pp. 1099-1114, 1987. 19

44. J.E. Flaherty, “First- and second-order adaptive finite element methods for parabolic systems,” in R. Vichnevetsky and R. S. Stepleman, Eds., Advances in Computer Methods for Partial Differential Equations-VI, IMACS, Rutgers, pp. 472-478, 1987. 45. D.C. Arney and J.E. Flaherty, “An adaptive mesh moving and local refinement method for time-dependent partial differential equations,” ACM Transactions on Mathematical Software, 16, No. 1, pp. 48-71, 1990. 46. S. Adjerid and J.E. Flaherty, “Second order finite element approximations and a posteriori error estimation for two-dimensional parabolic systems,” Numerische Mathematik, 53, pp. 183-198, 1988. 47. P.L. Baehmann, J.E. Flaherty, and M.S. Shephard, “Adaptive analysis for automated finite element modeling,” in J.R. Whiteman, Ed., The Mathematics of Finite Elements and Applications VI (MAFELAP 1988), Academic Press, London, pp. 521-532, 1988. 48. D.C. Arney, R. Biswas, and J.E. Flaherty, “A posteriori error estimation of adaptive finite difference schemes for hyperbolic systems,” Transactions of the Fifth Army Conference on Applied Mathematics and Computing, ARO Report 88-1, U.S. Army Research Office, Research Triangle Park, pp. 437-458, 1988. 49. P.K. Moore and J.E. Flaherty, “An adaptive overlapping local grid refinement method for two-dimensional parabolic systems,” Transactions of the Fifth Army Conference on Applied Mathematics and Computing, ARO Report 88-1, U.S. Army Research Office, Research Triangle Park, pp. 459-474, 1988. 50. 50. P.K. Moore and J.E. Flaherty, “A local refinement finite element method for one-dimensional parabolic systems,” SIAM Journal on Numerical Analysis 27, No. 6, pp. 1422-1444, 1990. 51. P.L. Baehmann, J.E. Flaherty, F. Guerinoni, R.A. Ludwig, and M.S. Shephard, “Adaptive solutions of the Euler equations using finite quadtree and octree grids,” Computers and Structures, 30, No. 1/2, pp. 327-336, 1988. 52. P.L. Baehmann, J.E. Flaherty, F. Guerinoni, R.A. Ludwig, and M.S. Shephard, “Finite octree mesh generation for automated adaptive threedimensional flow analysis,” Proceedings of the Second International Conference on Numerical Grid Generation in Computational Fluid Dynamics, 1988. ¨ 53. J.E. Flaherty, P.K. Moore, and C. Ozturan, “Towards the automatic solution of partial differential equations,” Journal of Mathematics. and Computers in Simulation, 31, pp. 325-332, 1989. 54. D.C. Arney, R. Biswas, and J.E. Flaherty, “Adaptive mesh experiments for hyperbolic partial differential equations,” Transactions of the Sixth Army Conference on Applied Mathematics and Computing, ARO Report 89-1, U.S. Army Research Office, Research Triangle Park, pp. 1051-1074, 20

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1989. D.C. Arney, R. Biswas, and J.E. Flaherty, “Experiments with mesh moving and local refinement for hyperbolic systems,” in T.J. Chung and G.R. Karr, Eds., Finite Element Analysis in Fluids: Proceedings of the Seventh International Conference on Finite Elements in Flow Problems, UAH Press, Huntsville, pp. 11-16, 1989. P.L. Baehmann, J.E. Flaherty, F. Guerinoni, R. Ludwig, and M. S. Shephard, “Solving compressible flow problems using adaptive finite quadtree and octree grids,” in T.J. Chung and G.R. Karr, Eds., Finite Element Analysis in Fluids: Proceedings of the Seventh International Conference on Finite Elements in Flow Problems, UAH Press, Huntsville, pp. 87-92, 1989. ¨ J.E. Flaherty, P.K. Moore, and C. Ozturan, “An environment for the parallel solution of parabolic partial differential equations,” in L.P. Kartashev and S.I. Kartashev, Eds., Proceedings of Supercomputing ’89: Supercomputing Structures and Computations, Vol. I, International Supercomputing Institute, St. Petersburg, pp. 342-347, 1989. ¨ J.E. Flaherty, P.K. Moore, and C. Ozturan, “Adaptive overlapping grid methods for Parabolic Systems,” in J.E. Flaherty, P.J. Paslow, M.S. Shephard, and J.D. Vasilakis, Eds., Adaptive Methods for Partial Differential Equations, SIAM, Philadelphia, pp. 176-193, 1989. M. Benantar, J.E. Flaherty, and M.S. Shephard, “Parallel computation for automated finite element modeling,” Computer Utilization in Structural Engineering, ASCE, New York, pp. 197-220, 1989. S.K. Sim, R.T. Lahey, Jr., and J.E. Flaherty, “Finite element analysis of fully developed single-phase turbulent flows in triangular conduits,” in Proceedings of the Third International Meeting on Nuclear Power Plant Thermal-Hydraulics and Operations, Seoul, November, 1988. S.K. Sim, R.T. Lahey, Jr., and J.E. Flaherty, “Finite element analysis of fully developed turbulent two-phase flows in triangular conduits,” ANS Proceedings of the 25th NHTC, HTC, Vol. 3, 1988. S.P. Antal, R.T. Lahey, Jr., and J.E. Flaherty, “Analysis of phase distribution in fully developed laminar bubbly two-phase flow,” International Journal of Multiphase Flow, 17, No. 5, pp. 635-652, 1991. M. Benantar, R. Biswas, J.E. Flaherty, and M.S. Shephard, “Parallel computation with adaptive methods for elliptic and hyperbolic systems,” Computer Methods in Applied Mechanics and Engineering, 82, pp. 73-93, 1990. P.K. Moore and J.E. Flaherty, “Adaptive local overlapping grid methods for parabolic systems in two space dimensions,” Journal Computational Physics 98, No. 1, pp 54-63, 1992. D.C. Arney, R. Biswas, and J.E. Flaherty, “An adaptive mesh moving and refinement procedure for one-dimensional conservation laws,” Applied 21

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Numerical Mathematics 11, pp. 259-282, 1993. M. Benantar and J.E. Flaherty, “A six-color procedure for the parallel solution of elliptic systems using the finite quadtree structures, in J. Dongarra, P. Messina, D.C. Sorensen, R.G. Voigt, Eds., Parallel Processing for Scientific Computing, SIAM, Philadelphia, pp. 231-236, 1989. M.S. Shephard, R.L. Spilker, and J.E. Flaherty, “Automated FEM for a supercomputer environment: meshing, solution issues and soft tissue analysis,” Proceedings of the First NCSA Conf. on Finite Element Applications in Computation Mechanics, Champagne-Urbana, May 1990. D.C. Arney, R. Biswas, and J.E. Flaherty, “Solving the Euler equations using adaptive mesh motion and refinement,” Transactions of the Seventh Army Conference on Applied Mathematics and Computing, ARO Report 90-1, U.S. Army Research Office, Research Triangle Park, pp. 441-456. Y. Wang and J.E. Flaherty, “Experiments with an adaptive h-, p-, and r-refinement finite element method for parabolic systems,” in G.D. Byrne and W.E. Schiesser, Eds., Recent Developments in Numerical Methods and Software for ODEs/DAEs/PDEs, World Scientific, Singapore, pp. 55-80, 1992. M. Benantar, R. Biswas, and J.E. Flaherty, “Adaptive methods and parallel computation for partial differential equations,” Transactions of the Eighth Army Conference on Applied Mathematics and Computing, ARO Report 91-1, U.S. Army Research Office, Research Triangle Park, pp. 531-552, 1991. M. Benantar, R. Biswas, and J.E. Flaherty, “Advances in adaptive parallel processing for field applications,” IEEE Transactions on Magnetics, 27, No. 5., pp. 3768-3773, 1991. P.L. Baehmann, M.S. Shephard, and J.E. Flaherty, “A posteriori error estimation for triangular and tetrahedral quadratic elements using interior residuals, International Journal of Numerical Methods in Engineering, 34, pp. 979-996, 1992. S. Adjerid, J.E. Flaherty, and Y. Wang, “A posteriori error estimation with finite element methods of lines for one-dimensional parabolic systems,” Numererishe Mathematik, 65, pp. 1-21, 1993. P.K. Moore and J.E. Flaherty, “High-order adaptive finite element-singly implicit Runge-Kutta methods for parabolic differential equations,” BIT, 33, pp. 309-331, 1993. S. Adjerid, J.E. Flaherty, P.K. Moore, and Y.J. Wang, “High-order adaptive methods for parabolic systems,” Physica D, 60, pp. 94-111, 1992. A.C.M. Moraes, H.T. Nagamatsu, and J.E. Flaherty, “Compressible laminar boundary layers for perfect and real gases in equilibrium at Mach numbers to 30,” A.I.A.A. Paper 92-0757, Thirtieth Aerospace Sciences Meeting and Exhibit, Reno, Jan. 6-9, 1992. J.E. Flaherty, Z. Rusak, M.S. Shephard, and B.E. Webster, “An adaptive 22

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finite element methodology for rotorcraft aerodynamics,” in R. Vichnevetsky, D. Knight, and G. Richter, Eds., Advances in Computer Methods for Partial Differential Equations - VII, IMACS, New Brunswick, pp. 799805, 1992. R. Biswas and J.E. Flaherty, “Parallel and adaptive methods for hyperbolic partial differential equations,” in R. Vichnevetsky, D. Knight, and G. Richter, Eds., Advances in Computer Methods for Partial Differential Equations - VII, IMACS, New Brunswick, pp. 67-74, 1992. K.D. Devine and J.E. Flaherty, “Parallel high-order finite element methods for conservation laws,” in R. Vichnevetsky, D. Knight, and G. Richter, Eds., Advances in Computer Methods for Partial Differential Equations VII, IMACS, New Brunswick, pp. 202-208, 1992. Y.J. Wang and J.E. Flaherty, “An adaptive hp-refinement finite element method for two-dimensional PDEs,” in R. Vichnevetsky, D. Knight, and G. Richter, Eds., Advances in Computer Methods for Partial Differential Equations - VII, IMACS, New Brunswick, pp. 788-793, 1992. M. Benantar, U. Dogrusoz, J.E. Flaherty, and M.S. Krishnamoorthy, “Triangle Graphs,” Applied Numerical Mathematics, 17, pp. 85-96, 1995. M. Benantar, J.E. Flaherty, and M.S. Krishnamoorthy, “Coloring procedures for finite element computation on shared-memory parallel computers,” in A.K. Noor, Ed., Adaptive, Multilevel, and Hierarchical Computational Strategies, AMD Vol. 157, ASME, New York, pp. 435-490, 1992. (with ¨ B.K. Szymanski, C. Ozturan, and J.E. Flaherty, “Scalable software tools for adaptive scientific computation,” Transactions of the Tenth Army Conference on Applied Mathematics and Computing, ARO Rep. 93-1, U.S. Army Research Office, Research Triangle Park, pp. 159-172, 1993. R. Biswas, K. Devine, and J.E. Flaherty, “Parallel adaptive finite element methods for conservation laws,” Applied Numerical Mathematics, 14, Nos. 1-3, pp. 255-284, 1994. A.C.M. Moraes, H.T. Nagamatsu, J.E. Flaherty, “A finite element and symbolic method for studying laminar boundary layers of real gases in equilibrium at Mach numbers to 30,” Proceedings of the A.I.A.A. 24th Fluid Dynamics Conference, Orlando, July 6-9, 1993. K. Devine, J.E. Flaherty, S. Wheat, and A.B. MacCabe, “A massively parallel adaptive finite element method with dynamic load balancing,” in R. Werner, Ed., Proceedings of Supercomputing ‘93, IEEE Computer Society Press, Los Alamitos, pp. 2-11, 1993. T.A. De Graff, W.G. Roberge, and J.E. Flaherty, “The Langevin equation and its application to grain alignment in molecular clouds,” The Astrophysical Journal, 418, pp. 287-306, 1993. Z. Rusak, M.S. Shephard, B.E. Webster, and J.E. Flaherty, “An automated adaptive time-discontinuous finite element method for unsteady 23

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compressible airfoil aerodynamics,” A.I.A.A. Journal, 32, No. 4, pp. 748-757, 1994. J.E. Flaherty and P.K. Moore, “Integrated space-time adaptive hp-refinement methods for parabolic systems,” Applied Numerical Mathematics, 16, pp. 317-341, 1995. ¨ C. Ozturan, H.L. deCougny, M.S. Shephard, and J.E. Flaherty, “Parallel adaptive mesh refinement and redistribution on distributed memory computers,” Computer Methods in Applied Mechanics and Engineering, 119, pp. 123-137, 1994. S. Adjerid, M. Aiffa, and J.E. Flaherty, “High-order finite element methods for singularly-perturbed elliptic and parabolic problems,” SIAM Journal on Applied Mathematics, 55, pp. 520-543, 1995. K.D. Devine, J.E. Flaherty, R.M. Loy, and S.R. Wheat, “Parallel partitioning strategies for the adaptive solution of conservation laws,” in I. Babuˇska, J.E. Flaherty, W.D. Henshaw, J.E. Hopcroft, J.E. Oliger, and T. Tezduyar, Eds.,Modeling, Mesh Generation, and Adaptive Numerical Methods for Partial Differential Equations, The IMA Volumes in Mathematics and its Applications, Vol. 75, Springer-Verlag, New York, pp. 215-242, 1995. S. Adjerid, J.E. Flaherty, M.S. Shephard, Y. Wang, J. Hudson, W. Hillig, and N. Patibandla, “Adaptive numerical techniques for reactive vapor infiltration,” Ceramic Engineering and Science Proceedings, 15, No. 5, pp. 924-931, 1994. ¨ H.L. deCougny, K.D. Devine, J.E. Flaherty, R.M. Loy, C. Ozturan, and M.S. Shephard, “Load balancing for the parallel adaptive solution of partial differential equations,” Applied Numerical Mathematics, 16, pp. 157182, 1994. R.M. Loy and J.E. Flaherty, “Parallel adaptive load-balancing schemes for three-dimensional conservation laws,” in W.F. Ames, Ed., Proceedings 14th IMACS World Congress on Computation and Applied Mathematics, Vol. 2: Applications of Computing in Fluid Mechanics, Acoustics, Solid Mechanics, Neural Networks, pp. 808-811, July 1994. S. Adjerid, J.E. Flaherty, W. Hillig, J. Hudson, and M.S. Shephard, “Adaptive method of lines techniques for vapor infiltration problems,” in W.F. Ames, Ed., Proceedings of the 14th IMACS World Congress on Computation and Applied Mathematics, Vol. 2: Applications of Computing in Fluid Mechanics, Acoustics, Solid Mechanics, Neural Networks, pp. 529-532, July 1994. ¨ C.L. Bottasso, H.L. DeCougny, M. Dindar, J.E. Flaherty, C. Ozturan, Z. Rusak, and M.S. Shephard, “Compressible aerodynamics using a parallel adaptive time-discontinuous Galerkin least-squares finite element method,” A.I.A.A. Paper 94-1888, 12th A.I.A.A. Applied Aerodynamics Conference, June 20-22, 1994, Colorado Springs. 24

98. J.E. Flaherty, “Academic programs in computational science and engineering,” USACM Bulletin, 7, pp. 1-3, 1994. 99. K. Devine and J.E. Flaherty, “Dynamic load balancing for parallel finite element methods with adaptive h- and p-refinement,” in D.H. Bailey, P.E. Bjorstad, J.R. Gilbert, M.V. Mascagni, R.S. Schreiber, H.D. Simon, V.J. Torczon, J.T. Watson, Eds., Proceedings 7th SIAM Conference on Parallel Processing for Scientific Computing, SIAM, Philadelphia, pp. 593-598, 1995. 100. J.E. Flaherty, P.K. Moore, and J. Walter, “Adaptive methods for parabolic partial differential equations with application to shear band formation,” in S.N. Atluri, G. Yagawa, and T.A. Cruse, Eds., Computational Mechanics ‘95: Theory and Applications, Vol. 2, pp. 2487-2492, 1995. 101. S. Adjerid, J.E. Flaherty, W. Hillig, J. Hudson, and M.S. Shephard, “Modeling and the adaptive solution of reactive vapor infiltration problems,” Modeling and Simulation in Materials Science Engineering, 3, pp. 737752, 1995. 102. K. Devine and J.E. Flaherty, “Parallel adaptive hp-refinement techniques for conservation laws,” Applied Numerical Mathematics, 20, pp. 367-386, 1996. ¨ 103. C.L. Bottasso, J.E. Flaherty, C. Ozturan, M.S. Shephard, B.K. Szymanski, J.D. Teresco, and L.H. Ziantz, “The quality of partitions produced by an iterative load balancer,” in B.K. Szymanski and B. Sinharoy, Eds., Languages, Compilers and Run-Time Systems for Scalable Computers, Kluwer, Boston, pp. 265-277, 1995. 104. S. Adjerid, B. Belguendouz, and J.E. Flaherty, “A posteriori finite element error estimation for diffusion problems,” SIAM Journal on Scientific Computation, Vol. 21, No. 2, pp. 728–746, 2001. 105. M.S. Shephard, S. Dey, and J.E. Flaherty, “A straightforward structure to construct shape functions for variable p-order meshes,” Computer Methods in Applied Mechanics and Engineering, 147, pp. 209-233, 1997. 106. S. Adjerid, M.W. Beall, G.J. Dvorak, J. Fish, J.E. Flaherty, J. Hudson, K.-L. Shek, M.S. Shephard, and R. Wentorf, “Mechanism-based design of composite structures,” submitted to IMECE, ASME, Atlanta, June 1996. 107. D. Givoli, J.E. Flaherty, and M.S. Shephard, “Parallel adaptive 3D finite element analysis of CZ melt flows,” Journal of Crystal Growth, 174, pp. 1-6, 1997. 108. D. Givoli, J.E. Flaherty, and M.S. Shephard, “Parallel adaptive finite element analysis of viscous flows based on a combined compressible-incompressible formulation,” International Journal of Numerical Methods in Heat and Fluid Flow, 7, pp. 880 - 906, 1997. Awarded best paper of the year 1997 by the journal. 109. B.K. Szymanski, E. Deelman, J.E. Flaherty, C.D. Norton, J.E. Teresco, and L.H. Ziantz, “Parallel scientific computing on the IBM SP2 at SCOR25

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EC-Rensselaer Polytechnic Institute,” submitted for publication, 1996. D. Givoli, J.E. Flaherty, and M.S. Shephard, “Simulation of Czochralski melt flows using parallel adaptive finite element procedures,” Modeling and Simulation in Materials Science and Engineering, 4, pp. 623-639, 1996. ¨ J.E. Flaherty, R.M. Loy, C. Ozturan, M.S. Shephard, B.K. Szymanski, J.D. Teresco, and L.H. Ziantz, “Parallel structures and dynamic load balancing for adaptive finite element computation,” Applied Numerical Mathematics, 26, pp. 241-265, 1998. W.B. Hillig, S. Adjerid, J.E. Flaherty, and J.B. Hudson, “The effect of combined diffusion and kinetic transport on multi-phase solid state reactions with a vapour reactant,” Journal of Materials Science, 31, pp. 5865-5871, 1996. ¨ M.S. Shephard, J.E. Flaherty, C.L. Bottasso, H.L. de Cougny, C. Ozturan, and M.L. Simone, “Parallel automated adaptive analysis,” Parallel Computing 23, pp. 1327-1347, 1997. W.D. Turner, J.E. Flaherty, S. Dey, and M.S. Shephard, “Multilevel preconditioned QMR methods for unstructured mesh computation,” Computer Methods in Applied Mechanics and Engineering, 149, pp. 339-357, 1997. S. Dey, M.S. Shephard, and J.E. Flaherty, “Geometry-based issues associated with p-version finite element computations,” Computer Methods in Applied Mechanics and Engineering, 150, pp. 39-50, 1997. S. Adjerid, A. Aiffa, J.E. Flaherty, J.B. Hudson, and M.S. Shephard, “Modeling and Adaptive Numerical Techniques for Oxidation of Ceramic Composites,” Ceramic Engineering and Science Proceedings, 18, No. 4, pp. 315-322, 1997. J.E. Flaherty, R. Loy, M.S. Shephard, B.K. Szymanski, J. Teresco, and L. Ziantz, “Adaptive local refinement with octree load-balancing for the parallel solution of three-dimensional conservation laws,” Journal of Parallel and Distributed Computing, 47, No. 2, pp. 139-152, Dec. 1997. J.E. Flaherty, R.M. Loy, M.S. Shephard , M.S. Simone, B.K. Szymanski, J.D. Teresco, and L.H. Ziantz, “Distributed octree data structures and local refinement method for the parallel solution of three-dimensional conservation Laws,” in M.W. Bern, J.E. Flaherty, and M. Luskin, Grid Generation and Adaptive Algorithms, The IMA Volumes in Mathematics and its Applications, Vol. 113, Springer, New York, pp. 113-134, 1999. S. Adjerid, J.E. Flaherty, and I. Babuˇska, “A posteriori error estimation for the finite element method-of-lines solution of parabolic problems,” Mathematical Models and Methods in Applied Science, 9, No. 2, pp. 261286, 1999. J.E. Flaherty, R. Loy, M.S. Shephard, B.K. Szymanski, J. Teresco, and L. Ziantz, “Predictive load balancing for parallel adaptive finite element 26

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Computation,” in H.R. Arabnia, Ed., Proc. International Conference on Parallel and Distributed Processing Techniques and Applications (PDPTA ’97), Las Vegas, pp. 460-469, July 1997. D. Givoli, J.E. Flaherty, and M.S. Shephard, “Analysis of InP LEC melt flows using a parallel adaptive finite element scheme,” Journal of Crystal Growth, 180, pp. 510-516, 1997. J.E. Flaherty, R. Loy, P.C. Scully, M.S. Shephard, B.K. Szymanski, J. Teresco, and L. Ziantz, “Load balancing and communication optimization for parallel adaptive finite element methods,” Proceedings of the XVII International Conference of the Chilean Computer Science Society, IEEE Computer Society Press, Los Alamitos, pp. 246-255, 1997. S. Adjerid, J.E. Flaherty, J.B. Hudson, and M.S. Shephard, “Modeling and the adaptive solution of CVD fiber-coating processes,” Computer Methods in Applied Mechanics and Engineering, 172, pp. 293–308, 1999. S. Adjerid, J.E. Flaherty, K. Jansen, and M.S. Shephard, “Parallel finite element simulations of Czochralski melt flows,” in S.N. Atluri and P.E. O’Donoghue, Eds., Modeling and Simulation Based Engineering, Tech Science Press, Palmdale, 1, pp. 821-826, 1998. M. Dindar, A.Z. Lemnios, M.S. Shephard, K. Jansen, and J.E. Flaherty, “An adaptive solution procedure for rotorcraft aerodynamics, A.I.A.A. Paper 98-2417, Sixteenth Applied Aerodynamics Conference, Albuquerque, June 1998. M. Dindar, A.Z. Lemnios, M.S. Shephard, J.E. Flaherty, K. Jansen, and D. Kenwright, “Effect of tip vortex resolution on UH-60 rotor-blade hover performance,” in American Helicopter Society Proceedings of the 1998: 54th Annual Forum American Helicopter Society, Part 1, pp. 45-57, 1998. J.D. Teresco, M.W. Beall, J.E. Flaherty, and M.S. Shephard, “A hierarchical partition model for adaptive finite element computation,” Computer Methods in Applied Mechanics and Engineering, 184, pp. 269-285, 2000. T.K. Ohsumi, J.E. Flaherty, V.H. Barocas, S. Adjerid, and M. Aiffa, “Adaptive finite element analysis of the anisotropic biphasic theory of tissue-equivalent mechanics, Computer Methods in Biomechanics and Biomechanical Engineering, Vol. 3, pp. 215 - 229, 2000. V. Korneev, J.E. Flaherty, J.T. Oden, and J. Fish, “Additive Schwarz algorithms for solving hp-version finite element systems on triangular meshes,” Applied Numerical Mathematics, Vol. 43, pp. 399 – 421, 2002. M. Dindar, M.S. Shephard, J.E. Flaherty, and K. Jansen, “Adaptive CFD analysis for rotorcraft aerodynamics,” Computer Methods in Applied Mechanics and Engineering, Vol. 189 pp. 1055-1076, 2000. J.E. Flaherty, R.M. Loy, M.S. Shephard, and J.D. Teresco, “Software for the parallel adaptive solution of conservation laws by discontinuous Galerkin methods,” in B. Cockburn, G.E. Karniadakis, and S.-W. Shu, Eds., Discontinous Galerkin Methods Theory, Computation and Applica27

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133. 134.

135.

136.

137.

138.

139.

140.

141.

142.

143.

tions, Lecture Notes in Compuational Science and Engineering, Volume 11, pp. 113-124, Springer, Berlin, 2000. S. Adjerid, M. Aiffa, and J.E. Flaherty, “Hierarchical finite element bases for triangular and tetrahedral elements,” Computer Methods in Applied Mechanics and Engineering, Volume 190, pp. 2925–2941, 2001. J.E. Flaherty and R.M.M. Mattheij, “A Turning Point for Bob O’Malley,” SIAM News, 32, No. 10, p. 2, December 1999. T. Caraco, S. Glavanakov, G. Chen, J.E. Flaherty, T.K. Ohsumi, and B.K. Szymanski, “Stage-Structired Infection Transmission and a Spatial Epidemic: A Model for Lyme Disease,” American Naturalist, Vol. 160, No. 3, pp. 348 – 359, September 2002. G. Bluman, L.P. Cook, J. Flaherty, J. Kevorkian, N. Malmuth, R. O’Malley, D.W. Schwendeman, and M. Tulin, “Julian D. Cole (1925-1999), Notices of the AMS, 47, pp. 466–473, 2000. S. Adjerid, K.D. Devine, J.E. Flaherty, and L. Krivodonova, “A posteriori error estimation for discontinuous Galerkin solutions of hyperbolic problems,” Computer Methods in Applied Mechanics and Engineering, Vol. 191, pp. 1997–1112, 2002. W.D. Turner and J.E. Flaherty, “Toward the design of a parallel, linear algebraic system,” September 2000, submitted to Parallel and Distributed Computing. J.E. Flaherty and J.D. Teresco, “Software for parallel adaptive computation,” in M. Deville and R. Owens, Eds., Proc. 16th IMACS World Congress on Scientific Computation, Applied Mathematics and Simulation, Paper 174–6, IMACS, Lausanne, 2000. J.-F. Remacle, J.E. Flaherty, and M.S. Shephard, “An adaptive discontinuous Galerkin technique with an orthogonal basis applied to compressible flow flow problems,” SIAM Review, Vol. 45, No. 1, pp. 53 - 72, 2003. J.E. Flaherty, L. Krivodonova, J.-F. Remacle, and M.S. Shephard, “Aspects of Discontinuous Galerkin Methods for Hyperbolic Conservation Laws,” Finite Elements in Analysis and Design, Vol. 38, pp. 889-908, 2002. J.-F. Remacle, J.E. Flaherty, and M.S. Shephard, “Parallel Algorithm Oriented Mesh Database,” Proc. 10th International Meshing Roundtable, October 7-10, 2001, Newport Beach, to appear. Also, Engineering with Computers, 2004, to appear. L. Krivodonova and J.E. Flaherty, “Error estimation for discontinuous Galerkin solutions of multidimensional hyperbolic problems,” Advances in Computational Mathematics, Vol. 19, Nos. 1-3, pp 57-71, 2003. W.D. Turner, J.E. Flaherty, and L. Ziantz, “Octree coarsening of unstructured meshes for use with multilevel preconditioning techniques,” SIAM Journal on Scientific Computing, submitted, November 2001.

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144. J.-F. Remacle, K. Pinchedez, J.E. Flaherty, and M.S. Shephard, “An efficient local time stepping-discontinuous Galerkin scheme for adaptive transient computations, Computer Methods in Applied Mechanics and Engineering, December 2001, submitted. 145. J.-F. Remacle, O. Klaas, J.E. Flaherty, and Shephard, M.S., “A parallel algorithm oriented mesh database,” Engineering with Computers, Vol. 18, pp. 274-284, 2002. 146. V. Korneev, J.E. Flaherty, T. Oden, and J. Fish, “Hp-version additive Schwarz algorithms on triangular meshes,” Mathematics Modeling, Vol. 14, No. 2, pp 61-94, 2002. 147. M. Aiffa and J.E. Flaherty, “A geometrical approach to mesh smoothing,” Computer Methods in Applied Mechanics and Engineering, 2004, to appear. 148. L. Krivodonova, J. Xin, J.-F. Remacle, N. Chevaugeon, and J.E. Flaherty, “Shock detection and limiting with discontinuos Galerkin methods for hyperbolic conservation laws,” Applied Numerical Mathematics, Vol. 48, pp. 323–338, 2004. 149. I. Sapariuc, M.D. Marcozzi, and J.E. Flaherty, “A numerical analysis of variational valuation techniques for dervivative securities,” Applied Mathematics and Computation, 2004, to appear 150. M.S. Shephard, J.E. Flaherty, K.E. Jansen, X. Li, X. Luo, N. Chevaugeon, J.-F. Remacle, M.W. Beall, and R.M. O’Bara, “Adaptive mesh generation for curved domains,” Appl. Numer. Maths., 2004, to appear. 151. J. Faik, L. G. Gervasio, J. E. Flaherty, J. Chang, J. D. Teresco, E. G. Boman, and K. D. Devine, “A model for resource-aware load balancing on heterogeneous clusters,” Technical Report CS-03-03, Department of Computer Science, Williams College, 2003. Aslo, HCW, IPDPS ’04, submitted. 152. K. El Maghraoui, J. E. Flaherty, B. K. Szymanski, J. D. Teresco, and C. Varela, “Adaptive Computation over Dynamic and Heterogeneous Networks,” Proceedings of the Fifth International Conference on Parallel Processing and Applied Mathematics (PPAM ’03), 2004, to appear. 153. N. Chevaugeon, P. Hu, X. Li, J. Xin, D. Cler, J.E. Flaherty, and M.S. Shephard, “Discontinuous Galerkin methods applied to shock and blast problems,” J. Scientific Computing, 2004, submitted. 154. K.D. Devine, E.G. Boman, R.T. Heaphy, B.A. Hendrickson, J.D. Teresco, J. Faik, J.E. Flaherty, and L.G. Gervasio, “New chanllenges in dynamic load balancing,” Applied Numerical Mathematics, submitted, 2004. 155. J.-F. Remacle, X. Li, M.S. Shephard, and J.E. Flaherty, “Anisotropic Adaptive Simulation of Transient Flows,” Int. J. Numer. Meths. Engr., 2004, to appear. (b) Abstracts, letters of correspondence, book reviews, etc.

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1. J.E. Flaherty and R.E. O’Malley, Jr., “The Numerical Solution of Boundary Value Problems for Stiff Differential Equations,” Rocky Mountain Journal of Mathematics, 6, No. 4, 1976. 2. In non-refereed journals (a) Major articles None (b) Abstracts, letters of correspondence, book reviews, etc. None (c) Other publications (major research reports, etc.). Architects should complete a separate form (available from the Dean of Architecture) for buildings, planning projects, works of art, and exhibits of work. 1. J.E. Flaherty, Ablation of Hollow Cylinders, B.S. Thesis at Polytechnic Institute of Brooklyn, June 1964. Also, PIBAL Report No. 907, Polytechnic Institute of Brooklyn, June 1965 (with S.V. Nardo). 2. J.E. Flaherty, Thermal Stresses in Thick-Walled Cylinders, M.S. Thesis, Polytechnic Institute of Brooklyn, June 1966. Also, “Temperatures and stresses in thick-walled cylinders and a comparison with wind tunnel tests,” PIBAL Report No. 926, Polytechnic Institute of Brooklyn, June 1966 (with S.V. Nardo). 3. J.E. Flaherty, Asymptotic Solution for Pressurized Noncircular Cylinders with Nonuniform Reinforcing Rings, Ph.D. Dissertation, Polytechnic Institute of Brooklyn, June 1969. ¨ 4. M.S. Shephard, J.E. Flaherty, H.L. de Cougny, C. Ozturan, C.L. Bottasso, and M.W. Beall, “Parallel automated adaptive procedures for unstructured meshes,” Special Course on Parallel Computing in CFD, AGARD Rep. R-807, pp. 6.1-6.49, AGARD, Neuilly-sur-Seine, 1995.

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V. Research Grants and Contracts (Give title of project, other senior investigators, starting and completion dates, amount of funding, sponsoring agency.) A. Proposals approved and Funded G. Habetler, E. H. Rogers, J. E. Flaherty, Numerical Analysis, submitted November 1972 to NSF; funded April 1973 by NSF. Submitted for renewal November 1973; refunded April 1974. Submitted for renewal November 1974; refunded March 1975. J. E. Flaherty, Numerical Methods for Singularly Perturbed Differential Equations with Applications, submitted (with P. T. Boggs) December 1974 to AFSOR; funded June 1975 by AFOSR ($22,200). Submitted for renewal November 1975; refunded January 1976 ($21,792). Submitted for renewal November 1976; refunded January 1977 ($25,600). Submitted for renewal December 1977; refunded May 1978 ($13,901). Submitted for renewal December 1978; refunded May 1979 ($21,600). R. T. Lahey (Principal Investigator), D. A. Drew, J. E. Flaherty, G. A. Krycuk, J. F. Lewis, B. K. Malaviya, Two Phase Flow Phenomena in Nuclear Reactor Technology, submitted March 1976 to U.S. Nuclear Regulatory Commission; funded June 1, 1976 ($450,000), duration 3 years. Renewed June 1, 1979December 31, 1980 ($215,000). J. E. Flaherty, Numerical Methods for Singularly Perturbed Differential Equations with Applications, submitted December 1979 to AFOSR; funded June 1980 ($25,755). Submitted for renewal October 1980; refunded January 1981 ($30,955). Submitted for renewal November 1981; refunded March 1982 ($39,320). Submitted for renewal November 1982; refunded January 1983 ($48,076). Submitted for renewal December 1983; refunded March 1984 ($55,975). Submitted for renewal December 1984; refunded January 1985 ($71,311). Submitted for renewal December 1985; refunded January 1986 ($77,760). Submitted for renewal December 1986; refunded ($90,032). Submitted for renewal December 1987; refunded ($77,270), duration one year. J. E. Flaherty and R. E. O’Malley, Jr., Asymptotic and Numerical Methods for Singularly-Perturbed Differential Equations with Application to Impact Problems, submitted January 1982 to ARO; funded September 1982 ($197,247), duration three years. C. Kleinstreuer (Principal Investigator) and J. E. Flaherty, Simulation of Turbulent Flow Field Near the Tail of Turbulent Bodies. Funded March 1982 ($120,000), duration two years. M. J. Wozny, J. E. Flaherty, and M. Shephard, Quadtree and Octree Encoding Schemes for Fluid Flow Problems, General Dynamics Corp. Funded January 1983 ($12,000) duration one year. Refunded January 1984 ($20,000) duration one year. Refunded January 1985 ($35,000) duration one and one-half years. Refunded June 1986 ($35,000), duration one year. Refunded June 1987 ($35,000), duration one year. Refunded June 1988 ($25,000), duration one year. 31

R. C. DiPrima and J. E. Flaherty (Principal Investigators) with J. D. Cole, D. A. Drew, M. Holmes, A. Kapila, and R. E. O’Malley, Jr., Numerical Calculations for Partial Differential Equations in Solid and Fluid Mechanics, submitted to ARO December 1983; funded May 1984 ($86,455) duration six months. D. A. Drew and J. E. Flaherty, Conference on Mathematics Applied to Fluid Mechanics and Stability, submitted to ARO January 1985, funded January 1985 ($6,230) duration six months. J. E. Flaherty, E. Kaltofen, M. S. Krishnamoorthy, G. M. Odell, and M. Skolnick, Computer Research Equipment submitted to NSF November 1984; funded ($80,925). J. E. Flaherty and G. M. Odell, Integration of Structural/Flow Analysis in GE2D Software Package, General Electric Corporate Research and Development Center, funded July 1985, ($41,121), duration one year. J. E. Flaherty, J. D. Cole, M. Holmes, R. E. O’Malley, Jr., R. Schreiber, and B. Szymanski, Parallel Scientific Computation, submitted to U.S. Army Research Office, October 1985; funded July 1986 ($719,975), duration three years. J. E. Flaherty and M. S. Shephard, Adaptive Finite Element Techniques for Automated Three-Dimensional Engineering Analysis and Design, submitted to NSF, October 1985; funded August 1986 ($150,939), duration two years. J. E. Flaherty (Principal Investigator) with J. D. Cole, M. Holmes, R. E. O’Malley, Jr., R. Schreiber, and B. Szymanski, Parallel Scientific Computation, submitted to Air Force Office of Scientific Research and U.S. Army Research Office, November 1985; funded July 1986 ($160,768), duration one year. J. E. Flaherty, Integration of Structural/Flow Analysis in GE2D Software Package, General Electric Corporate Research and Development Center, funded July 1986 ($17,000), duration six months. Submitted for renewal, January 1987; funded ($32,345). J. E. Flaherty and B. K. Szymanski, Adaptive Solution of Partial Differential Equations on Parallel Computers Using an Equational Language; submitted to NSF, May 1986; funded August 1, 1987 ($92,751), duration thirty months. J. E. Flaherty and E. H. Rogers, A GE/RPI Computer Internship Program, submitted to General Electric Corporate Research Center, October 1986; funded ($40,332) duration one year. Submitted for renewal, December 1986; funded ($34,500) duration one year. Submitted for renewal, January 1988; funded ($69,000) duration one year. April 1988, extension ($5,832). M. S. Shephard and J. E. Flaherty, Creation of Robust Automated Finite Element Modeling Techniques, funded July 1988 ($80,000), duration two years. M. S. Shephard, J. E. Flaherty, M. Hardwick, and D. L. Spooner, Engineering Research Equipment Grant: Workstations for Advanced Research in Computer Integrated Engineering, submitted to NSF March 1987; funded August 1, 1987 ($156,000), duration fifty-five months. J. E. Flaherty, M. Shephard, and J. Vasilakis (Principal Investigators), Workshop on Adaptive Methods for Partial Differential Equations, funded July 1, 32

1988 ($5,670), duration one year. J. E. Flaherty and J. W. Modestino (Project Directors), Image Processing and Computing Environments for Mathematical Applications, NSF, Computer and Information Science and Engineering (CISE) Institutional Infrastructure (II) Grant, $2,000,000, 1988-93. J. E. Flaherty, Numerical Analysis of Singularly Perturbed Differential Equations with Applications, AFOSR, $372,531, 1985-90. Submitted for renewal, 1990-93; funded ($318,138). J. E. Flaherty and B. K. Szymanski, Adaptive Solution of Partial Differential Equations on Parallel Computers Using an Equational Language, NSF, $92,752, 1987-90. Submitted for renewal, 1990-92; funded ($64,000). J. E. Flaherty, Parallel Adaptive Strategies for Partial Differential Equations, Sandia National Laboratory, $181,145, 1989-92. J. E. Flaherty, Adaptive Strategies for Compressible Flows, United Technologies Research Center, $25,000, 1989. J. E. Flaherty and B. Szymanski, Parallel Scientific Computation, United States Army Research Office (USARO), $60,000, 1990-91. J. E. Flaherty, Parallel Adaptive Strategies for Three-Dimensional Compressible Flows, Grumman Aerospace and Data Systems Corporations, $19,335, 1990-92. J. E. Flaherty and M. S. Shephard, Parallel Adaptive Techniques for Partial Differential Equations Using Quadtree and Octree Structures, U. S. Army Research Office (USARO), $374,862, 1991-94. J. E. Flaherty, Graduate Research Assistantships in Parallel Processing, DARPA, $21,252, 1991-92. J. E. Flaherty and M. S. Shephard, Workshop on Adaptive Methods for Partial Differential Equations, United States Army Research Office (USARO) $23,611, 1992. J. E. Flaherty and M. S. Shephard, Parallel Adaptive Computation Using Quadtree and Octree Structures, United States Army Research Office (USARO) $460,000, 1991-94. J. E. Flaherty and M. S. Shephard, Parallel Adaptive Techniques for Partial Differential Equations Using Quadtree and Octree Structures, U. S. Army Research Office (USARO) Assert Award, $75,000, 1992-95. W.C. Jennings, M. S. Shephard, and J. D. Meindl (Principal Investigators) and J. E. Flaherty et al. (Investigators), Acquisition of Scientific Computation Infrastructure for Strategic Initiatives in Manufacturing, Materials, and Design and Environment and Energy, NSF Institutional Infrastructure Award No. CDA 9214526, Sept. 1992 - Feb. 1996, $1,800.000. G. J. Dvorak, M. S. Shephard, N. S. Stoloff, J. E. Flaherty, J. Fish, S. S. Sternstein, W. Hillig, D. J. Duquette, and J. Hudson, Mechanism-Based Design of Composite Materials (including chemical processing and thermo-mechanicsl multiscale analysis, DARPA and ONR, $2,061,577, May 1 1992 - April 30, 1997. 33

J. E. Flaherty and B.K. Szymanski, Domain Specific Parallel Adaptive Scientific Computation, NSF Grant No. CCR-9216053, $134,700, August 15, 1993 - July 31, 1997. R. L. Spilker, M. S. Shephard, M. H. Holmes, J. E. Flaherty, and B. K. Szymanski of Rensselaer, and V. C. Mow and G. A. Ateshian of Columbia University, Understanding Human Joint Mechanics Through Advanced Computational Models, NSF Grand Challenge Award No. ASC-9318184, $2,518,000, Sept. 1993 - Aug. 2000. J. E. Flaherty, J. Hudson, and M. S. Shephard, Modeling and Simulation of CVD Processes for Manufacturing Ceramic Composites, Centric Engineering Systems, $60,000, September 30, 1994 - June 29, 1995. J. E. Flaherty, Adaptive and Parallel Computational Techniques in Materials Science, U.S. AFOSR Grant No. F49620-94-1-0200, $183,836, April 1, 1994 March 31, 1996. J. E. Flaherty and M. S. Shephard, Parallel Automated Adaptive hp-Finite Element Techniques for Structural Acoustics, U.S. Office of Naval Research, Grant No. N00014-94-1-0962, $300,000, July 1, 1994 - June 30, 1996. J. E. Flaherty and M. S. Shephard, Consortium for Advanced Research and Technology Development for High-Performance Scalable Parallel Computing and Computational Aerosciences, IBM Corporation, $266,688, July 1, 1994 June 30, 1997. J. E. Flaherty, A. Maniatty, and M. S. Shephard at Rensselaer, M. Dudley, J. Glimm, F. Ladeinde, and V. Prasad at SUNY at Stony Brook, M. A. Gevelber at Boston University, M. D. Gunzburger at Iowa State University, M. H. N. Naraghi at Manhattan College, and J. C. Turner at Arizona State University, Integrated Intelligent Modeling, Design and Control of Crystal Growth, AFOSR MURI Grant No. F49620-95-1-0407, $5,000,000, May 1, 1995 - December 14, 2000. J. E. Flaherty, Adaptive and Parallel Computational Techniques in Materials Science, AFOSR Grant No. F49620-95-1-0407, $128,608, June 1, 1995 - May 31, 1998. J. E. Flaherty and M. S. Shephard, Parallel Adaptive Techniques for Transient Partial Differential Equations, U. S. Army Research Office Contract No. DAAH 049510091, $275,000, Jan. 1, 1994 - Dec. 31, 1998. Accompanying AASERT award, $90,000, June 1, 1995 - May 31, 1998. J. E. Flaherty, Industry-Based Graduate Research Fellowship for the Finite Element Analysis of Micro-Electro-mechanical Systems, National Science Foundation, $24,486 and Interscience, $18,486, September 1, 1995 - August 31, 1996. J. E. Flaherty, E. Glinert, and B. K. Szymanski at Renssealer, L. R. Petzold at the University of Californial at Santa Barbara, R. Tanquillo at the University of Minnesota, and J. B. Rosen and P. Gill at the University of California at San Diego, A High Performance Problem Solving Environment for Optimization and Control of Chemical and Biological Processes, NSF Problem Solving 34

Environment Award No. CCR-9527151, $2,200,000, Oct. 1995 - May 2001. J. E. Flaherty, Parallel Computation Graduate Fellowship, a Graduate Colloquium Series, and Renovating the Office of the Amos Eaton Professor, Martin L. Schoffstall, $88,000, May 1, 1996 - April 30, 1999. J. E. Flaherty and K. Vastola, Arthur Schoffstall Lecture Series in Computer Science and Engineering, Martin L. Schoffstall, $42,000, May 1, 1997 - April 30, 2004. J. E. Flaherty, W. Jennings, J. Kolb, F. Luk, M. S. Shephard, and J. Wilson, Development of a Distributed High-Performance Computing Environment for Research in Science and Engineering, NSF, $850,000, Sept. 15, 1996 - Aug. 31, 1998. J. E. Flaherty and M. S. Shephard, Automated Adaptive Solutions to Partial Differential Equations for Naval Applications, Office of Naval Research, $99,075, Jan. 1, 1997 - Dec. 31, 1998. J. E. Flaherty, K. Jansen, and M. S. Shephard, Infrastructure to Support Massively Parallel Computing with Adaptive Unstructured Grids, AFOSR, $143,500, April 1, 1997 - March 31, 1998. J. E. Flaherty, Mathematical Sciences: Institute for Mathematics and its Applications, subcontract from the University of Minnesota, $5,000, NSF DMS9023978, Apr. - June 1997. J. E. Flaherty and M. S. Shephard, Load Balancing and Error Estimation for Parallel Adaptive Computation, Sandia National Laboratories, $50,000, July 15, 1997 - July 14, 1998. S. Adali, J. E. Flaherty, M. Goldberg, F. T. Luk, D. Musser, and B. K. Szymanski, Acquisition of Instrumentation to Facilitate Large Scale Parallel Computation, NSF, $120,000, Sept. 1, 1997 - August 31, 1998. J. E. Flaherty and M. S. Shephard, Center on Astrophysical Thermonuclear Flashes, University of Chicago, $1,069,990, Sept. 3, 1997 - Sept. 30, 2002. Rensselar portion of a Department of Energy Phase I ASCI grant number B341495. Renewed $600,000, January 1, 2003 - December 31, 2003. S. Adjerid, J. E. Flaherty, and M. S. Shephard, Software for Transient Parallel Adaptive Finite Element Computation, NSF Grant No. ASC-9720227, $274,944, Oct. 1 1997 - Mar. 31, 2001. J. E. Flaherty and M. S. Shephard, Adaptive and Parallel Computation for Transient Partial Differential Equations, U. S. Army Research Office, Grant No. DAAG55-98-1-0200, $255,000, March 16, 1998 - March 15, 2001. J. E. Flaherty and S. Adjerid of Virginia Polytechnic Institute and State University, Error Estimation for Wave Propagation Problems, Sandia National Laboratories, $50,000, July 15, 1998 - May 1999. Renewed for $47,000, June 1, 1999 - May 31, 2000. Renewed for $50,000, June 1, 2000 - May 31 2001. Renewed for $50,000, June 1, 2001 - Sept 30, 2002. J. E. Flaherty, M. H. Holmes, and D. A. Drew, Singular Perturbations at the 35

Turning Point of the Millenium, U. S. Army Research Office, DAAD19-99-10371, $7,938, September 15, 1999 - March 14, 2000. M.H. Holmes, J.E. Flaherty, G. Kovacic, J.R. McLaughlin, and D.W. Schwendeman, “Vertical Integration Initiative of Research and Education for Mathematical Sciences,” NSF, VIGRE initiative, $2,079,500, January 1, 2000 - December 31, 2004. S. Adjerid of Virginia Polytechnic Institute and State University and J.E. Flaherty, “Adaptive Discontinuous Galerkin Methods of Transient Partial Differential Equations,” NSF, $300,078, October 1, 2000 - September 30, 2003. J. E. Flaherty, “Simulation-Based Engineering Partner’s Program,” COMSOL, $75,000, January 1, 2001 - December 31, 2001. J. E. Flaherty and J. D. Teresco of Williams College, “Dynamic Data Management and Load Balancing for Parallel Adaptive Computation,” Sandia National Laboratories, $150,000, November 4, 2000 - November 3, 2001. Renewed for $150,000, July 1, 2002 - July 31, 2004. J. Glimm of Brookhaven National Laboratory, J. E. Flaherty and M. S. Shephard, D. Brown of Lawrence Livermore Nationalal Laboratory, E. D’Azevedo of Oak Ridge Nationalal Laboratory, L. Freitag of Argonne Nationalal Laboratory, P. Knupp of Sandia Nationalal Laboratory, and H. Trease of Pacific Northwest Nationalal Laboratory, “The Terascale Simulation Tools and Technology (TSTT) Center,” Department of Energy, $18,817,000, July 1, 2001 June 30, 2006. J.E. Flaherty and M.S. Shephard, “Adaptive Computation and Modeling for Multiscale Analysis,” U.S. Army Research Office, $285,000, June 1, 2001 - May 31, 2004. J.E. Flaherty, J.F. Remacle, and M.S. Shephard, “Analysis of Muzzle Brake Configurations,” Ben´et Laboratories, $300,000, Sept. 1, 2001, - August 31, 2002. J.E. Flaherty and M.S. Shephard, “Parallel Computing Equipment for Adaptive Computation” U.S. Army Research Office, $200,000, July 1, 2002 - June 30, 2004. J.E. Flaherty and M.S. Shephard, “Toolkit to Support Parallel Adaptive Computation on Unstructured Meshes,” with Simmetrix Corporation, Department of Defense STTR Program, $30,297, 6 months. Submitted April 2002. Secondphase funding approved. B. Proposals submitted and not funded with current status G. Kovacic and J.E. Flaherty, Mathematical Modeling of the Visual Cortex, NSF, $83,911, July 1, 2003 - May 31, 2004, pending. M.S. Shephard, et al., Multiscale Systems Engineering Research Center (MSERC), NSF, $16,982,665 September 1, 2003 - August, 31, 2008, declined. J.E. Flaherty, K.E. Jansen, F.T. Luk, A.C. Sanderson, and C.A. Varela, Collaborative Research: The New York State Teragrid, NSF $94,319, October 1, 2003 - September 31, 2008, declined. 36

S. Adjerid of Virginia Polytechnic Institute and State University, B. Cockburn of the University of Minnesota, J.E. Flaherty, M. S. Shephard, and C.-W. Shu of Brown University, FRG:Superconvergence of Discontinuous Galerkin Solutions: A Unified Approach, NSF Focused Research Group, $1,049,637, April 1, 2004 March 3, 2007, declined. S. Adjerid of Virginia Polytechnic Institute and State University and J.E. Flaherty, “Adaptive Discontinuous Galerkin Methods of Transient Partial Differential Equations,” NSF, $340,000, October 1, 2004 - September 30, 2007, pending. S. De, J.E. Flaherty, and J. Teresco of Williams College, ITR-(ASE)-(sim): Digital Surgury on Parallel Systems, NSF/ITR, $999,997, July 1, 2004 - June 30, 2009, pending. J.E. Flaherty and G.-C. Wang, NYSTAR 2003-2004 Faculty Development Program, NYSTAR, $750,000, September 1, 2004 - August 31, 2007, pending.

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C. Briefly describe your current research interests Numerical analysis and scientific computation, especially adaptive and parallel software for solving partial differential equations. Multiscale and singularlyperturbed differential systems with emphasis on problems arising in solid and fluid mechanics and materials science. A posteriori error estimation techniques and their analysis. Parallel and distributed computation, dynamic load balancing and data management. VI. Editorship of Journals, Reviews of Manuscripts, Books, and Research Proposals (Give organization of journals, significant items reviewed, date.) (a) Editorships 1992 - date Editor in Chief, IMACS Journal Applied Numerical Mathematics 1992 - date Editorial Board, SIAM Journal on Scientific Computing 1994 - date Editor in Chief, SIAM Monographs on Modeling and Simulation 1994 - date Editorial Board, IACM Computational Mechanics Advances 1998 - date Editor, Problems and Techniques Section, SIAM Review 1999 - date Editorial Board, International Journal of Computational Engineering Science

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(b) Refereeing 1972 Article for Journal of Computers and Structures 1973

Two journal articles and one book

1975

Two journal articles Two U. S. ARO proposals

1976

Article for SIAM Journal on Applied Mathematics Two U. S. ARO Proposals

1977

Three NSF proposals Manuscript for SRA Article for SIAM Journal on Applied Mathematics

1978 1979

Five journal articles Four journal articles Two Proposals

1980

Three journal articles NSF Proposal

1981

Eight journal articles Twelve proposals

1983

Five journal articles Six proposals

1984

Four journal articles Two proposals

1985

DOE proposal

1986

NSF SCREMS panel, 80 proposals, principal reviewer of 12 Article for ASME publication on computational mechanics

1987

NSF SCREMS panel, 33 proposals, principal reviewer of 10 NSF CISE panel; 60 proposals, principal reviewer of 14 Two journal articles

1988

NSF CISE panel on Small Business Innovative Research, 40 proposals, principal reviewer of 10 proposals NSF CISE panel,Division of Computer and Computational Research, principal reviewer of 4 proposals

39

1989

NSF CISE Site Visit, Purdue University, Institutional Infrastructure Award

1990

NSF SCREMS panel, principal reviewer of 13 proposals NSF CISE Site Visit, Cornell University, Institutional Infrastructure Award AFOSR proposal

1991 1992

NSF Graduate Fellowship panel NSF Graduate Fellowship panel

1993

NSF Graduate Fellowship panel NAS/NAE Associateship Program panel

1994

NSF Graduate Fellowship panel

1995

NSF Graduate Fellowship panel Committee of Visitors, NSF Division of Mathematical Sciences

1996

NSF Review

1997

NSF Graduate Fellowship panel

1998

Advisory Committee, Mathematical and Computer Sciences Directorate, U. S. Army Research Office NSF Site visit, University of Minnesota, Mathematics Research Center Six proposals Six journal articles

1999

External Advisory Committee, Department of Mathematics, Iowa State University External Advisory Committee, Department of Mathematics, Virginia Polytechnic Institute and State University Six proposals Six journal articles

2000

NSF Panel on Numeric, Symbolic, and Geometric Computing NSF site visit, University of Florida, Computer Science NSERC Panel on Collaborative Research Six proposals Six journal articles

2001

Judge, Robert J. Melosh Medal for the best student paper in finite elements, Duke University, Durham NSERC Panel on Collaborative Research Six proposals 40

VII. Service A. Service to University 1. University, school, and departmental committees and dates for each. (a) University Ad Hoc Committee on Computers, June 1973 - June 1974 Computer Users Advisory Committee, April 1975 - May 1976 Computer Operations Performance Committee, June 1976 - June 1977 President’s Task Force on Inauguration, July 1976 - Sept 1976 Computer Study Task Force, November 1976 - April 1977 • Chairman Number Crunching Subcommittee • Chairman User Evaluation Subcommittee Computer Project Program Committee, June 1977 - August 1977 Incubator Advisory Committee, June 1978 - June 1993 Computer Center Advisory Committee, Sept 1983 - June 1985 Computer Center Director Search Committee, July - Dec 1984 Computer Study Task Force, Oversight Committee, Oct 1984 - Mar 1985 Centers Review Committee, Oct 1984 - April 1985 CMPTT, Faculty Advisory Committee, Jan 1985 - May 1988 Dean of Science Search Committee, May 1988 - May 1989 Provost Committee on Computing, March 1988 - June 1992 President and Provost’s Panel on Strategic Initiatives, Feb. 1990 - May 1991 Committee on Fostering and Financing Scholarly Activities, Jan 1994 May 1995 Faculty Senate Elections Committee, Sept. 1994 - May 1995 Faculty Committee on Promotion and Tenure, May 1994 - May 1996 Administrator of the interdisciplinary program in Computational Science and Engineering July 1996 - date Graduate School Advisory Committee, Sept. 1996 - May 1999 Provost Search Committee, Sept. 1998 - May 1999 Information Technology Ph.D. Program Committee, Sept. 1998 - 2001 Information Technology Research Committee, January 1999 - 2001 Internal Biotechnology Research Committee, January 2000 - December 2000 Chair, Information Technology Constellation Search Committee, November 2000 - date. Member, Director Biotechnology and Interdisciplinary Studies Center Search Committee, September 2003 - date. Chair, Dean of Engineering Search Committee, April 1, 2004 - date. (b) School Science Faculty Council, Jun 1979 - May 1980 Member, New Staff committee, Department of Mathematical Sciences, May 1999 - 2001 41

Member, New Staff committee, Physics Department, September 1999 May 2000 (c) Department January Semester Committee, Jan 73 - Sept 1974 Colloquium Committee, Sept 1973 - Sept 1974 Undergraduate Curriculum Committee, Sept 1973 - June 1975 Computer Science Colloquium Committee, Sept 1975 - May 1977 Graduate Computer Science Admissions Committee, Sept 1975 - Sept 1977 Computer Science New Staff Committee, Sept 1978 - June 1979 Chairman, Freshman Science Day Program, April 1979, April 1980 Freshman Science Day Program Committee, April 1982 Mathematics New Staff Committee, Sept 1981 - June 1984 Director, Graduate Computer Science Program, Sept 1982 - June 1984 Director, Large Scale Computation Colloquium, Sept 1982 - June 1984 Computer Science Laboratory Committee, Sept 1982 - June 1984 New Staff Committee, Sept 1984 - May 1991 Chair, Laboratory Committee, Sept 1994 - June 2000 Chair, Chairperson Search Committee, February 2000 - May 2001 Chair, Computer Science Executive Committee, June 2000 - May 2001 Computer Science new staff committee, June 2000 - May 2001 2. Other service and administrative activities. Participated in Freshman Orientation, Summer 1976 Made fund raising presentations during the 1984-85 Academic Year to IBM, Phillips North American, DEC, AT&T, GTE and Sanders. GTE awarded the Computer Science Department a $10,000 fellowship and IBM awarded us a $50,000 faculty development award. Made fund raising presentations during the 1985-86 Academic Year to IBM, DEC, Xerox, Singer, GE, AT&T, GTE, and Allied Signal and received the following awards: • GTE, a $10,000 fellowship • Procter and Gamble, a $10,000 grant • Xerox, a $30,000 faculty development award • Allied Signal, a $10,000 faculty development award • AT&T, computer equipment valued at $700,000 Made fund raising presentations during the 1986-87 Academic Year to AT&T, IBM, GTE, GE, UTC, Singer, Allied Signal, Intel Corporation, Varian and Boeing and received the following: • GTE, a $10,000 grant • AT&T, a $15,000 grant • Allied Signal, a $10,000 faculty development award Made fund raising presentations during the 1987-88 academic year to Bellcore, Multiflow, DEC, Boeing, US West, IBM, GTE, and AT&T and received 42

the following: • AT&T, a $15,000 grant • Bellcore, a $2,000 grant Made fund raising presentations during the 1988-89 academic year to IBM, United Technologies, DARPA, Hewlett-Packard, SUN, DEC, and AT&T and received the following: • AT&T, a $300,000 grant • IBM, a $19,875 grant • NYSERNet, a $10,000 grant • G.E., a $69,000 grant • GTE, a $10,000 grant Made fund raising presentations during the 1989-90 academic year to IBM: Poughkeepsie, Myers Corners Lab, Dallas, and Austin; Industrial Associates, and Digital Equipment Corporation. We received the following: • Procter and Gamble, a $10,000 grant • Allied Signal, an $11,000 grant Organized the Scientific Computation Research Center with Mark Shephard and Robert Spilker, 1990. Made fund raising presentations during the 1990-91 academic year to IBM: Poughkeepsie, Myers Corners Research Center, United Technologies Center, Grumman Corporation, Sandia National Laboratory and Knolls Atomic Power Laboratory. We received awards from Procter and Gamble in the amount of $10,000, $10,500 from Grumman Corporation and $59,000 from Sandia. Made fund raising presentations during the 1996-97 academic year to Silicon Graphics. Made fund raising presentations during the 2000-01 academic year to Sun Microsystems, IBM, Cisco Systems, and ESI. 3. Undergraduate student advising and counseling (number and year). 1974 - 20 students 1975 - 45 students 1976 - 45 students 1977 - 45 students 1978 - 26 students 1979 - 30 students 1980 - 37 students 1981 - 30 students 1982 - 30 students 1983 - 30 students 1984 - 30 students 1992 - 12 students 1993 - 15 students 1994 - 20 students 43

1995 - 20 students 1996 - 20 students 1997 - 20 students 1998 - 24 students, Faculty intervention mentor to Travis Peters 1999 - 24 students, Faculty intervention mentor to Travis Peters 2000 - 36 students, Faculty intervention mentor to Travis Peters 2001 - 36 students, Faculty intervention mentor to Travis Peters 4. Graduate student advising and counseling (number and year). 1973 - 2 students 1974 - 2 students 1975 - 2 students 1976 - 2 students 1977 - 4 students 1978 - 6 students 1979 - 6 students 1980 - 6 students 1981 - 2 students 1982 - 7 students 1983 - 5 students 1984 - 10 students 1985 - 10 students 1986 - 8 students 1987 - 8 students 1988 - 8 students 1989 - 10 students 1990 - 8 students 1991 - 8 students 1992 - 8 students 1993 - 10 students 1994 - 12 students 1995 - 10 students 1996 - 8 students 1997 - 8 students 1998 - 10 students 1999 - 8 students 1999 - 12 students 2000 - 10 students

44

B. Professional Societies (Give memberships, positions held, dates.) ACM Association for Computing Machinery, Member SIGNUM (Special Interest Group for Numerical Mathematics) AMS American Mathematics Society, Committee on Publications, 1995-97 IEEE Institute for Electrical and Electronics Engineers, Computer Society IMACS Institute for Mathematics and Computer Science, Executive Council, 1994 - date; Co-Editor in Chief Applied Numerical Mathematics, 1992 - date MAA Mathematics Association of America, member SIAM Society for Industrial and Applied Mathematics, - Organizing Committee, 1975, 1993 National Meetings - National Lecturer, 1975-1977 - Committee on Mathematics in the College Curriculum, 1979-84 - Activity Group on Supercomputing - Representative to the Committee on Postdoctoral Fellowships in Mathematical Sciences, 1991-1996, Chair, 1993, 1996 - Editor, Journal on Scientific Computing, 1992 - date - Editor in Chief, Monographs in Modeling and Simulation, 1994 - 2002 - Chair, Ad hoc Committee on Publications, 1994-95 - Problems and Techniques Section Editor, Review, 1998 -date USACM United States Association for Computational Mechanics, - Executive Council, 1994 - date (re-elected in 1998) - Editor, Computational Mechanics Advances, 1994 - date - Organizing Committee, 1997, 1999 National Meetings - Fellow, 1999 - Secretary, 2000, Treasurer, 2001 - 2002, Vice President elect Honor Societies: Pi Mu Epsilon, Sigma Gamma Tau, Society of the Sigma Xi, Tau Beta Pi C. Community and Public Service (Give national, state, and local organizations; positions held; dates.) Member, National Research Council of the National Academy of Sciences, Basic Mathematics Committee, 1986-1988. Catachist, Christ Son of Justice Roman Catholic Church, 1994 - 1996. VIII. Professional and Public Lectures (List invited and contributed papers and lectures, giving title, organization, and dates.) (a) Invited Papers “Ablation of Hollow Cylinders,” AIAA Student Conference, Montreal, May 1964. 45

“The Numerical Solution of Boundary Value Problems for Stiff Differential Equations,” NSF Regional Research Conference on New Directions in Singular Perturbations: Theory and Applications, Northern Arizona University, Flagstaff, June 27, 1975. “A Survey of Numerical Methods for Singularly Perturbed Boundary Value Problems,” A Day of Applied Mathematics, Rensselaer Polytechnic Institute, Troy, May 24, 1976. “The Numerical Solution of Singular Singularly-Perturbed Initial Value Problems,” Conference on the Numerical Analysis of Singular Perturbation Problems, Nijmegen, May 30-June 2, 1978. “Collocation Methods for Singularly Perturbed Boundary Value Problems,” Conference on Boundary and Interior Layers-Computational and Asymptotic Methods, Dublin, June 3-6, 1980. “Collocation Methods applied to Singularly Perturbed BVP’s,” Workshop on Numerical Methods for BVP’s, University of British Columbia, Vancouver, August 11-14, 1980. “Collocation Methods for Singularly-Perturbed Boundary Value Problems,” Special Session on Scientific Computing and Numerical Analysis, AMS Meeting, Brown University, Providence, October 18-19, 1980. “Changes in Applied Mathematics in College Curricula,” American Society of Engineering Education National Meeting, Texas A & M University, College Station, June 20-24, 1982. “On the Numerical Solution for Singularly-Perturbed Vector Boundary Value Problems,” 10th IMACS World Congress, Concordia University, Montreal, August 8-13, 1982. “Adaptive Finite Element Methods for Parabolic Partial Differential Equations,” ARO Workshop on Adaptive Methods for Partial Differential Equations, University of Maryland, College Park, February 14-16, 1983. “Computational Methods for Phase Transition Problems,” Conference on Phase Transformations and Material Instabilities in Solids, Mathematics Research Center, University of Wisconsin, Madison, October 11-13, 1983. “Adaptive Finite Element Methods for Shock Problems in Solids,” Minisymposium on Numerical Computation in Shock Wave Theory - New Developments and Applications, SIAM National Meeting, Seattle, July 16-20, 1984. “Local Refinement and Moving Finite Element Methods for Parabolic Partial Differential Equations,” Symposium on Recent Advances in Computational Mechanics, ASME/ASCE Applied Mechanics Conference, Albuquerque, June 24-26, 1985. “Adaptive Finite Element Methods and Their Relations to Domain Decomposition,” Minisymposium on Domain Decomposition, SIAM National Meeting, Boston, July 25, 1986. “Adaptive Methods for Time-Dependent Partial Differential Equations,” Air Force Armament Laboratory Supercomputing Conference, Eglin Air Force Base, 46

Fort Walton Beach, November 3-5, 1986. “Adaptive Methods using Quadtree and Octree Structures,” Workshop on the Integration of Finite Element Modeling with Geometric Modeling, Rensselaer Polytechnic Institute, Troy, May 12-13, 1987. “First- and Second-Order Adaptive Finite Element Methods for Parabolic Systems,” Sixth IMACS International Symposium on Computer Methods for Partial Differential Equations, Lehigh University, Bethlehem, June 23-26, 1987. “Adaptive Methods and Parallel Scientific Computation,” SDI Workshop on Fundamental Issues in Communication, Computing, and Signal Processing, National Bureau of Standards, Gaithersburg, July 13-15, 1987. “Some Computational Aspects of Adaptive Methods for Parabolic Differential Equations,” and “Error Estimation for Parabolic Differential Equations,” Reliability of Finite Element Analysis Workshop, The University of Maryland, College Park, April 18-20, 1988. “Adaptive Solutions of the Euler Equations Using Finite Quadtree and Octree Grids,” Symposium on Advances and Trends in Computational Structural Mechanics and Fluid Mechanics, Arlington, October 17-19, 1988. “Computational Fluid Dynamics Using the Solution of Riemann Problems,” Bore Evacuator Workshop, Ben´et Laboratory, Watervliet Arsenal, Watervliet, March 17, 1989. “An Environment for the Parallel Solutions of Parabolic Partial Differential Equations,” Fourth International Conference on Supercomputing, Santa Clara, May 3-5, 1989. “Computing Environments for Mathematical Applications,” NSF Coordinated Experimental Resaerch and Institutional Infrastructure Meeting, Boulder, June 15-16, 1989. “Adaptive H-, P-, and R- Refinement Finite Element Schemes for Parabolic Partial Differential Systems,” SIAM National Meeting, San Diego, July 16-21. 1989. “Parallel Computations with Adaptive Methods for Partial Differential Equations,” Workshop on Reliability in Computational Mechanics, Austin, October 26-27, 1989. “Adaptive Methods and Parallel Computation for Partial Differential Equations,” Eighth Army Conference on Applied Mathematics and Computing, Cornell University, Ithaca, June 19-22, 1990. “Symbolic and Parallel Adaptive Methods for Partial Differential Equations,” Workshop on Numerical and Symbolic Computation Methods, Saratoga Springs, July 8-11, 1990. “Adaptive h-, p- and r-Refinement Finite Element Methods for Parabolic Partial Differential Systems,” American Institute of Chemical Engineers National Meeting, Chicago, November 11-16, 1990. “Advances in Parallel Processing for Electromagnetic Field Applications,” Fourth 47

Biennial IEEE Conference in Electromagnetic Field Computation, Toronto, October 22-24, 1990. “Combined Symbolic and Numerical Adaptive Methods for Partial Differential Equations,” NSF Workshop on Problem Solving Environments, Washington, April 11-12, 1991. “Adaptive Mesh Methods for Partial Differential Equations,” Eleventh Annual Conference on Computational Issues in Nonlinear Science, Los Alamos National Laboratory, Los Alamos, May 20-24, 1991. “Adaptive h- and p-Refinement Finite Element Methods for Singularly Perturbed Parabolic Systems,” Minisymposium on Numerical Methods for Singularly-Perturbed Problems, ICIAM 91, Washington, July 8-12, 1991. “A Posteriori Error Estimation for Parabolic Systems” and “High-Order Adaptive Methods for Parabolic Systems,” First U.S. National Congress on Computational Mechanics, Chicago, July 21-24, 1991. “Parallel Adaptive Methods for Partial Differential Equations,” Parallel Scientific Computation Workshop, Rensselaer Polytechnic Institute, Troy, October 31, November 1, 1991. “Adaptive Method-of-Lines Techniques for Parabolic Systems,” First International Symposium on Method of Lines, Surfaces and Dimensional Reduction in Computational Mathematics and Mechanics, Athens, November 12-16, 1991. “Scientific Computation Research Center, SCOREC Overview,” CSEP Workshop, Department of Energy, Denver, March 5-8, 1992. “Parallel Adaptive Techniques,” Workshop on Adaptive Methods for Partial Differential Equations, Rensselaer Polytechnic Institute, Troy, May 17-20, 1992. “Computing Environments for Mathematical Applications and Image Processing,” NSF Institutional Infrastructure Workshop, Michigan State University, East Lansing, May 26-28, 1992. “Parallel, High-Order Finite Element Methods for Conservation Laws,” 7th IMACS International Conference, Georgia Institute of Technology, Atlanta, June 22-24, 1992. “Adaptive Methods for Time-Dependent Partial Differential Equations,” SIAM 40th Anniversary Meeting, Los Angeles, July 20-24, 1992. “Adaptive Methods for Time Dependent Partial Differential Equations. Part I: Basic Strategies and Error Estimation” and “Part II: High-Order Methods and Parallel Computation,” Dutch Numerical Analysis Seminar, Woudschoten Conference Center, Zeist, October 5-7, 1992. “Coloring Procedures for Finite Element Computation on Shared-Memory Computers,” Symposium on Adaptive, Multilevel and Hierarchical Computational Strategies, ASME Winter Annual Meeting, Anaheim, November 8-13, 1992. “Adaptive hp-Refinement Methods for Parabolic Partial Differential Equations,” 1993 AFOSR Workshop on Computational Mathematics, Washington University, St. Louis, May 19-21, 1993. 48

“Adaptive and Parallel High-Order Methods for Conservation Laws,” Summer Program on Modeling, Mesh Generation, and Adaptive Numerical Methods for Partial Differential Equations, Institute for Mathematics and its Applications, University of Minnesota, Minneapolis, July 6-23, 1993. “Computers: Small and Large, Serial and Parallel,” “An Introduction to the Parallel Solution of Finite Element Problems,” “Parallel Solution Procedures on Distributed-Memory Computers,” and “Adaptive Methods for Time-Dependent Partial Differential Equations,” Summer Workshop on Frontiers in Finite Element Technology, Gy¨or, August 16-19, 1993. “Adaptive Methods for Partial Differential Equations with Application to Shear Band Formation,” Workshop on Basic Phenomena in Plasticity, Carnegie Mellon University, Pittsburgh, March 17-19, 1994. “Adaptive and Parallel Computational Techniques in Materials Science,” 1994 AFOSR Workshop on Computational and Physical Mathmeatics, Albuquerque, June 1-3, 1994. “Parallel Adaptive Load-Balancing Schemes for Three-Dimensional Conservation Laws,” symposium on Adaptive and Parallel Methods for CFD, “Adaptive Method of Lines Techniques for Vapor Infiltration Problems,” symposium on Method of Lines Techniques for Partial Differential Equations, “Computational Science and Engineering at Rensselaer,” symposium on Computational Science and Engineering Curricula, 14th IMACS World Congress on Computation and Applied Mathematics, Atlanta, July 11-15, 1994. “Parallel Adaptive Finite Element Computation,” Conference on Application of High Performance Computing in Bioengineering, Pittsburgh Supercomputing Center, Pittsburgh, October, 21-22, 1994. “Adaptive High-Order Computational Techniques for Singularly-Perturbed Elliptic and Parabolic Systems,” Meeting on Numerical Methods for Singular Perturbations, Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach, January 22-28, 1995. “Adaptive Computational Methods for Composite Materials Processing,” Minisymposium on ODE Methods in PDEs, SCICADE 95, International Conference on Scientific Computation and Differential Equations, Stanford University, Palo Alto, March 28-April 1, 1995. “Adaptive Computational Methods for Composite Materials Processing,” Workshop on Applied Mathematics: Methods and Applications, Ressselaer Polytechnic Institute, Troy, March 24-25, 1995. “Adaptive Method of Lines Techniques for Parabolic Systems with Applications to Materials Processing,” Workshop on The Method of Lines for Time Dependent Problems, University of Kentucky, Lexington, May 31 - June 3, 1995. “Adaptive Computational Methods for Composite Materials Processing,” Symposium on Numerical Methods for Industrial Manufacturing Processes 1: Composite Materials, Third U. S. National Congress of Computational Mechanics, Dallas, June 12-14, 1995. 49

“Adaptive and Parallel Computational Techniques in Materials Science,” 1995 AFOSR Meeting in Computational and Physical Mathematics, Albuquerque, June 28-30, 1995. “Adaptive Methods for Parabolic Partial Differential Equations with Applications to Shear Band Formation,” ICES 95, International Conference on Computational Engineering Science, Mauna Lani, July 30 - Aug. 3, 1995. “Using Advanced Information and Communications Technologies for Computational Science Education,” lecture and roundtable, HPC’ Asia 1995, Taipei, September 18-22, 1995. “Adaptive and Parallel Computational Techniques,” IBM Symposium on Parallel Computation, Supercomputing ’95, San Diego, 4-8 December, 1995. “A Structure for Adaptive hp-Refinement,” Advanced Concept Workshop on Basis Functions for Data Representation, Computation and Processing, U. S. Army Research Office, Research Triangle Park, April 30 - May 1, 1996. “Adaptive and Parallel Computation for Materials Processing,” AFOSR Grantees and Contractors’ Meeting: Computational and Physical Mathematics, Wright Laboratories, Wright Patterson Air Force Base, Dayton, June 24-26, 1996. “High-Order Adaptive Computational Methods With Applications in Materials Science,” Conference on Grid Adaptation in Computational PDEs: Theory and Applications, University of Edinburgh, Edinburgh, July 1-5, 1996. “Graduate Programs in CS&E,” IEEE Workshop on Computational Science and Engineering, Purdue University, West Lafayette, October 21-22, 1996. “Adaptive and Parallel Computational Techniques with Applications in Materials Science,” Workshop on Innovative Time Integrators, Centrum voor Wiskunde en Informatica, Amsterdam, October 30 - November 1, 1996. “Adaptive and Parallel Finite Element Techniques,” Conference on Advances in Computational Mechanics, Austin, January 13-15, 1997. “A Framework for Adaptive and Parallel Computation,” Workshop on Adaptive Methods for Partial Differential Equations, Mathematisches Forshungsinstitut Oberwolfach, Oberwolfach, February 16-22, 1997. “Parallel Adaptive Techniques for Transient Partal Differential Equations,” U.S. Army Research Office Contractors’ Meeting on Numerical Analysis and Computer Science, U. S. Army Research Office, Research Triangle Park, April 26-27, 1997. “A Framework for Adaptive and Parallel Computation,” Minisymposium on Implementing Parallel Adaptive Procedures for PDEs: Issues and Experiences, Eighth SIAM Conference on Parallel Processing for Scientific Computing, Minneapolis, March 14-17, 1997. “An Adaptive and Parallel Framework for Partial Differential Equations,” Midwest Numerical Analysis Day 1997, Iowa State University, Ames, April 12, 1997. “Adaptive and Parallel Finite-Element Computation,” Workship on Grid Generation and Adaptive Algorithms, Institute for Mathematics and its Applica50

tions, University of Minnesota, Minneapolis, April 28 - May 2, 1997. “An Adaptive and Parallel Framework for Partial Differential Equations,” Minisymposium on Numerical Analysis of Differential Equations, 18th Annual Meeting of the Canadian Applied Mathematics Society, The Fields Institute, Toronto, May 30 - June 1, 1997. “An Adaptive and Parallel Framework for Partial Differential Equations,” 17th Biennial Dundee Conference on Numerical Analysis, The University of Dundee, Dundee, June 24 - 27, 1997. “Adaptive and Parallel hp-Refinement for Conservation Laws,” Minisymposium on High Order Methods for Compressible Flow Calculations, and “Adaptive Method of Lines Solution of Parabolic Systems with Applications to Ceramic Composites,” Minisymposium on Adaptive Method of Lines, SIAM 45th Anniversary Meeting, Stanford University, Palo Alto, July 14 - 18, 1997. “An Adaptive and Parallel Finite Element System for Melt Flow Analysis,” 1997 Annual Meeting of the AIChE, Los Angeles, November 16 - 21, 1997. “Computational Methods for Singularly Perturbed Systems,” AMS Short Course on Singular Perturbations, 1998 Joint Mathematics Meeting, Baltimore, Jan. 7-10, 1998. “Adaptive and Parallel hp-Refinement for Conservation Laws,” Workshop on Numerical Methods for Singular Perturbations, Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach, April 13-17, 1998. “Adaptive and Parallel hp-Refinement for Conservation Laws,” Midwest Numerical Analysis Day 1998, Western Illinois University, Macomb, April 25, 1998. “Adaptive and Parallel Computational Tools for Solving Partial Differential Equations,” Symposium on Adaptive Methods for Partial Differential Equations, University of Utah, Salt Lake City, June 22-24, 1998. “An Adaptive and Parallel Computational Framework for Partial Differential Equations,” Minisymposium on Graph Partitioning and Dynamic Load Balancing, SIAM Annual Meeting, University of Toronto, Toronto, July 13-17, 1998. “Adaptive Computational Techniques for Partial Differential Equations,” ANODE ’98: A Symposium in Honour of John Butcher, University of Auckland, Auckland, December 14-16, 1998. “Parallel Adaptive Solution of Conservation Laws by a Discontinuous Galerkin Method,” International Symposium on Discontinous Galerkin Methods Theory, Computation and Applications, Newport, 24-26 May 1999. “Simple A Posteriori Error Estimates for Transient Problems,” Minisymposium on A Posteriori Error Estimation and Reliability of FE Computations, Conference on The Mathematics of Finite Elements and Applications (MAFELAP) X, Brunel University, Uxbridge, 22-25 June 1999. “Parallel Adaptive Solution of Conservation Laws by a Discontinuous Galerkin Method,” workshop on A Posteriori Error Estimation and Adaptive Approaches 51

in the Finite Element Method, Mathematical Sciences Research Institute, University of California Berkeley, Berkeley, 3-14 April, 2000. “Software for Parallel Adaptive DG Computation,” special session on Discontinuous Galerkin Methods, Conference on Finite Elements in Flow Problems 2000, The University of Texas at Austin, Austin, April 30 - May 4, 2000. “Architecture-Dependent Finite Element Computation Using the Rensselaer Partition Model” and “Adaptive Discontinuous Galerkin Method with an Orthonormal Basis,” Mini-Symposium on Parallel Adaptive Computations, Conference on p and hp Finite Element Methods: Mathematics and Engineering Practice (p-FEM 2000), Washington University, St. Louis, May 31 - June 2, 2000. “Software for Parallel Adaptive Computation,” organized session on Adaptive Techniques for PDEs, 16th IMACS World Congress 2000, Lausanne, August 20 - 25, 2000. “Adaptive Computational Techniques for Designing Bioartificial Arteries,” MiniSymposium on Computational Techniques for Chemical Systems, First SIAM Conference on Computational Science and Engineering, Washington, September 21-24, 2000. “Discontinuous Galerkin Methods for Conservation Laws,” workshop on Numerical Methods for Singular Perturbation Problems, Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach, April 8-14, 2001. “A Hierarchical Data Management System for Parallel Partitioning of Adaptive Computation,” The Conference on High Speed Computing, Salishan Lodge, Gleneden Beach, April 23-26, 2001. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” International Conference on Computational Mathematics, Pohang, South Korea, July 2 - July 5, 2001. “Discontinuous Galerkin Methods for Conservation Laws,” Minisymposium on Adaptive Grids in Differential Equations, International Conference on Scientific Computation and Differential Equations, Vancouver, July 29 - August 3, 2001. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” Workshop on Discontinuous Galerkin Methods, Mathematisches Forschungsinstitut Oberwolfach, Oberwolfach, April 22-26, 2002. “Tools for the Adaptive Solution of Problems arising in CFD and MHD,” Minisymposium on Computational Science and Engineering: Tools and Applications, and “Error Estimation for Discontinuous Galerkin Solutions of Hyperbolic Systems,” Minisymposium on Discontinuous Galerkin Methods for Partial Differential Equations, SIAM 50th Anniversary and 2002 Annual Meeting, Philadelphia, July 8-12, 2002. “Adaptive Software with Biological and Chemical Applications.” Symposium in Honor of ICASE’s 30th Anniversary, Newport News July 25-26, 2002. “Error Estimation and Limiting Techniques for Discontinuous Galerkin Meth52

ods,” IMACS Workshop on Adaptive Methods for Partial Differential Equations, The Fields Institute for Research in Mathematical Sciences, University of Toronto, Toronto, August 6-9, 2002. “Adaptive and Parallel Discontinuous Galerkin Methods for Conservation Laws. I. Fundamental Aspects of the Discontinuous Galerkin Method, II. A Posteriori Error Estimaton,” Twenty-Seventh Conference of the Dutch-Flemish Numerical Analysis Communities, 25-27 Settember 2002, Woudschoten, Zeist. “Discontinuous Galerkin Methods for Conservation Laws,” Conference on Innovative Time Integrators for PDEs, 25-27 November 2002, CWI, Amsterdam. “High-Order Adaptive Discontinuous Galerkin Methods for Hyperbolic Systems,” Minisymposium on High-order Discretization, SIAM Conference on Computational Science and Dngineering, 9 - 13 February 2003, San Diego. “High-Order Adaptive Discontinuous Galerkin Methods for Hyperbolic Systems,” Minisymposium on Discontinuous Galerkin Methods for Geosciences, SIAM Conference on Mathematical and Computational Issues in the Geosciences, 16 - 20 March 2003, Austin. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Conservation Laws,” keynote lecture, Symposium on Discontinuous Galerkin Methods for Computational Mechanics, Seventh U.S. National Congress on Computational Mechanics, Albuquerque, 27-31 July, 2003. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” keynote lecture, Conference on Adaptivity in Finite Element Analysis: Models, Meshes and Polynomial Order, Physikzentrum, Bad Honnef, 7-10 September, 2003. “Adaptive Discontinuous Galerkin Methods for Hyperbolic Systems,” Workshop on Recent Advances and State-of-the-Art in Discontinuous Galerkin Methods in Computational Structural Mechanics, Army High Performance Computing Research Center, University of Minnesota, Minneapolis, 28-29 October 2003. “Discontinuous Galerkin Methods for Conservation Laws: I. Fundamental Properties, II. Error Estimation and Adaptivity,” Workshop on Computational Ordinary and Partial Differential Equations, University of Auckland, Auckland, 21-23 April, 2004. (b) Contributed Papers “Contact Problems Involving Elastic Rods, Rings, and Tubes,” SIAM National Meeting, Philadelphia, June 1972. “Boundary Layer Methods for Ordinary Differential Equations with Small Coefficients Multiplying the Highest Derivatives,” SIAM National Meeting, California Institute of Technology, Pasadena, June 24, 1974. “Numerical Approximate Solutions of Singularly Perturbed Ordinary Differential Equations,” SIAM National Meeting, Rensselaer Polytechnic Institute, Troy, June 10, 1975. 53

“Explicit Difference Schemes for Wave Propagation and Impact Problems,” Twenty-seventh Conference of Army Mathematicians, U. S. Military Academy, West Point, June 10-12, 1981. “Asymptotic and Numerical Methods for Vector Systems of Boundary Value Problems,” 1982 Army Numerical Analysis and Computers Conference, U.S. Army Engineers, Waterways Experiment Station, Vicksburg, February 3-4, 1982. “An Adaptive Local Refinement Finite Element Method for Parabolic Differential Equations,” Second Army Conference on Applied Mathematics and Computing, Rensselaer Polytechnic Institute, Troy, May 22-25, 1984. “A Moving Finite Element Method for Time Dependent Partial Differential Equations with Error Estimation and Refinement,” Joint U. S. - Scandinavian Symposium on Scientific Computing and Mathematical Modelling, Stockholm, January 7-10, 1985. “Local Refinement Finite Element Methods Using Piecewise Bilinear and Cubic Approximations for Parabolic Systems,” Conference on The Impact of Mathematical Analysis on the Solution of Engineering Problems, University of Maryland, College Park, September 17-19, 1986. “Adaptive Analysis for Automated Finite Element Modeling,” Conference on The Mathematics of Finite Elements and Applications (MAFELAP) VI, Brunel University, Uxbridge, April 28-May 1, 1987. “Local Refinement Finite Element Methods for Parabolic Systems,” Fifth Army Conference on Applied Mathematics and Computing, U. S. Military Academy, West Point, June 15-18, 1987. “Parallel Element-by-Element Techniques for Elliptic Systems Using Finite Quadtree Meshes,” Fourth SIAM Conference on Parallel Processing for Scientific Computing, Chicago, December 11-13, 1989. “High-Order Finite Element Methods for Singularly-Perturbed Elliptic and Parabolic Problems,” Workshop on Perturbation Methods in Physical Mathematics, Rensselaer Polytechnic Institute, Troy, June 23-26, 1993. “Adaptive and Parallel Finite Element Techniques,” Conference on Advances in Computational Mechanics, The University of Texas, Austin, January 13-16, 1997. (c) Invited Lectures “Contact Problems Involving Elastic Rods, Rings, and Tubes,” Rensselaer Polytechnic Institute, Troy, May 1972. “The Finite Element Method,” Mathematics Club, Rensselaer Polytechnic Institute, Troy, March 1973. “Computer Solution of Partial Differential Equations,” New York Academy of Science, New York, April 5, 1973. “Contact Problems Involving Elastic Rods, Rings, and Tubes,” Polytechnic Institute of New York, Troy, March 21, 1974. 54

“Numerical Methods for Singularly Perturbed Ordinary Differential Equations,” The Weizmann Institute of Science, Rehovot, August 18, 1974. “Numerical Solution of Two Point Boundary Value Problems,” Mathematics Club, Rensselaer Polytechnic Institute, Troy, November 5, 1974. “The Numerical Solution of Boundary Value Problems for Stiff Differential Equations,” Clarkson College of Technology, Potsdam, November 6, 1975. “The Numerical Solution of Boundary Value Problems for Stiff Differential Equations,” Drexel University, Philadelphia, January 9, 1976. “The Numerical Solution of Boundary Value Problems for Stiff Differential Equations,” University of Utah, Salt Lake City, March 4, 1976. “Primer on Computers,” Rensselaer Council, Rensselaer Polytechnic Institute, Troy, October 8, 1976. “The Numerical Solution of Singularly Perturbed Boundary Value Problems,” University of Melbourne, Melbourne, July 7, 1977. “Frequency Entrainment of a Forced Van der Pol Oscillator,” University of Arizona, Tucson, November 4, 1977. “The Numerical Solution of Singular Singularly-Perturbed Initial Value Problems,” Mathematics Department Colloquium, Rensselaer Polytechnic Institute, Troy, May 1, 1978. “Collocation with Polynomial and Taut Splines for Singularly-Perturbed Boundary Value Problems,” Stanford University, Palo Alto, January 18, 1980. “Collocation with Polynomial and Taut Splines for Singularly Perturbed Boundary Value Problems,” University of British Columbia, Vancouver, January 24, 1980. “Collocation with Polynomial and Taut Splines for Singularly Perturbed Boundary Value Problems,” University of California at Davis, Davis, January 31, 1980. “The State of the Art in Scientific Software,” Hartford Graduate Center, Hartford, February 15, 1980. “Collocation Methods for Singularly-Perturbed Boundary Value Problems,” ICASE, NASA Langley Research Center, Hampton, September 27, 1980. “Collocation Methods for Singularly-Perturbed Boundary Value Problems,” Department of Computer Science, Yale University, New Haven, October 20, 1980. “Collocation Methods for Singularly-Perturbed Boundary Value Problems,” Department of Computer Science, University of Waterloo, Waterloo, October 29, 1980. “Collocation Methods for Singularly-Perturbed Boundary Value Problems,” Department of Computer Science, University of Toronto, Toronto, October 30, 1980. “Codes for Boundary Value Problems,” ICASE, NASA Langley Research Center, Hampton, November 12, 1980. 55

“Pitfalls in Numerical Computation,” Departments of Mathematics and Computer Science, Siena College, Loudonville, October 19, 1981. “An Adaptive Finite Element Method for Initial-Boundary Value Problems,” Numerical Analysis Seminar, Courant Institute of Mathematical Sciences, New York University, New York, December 6, 1981. “How to Move Your Finite Elements,” Mathematics Club, Rensselaer Polytechnic Institute, Troy, February 18, 1982. “Adaptive Methods for Partial Differential Equations,” series of two lectures, Program in Applied Mathematics, University of Arizona, Tucson, March 17-18, 1982. “Numerical Techniques for Shock and Impact Problems in Solids,” Ben´et Weapons Laboratory, Watervliet Arsenal, Watervliet, May 17, 1982. “Adaptive Finite Element Methods for Parabolic Partial Differential Equations,” Department of Mathematics, University of New Mexico, Albuquerque, April 6, 1984. “A Moving Finite Element Method for Time Dependent Partial Differential Equations with Error Estimation and Refinement,” the Technical University of Delft, Delft, January 4, 1985. “Moving Finite Difference and Finite Element Methods with Local Refinement for Time Dependent Partial Differential Equations,” Department of Applied Mathematics, Rice University, Houston, March 12, 1985. “Moving Finite Difference and Finite Element Methods with Local Refinement for Time Dependent Partial Differential Equations,” Naval Surface Weapons Center, Dahlgren, May 14, 1985. “Moving Finite Difference and Finite Element Methods with Local Refinement for Time Dependent Partial Differential Equations,” Los Alamos National Laboratory, Los Alamos, June 20-21, 1985. “Adaptive Finite Difference and Finite Element Methods for Time Dependent Partial Differential Equations,” IBM T. J. Watson Research Center, Yorktown Heights, October 9, 1985. “Adaptive Finite Difference Methods for Hyperbolic Systems,” RPI/University of Maryland Seminar on Adaptive Methods, University of Maryland, College Park, January 24, 1986. “Adaptive Finite Element Methods for Parabolic Systems in One- and TwoSpace Dimensions,” Polytechnic University, Brooklyn, April 17, 1986. “Adaptive Finite Element Methods for Parabolic Systems in One- and TwoSpace Dimensions,” University of Texas, Austin, May 5, 1986. “Adaptive Finite Element Methods for Parabolic Systems in One- and TwoSpace Dimensions,” AT&T, Bell Laboratories, Murray Hill, May 15, 1986. “Adaptive Methods for Time-Dependent Partial Differential Equations,” United Technologies Research Center, Hartford, November 21, 1986. “Adaptive Methods for Time-Dependent Partial Differential Equations,” C.F.D. Seminar, Massachusets Institue of Technology, Cambridge, April 17, 1987. 56

“Adaptive Methods for Time-Dependent Partial Differential Equations,” Boeing Computer Services, Bellevue, January 12, 1987. “Adaptive Methods for Partial Differential Equations,” IBM High Performance Computing Laboratory, Kingston, June 23, 1987. “Adaptive Local Mesh Refinement Methods for Time-Dependent Partial Differential Equations,” State University of New York at Stony Brook, Stony Brook, March 7, 1988. “Adaptive Methods for Time-Dependent Partial Differential Equations,” CWIShell Colloquium Series, Amsterdam, April 26-30, 1988. “Some Computational Aspects of Adaptive Methods for Partial Differential Equations,” Joint Meeting between SUNY at Albany and Rensselaer, June 9, 1988. “Solving the Euler Equations in Three Dimensions,” and “A Multigrid Method for the Euler Equations in Two Dimensions,” Industrial Associates Review, Rensselaer Design Research Center, Rensselaer Polytechnic Institute, Troy, April 25, 1989. “Adaptive H-, P-, and R- Refinement Finite Element Methods for Parabolic Partial Differential Systems,” University of Leeds, Leeds, November 23, 1989. “Adaptive Methods for Employing Quadtree Structures for Partial Differential Equations,” Tulane University, New Orleans, February 1, 1990. “Adaptive Methods and Parallel Solutions of Partial Differential Equations Using Quadtree and Octree Structures,” Grumman Aerospace, Bethpage, May 2, 1990. “Adaptive Methods and Parallel Computation for Partial Differential Equations,” Los Alamos National Laboratory, Los Alamos, December 4, 1990. “Parallel Adaptive Numerical Methods for Partial Differential Equations,” University of Minnesota, Minneapolis, February 11, 1991. “Parallel Adaptive Numerical Methods for Partial Differential Equations,” Department of Mathematics, University of Akron, Akron, February 16, 1991. “High-Order Adaptive Methods for Parabolic and Elliptic Systems,” Department of Mathematics, New Jersey Institute of Technology, Newark, April 20, 1992. “Adaptive Methods for Time-Dependent Partial Differential Equations,” ICASE, NASA Langley Research Center, Hampton, July 23, 1992. “High-Order Adaptive Methods for Time-Dependent Partial Differential Equations,” Department of Mechanical Engineering, Washington University, St. Louis, October 20-30, 1992. “Adaptive and Parallel High-Order Methods for Conservation Laws, Department of Mathematics, Mississippi State, Starkville, January 22-24, 1993. ”Adaptive and Parallel High-Order Methods for Conservation Laws,” TICOM, University of Texas, Austin, March 13-22, 1993. “Adaptive and Parallel High-Order Methods for Conservation Laws,” Department of Mathematics, University of Kentucky, Lexington, April 21, 1993. 57

“Adaptive and Parallel High-Order Methods for Conservation Laws,” Computer Science Department, University of Toronto, Toronto, February 25, 1994. “Adaptive Methods for Parabolic Partial Differential Equations,” Department of Mathematics, State University of New York at Buffalo, Buffalo, May 5, 1994. “Parallel Adaptive Load-Balancing Schemes for Three-Dimensional Conservation Laws,” Numerical Alalysis Seminar, New York University, New York, April 7, 1995. “Adaptive and parallel Computational Techniques with Applications in Materials Science,” Air Products, Inc., Allentown, January 23, 1996. “Adaptive Method of Lines Techniques for Parabolic Systems with Applications to Materials Processing,” Schiesser Lectures in Interdisciplinary Science and Engineering, School of Engineering, Lehigh University, January, 24, 1996. “Adaptive and Parallel Computational Techniques for Partial Differential Equations,” U. S. Army High Performance Computation Center, University of Minnesota, Minneapolis, February 8, 1996. “Adaptive and Parallel Computational Techniques for Partial Differential Equations,” Theory Center, Cornell University, Ithaca, March 4, 1996. “Adaptive and Parallel Computational Techniques for Partial Differential Equations,” Department of Applied Mathematics, Brown University, Providence, March 8, 1996. “Adaptive and Parallel Computational Techniques for Partial Differential Equations,” Kansas Center for Advanced Scientific Computation, The University of Kansas, Lawrence, November 22, 1996. “A Framework for Adaptive and Parallel Finite Element Computation,” Departments of Computer Science and Mathematics, the University of Wisconsin, Madison, April 7, 1997. “Modeling and Adaptive Finite Element Methods for Ceramic-Composite Materials Processing,” Institute for Mathematics and its Applications, The University of Minnesota, Minneapolis, May 20, 1997. “Adaptive and Parallel hp-Refinement for Conservation Laws,” Department of Mathematics, The University of New Orleans, New Orleans, May 1, 1998. “Adaptive and Parallel hp-Refinement for Conservation Laws,” Department of Engineering Science, University of Auckland, Auckland, December 18, 1998. “Adaptive and Parallel Computational Techniques for Conservation Laws,” Division of Mathematics and Computer Science, Argonne National Laboratories, Argonne, January 25, 1999. “Adaptive and Parallel Computational Techniques for Conservation Laws,” Department of Computer Science, University of Chicago, Chicago, January 26, 1999. “Parallel Adaptive Computation Using Discontinuous Galerkin Methods,” Department of Applied Mathematics, Brown University, Providence, February 11, 2000. 58

“A Posteriori Error Estimation for Discontinuous Galerkin Methods,” Division of Mathematics and Computer Science, Argonne National Laboratories, Argonne, April 20, 2000. “Software for Parallel Adaptive Computation” and “A Posteriori Error Estimation for the Discontinuous Galerkin Method,” Sandia National Laboratory, Albuquerque, June 21, 22, 2000. “Adaptive Discontinuous Galerkin Methods for Conservation Laws,” Department of Computer Science, William and Mary College, Williamsburg, September 13, 2000. “Parallel Adaptive Computation using Discontinuous Galerkin Methods,” Mathematical and Computational Sciences Division, National Institute of Standards and Testing, Gaithersburg, September 26, 2000. “Parallel Adaptive Computation using Discontinuous Galerkin Methods,” Department of Mathematical Sciences, University of Nevada at Las Vegas, Las Vegas, February 8, 2001. “Discontinuous Galerkin Methods for Hyperbolic Conservation Laws,” Robert J. Melosh Lecture, Department of Civil and Environmental Engineering, Duke University, Durham, March 30, 2001. “A Hierarchical Data Management System for Parallel Partitioning of Adaptive Computation,” Sun Microsystems, Burlington, May 3, 2001. “The Fields Institute Thematic Year on Numerical and Computational Challenges in Science and Engineering,” The Fields Institute for Research in Mathematical Sciences, University of Toronto, Toronto, June 18, 2001. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” Research Institute in Advanced Computer Science (RIACS), NASA Ames Research Center, Moffett Field, January 9, 2002. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” Institute of Mathematical Sciences, Chinese University of Hong Kong, Hong Kong, March 6, 2002. “Adaptive and Parallel Discontinuous Galerkin Methods for Hyperbolic Systems,” Department of Mathematics, State University of New York, Stony Brook, April 17, 2002. “Discontinuous Galerkin Methods for Hyperbolic Systems,” Numerical Analysis Seminar, Courant Institute of Mathematical Sciences, New York University, New York, May 3, 2002. Adaptive and Parallel Discontinuous Galerkin Methods for Conservation Laws. I. Fundamental Computational and Theoretical Properties, II. A Posteriori Error Estimation and Superconvergence,” Edward L. Riess Memorial Lectures, Northwestern University, May 12, 13, 2003. Short course of six lectures on “Discontinuous Galerkin Methods for Conservation Laws,” Technical University of Braunschweig, Braunschweig, May 26-28, 2003. 59

Short course of ten lectures (with Bernardo Cockburn of the University of Minnesota) on “Adaptive Methods for Conservation Laws,” 42 `eme Ecole d’Et´e d’Analyse Num´erique CEA-EDF-INRIA, Centre Port-Royal, Saint-Lambert des Bois, 7-12 July 2003. Short course of four lectures (with Bernardo Cockburn of the University of Minnesota) on “Discontinuous Galerkin Methods,” Seventh U.S. National Congress on Computational Mechanics, Albuquerque, 27-31 July, 2003. IX. Honors and Awards (List names and dates) Director’s Award, IBM Myers Corners Laboratory, 1991. U. S. Army Fifteen-Year Service Recognition, 1995. (Inaugural) Schiesser Lecture in Interdisciplinary Science and Engineering, School of Engineering, Lehigh University, January, 24, 1996. Best paper of the year 1997 award for D. Givoli, J.E. Flaherty, M.S. Shephard, “Parallel Adaptive Finite Element Analysis of Viscous Flows Based on a Combined Compressible-Incompressible Formulation,” International Journal of Numerical Methods in Heat and Fluid Flow, 7, pp. 880 - 906, 1997. Fellow, U. S. Association of Computational Mechanics, 1999. Robert J. Melosh Lecture, Duke University, Durham, March 30, 2001. Computational and Applied Science award, U. S. Association of Computational Mechanics, 2003. Edward L. Riess Memorial Lectures, Northwestern University, May 12, 13, 2003. U.S. Army Materiel Command’s Greatest Inventions award, received by a research team led by Eric Kathe of Ben´et Laboratories and including his dissertation advisors J.E. Flaherty and H. Nagamatsu. The award was received for the design and development of a rarefaction gun, November, 2003. X. Sabbatical leaves, off-campus study programs, foreign professional travel (Dates and topics. Foreign travel associated with paper presentations and lectures appear in Section VIII.) Attended “Two Phase Flow Specialists Meeting,” Paris, June 12-14, 1978. Visiting Scientist, Departments of Mathematics and Computer Science, Stanford University, January 4 - February 4, 1980. Visiting Scientist, Institute for Computer Applications in Science and Engineering (ICASE), NASA Langley Research Center, Hampton, October-November, 1980. Visiting Scientist, Department of Mathematics, University of Arizona, December 3-17, 1980. Visiting Scientist, Applied Mathematics and Mechanics Section, Ben´et Weapons Laboratory, Watervliet Arsenal, January-June, 1981. 60

Attended Conference on Accuracy Estimates and Adaptive Refinements in Finite Element Computation, Lisbon, June 19-22, 1984. Attended First International Conference on Industrial and Applied Mathematics, Paris, June 29-July 3, 1987. Attended Supercomputing Program for Undergraduate Research (week 2), Theory Center, Cornell University, June 11-15, 1990. Gave a series of ten lectures on “The Computer Solution of Partial Differential Equations.” Visiting Scientist, Ben´et Weapons Laboratory, Watervliet Arsenal, September 1991 - August 1992. Visiting Scientist, The Institute for Mathematics and its Applications (IMA), University of Minnesota, Minneapolis, April 1 - June 30, 1997. Visiting Scientist, The University of Auckland, Auckland, November 30 - December 21, 1998. XI. Other Activities (List other relevant activities such as consulting, (include name of company and days per year), expert witness, or significant activities not included in previous categories). Participated in Applied Mathematics Seminar; gave talks: • “Computer Solution of Partial Differential Equations,” April 1973. • “Elastic Behavior of Composite Media,” May 1974. • “Population Genetics,” May 1975. Organized and ran the Numerical Analysis Seminar for 1977-79. Gave three lectures on “Finite Element Analysis.” Participated in General Electric’s “Modern Engineering Course,” October 12-13, 1977. Gave two lectures on “Finite Element Analysis.” Participated in General Electric’s “Modern Engineering Course,” October, 1978. Gave three lectures on “Finite Element Analysis.” Participated in General Electric’s “Modern Engineering Course,” October, 1979. Gave three lectures on “Finite Element Analysis.” Presented three-hour mini course on Scientific Computing, Hartford Graduate Center, February 15, 1980. Participated in General Electric’s “Modern Engineering Course,” October, 1980. Gave three lectures on “Finite Element Analysis.” Participated in General Electric’s “Modern Engineering Course,” October, 1981. Gave three lectures on “Finite Element Analysis.” Consultant for Mathematics and Mechanics Section, Ben´et Weapons Laboratory, Watervliet Arsenal, April 1980-date, 1 day/week. 61

Consultant, Institute for Computer Applications in Science and Engineering (ICASE), October 1980-1985, 10 days/year. Co-organized with Prof. A. Kapila 1982 Days of Applied Mathematics Conference, Rensselaer Polytechnic Institute, April 24-25, 1982. Co-organized with J. Chandra (U. S. Army Research Office) Workshop on Computational Aspects of Penetration Mechanics, Aberdeen Proving Ground, April 27-29, 1982. Participated in General Electric’s Modern Engineering Course, October, 1982. Gave four lectures on “Engineering Mathematics.” Co-organizer and co-editor with J. Chandra (U. S. Army Research Office) and I. Babuska (University of Maryland) of Workshop on Adaptive Methods for Partial Differential Equations, University of Maryland, February 14-16, 1983. Participated in review by Air Force Seven-Man Group on Research in the TwentyFirst Century, Rensselaer Polytechnic Institute, July 13, 1983. Co-organizer with D. A. Drew and S. L. Pu and J. Vasilakis (Ben´et Weapons Laboratory) of Second Army Conference on Applied Mathematics and Computing, Rensselaer Polytechnic Institute, May 22-25, 1984. Co-organizer with D. A. Drew of the Conference on Mathematics Applied to Fluid Mechanics and Stability, dedicated in Memory of Richard C. DiPrima, Rensselaer Polytechnic Institute, May 9-11, 1985. Attended First International Conference on Industrial and Applied Mathematics, Paris, June 29-July 3, 1987. Organized and ran the Numerical Analysis Seminar, January 1987-1988. Gave two lectures on “A Posteriori Error Estimation.” Co-organizer with M. S. Shephard and J. Vasilakis (Ben´et Laboratory) the Workshop on Adaptive Methods for Partial Differential Equations, Rensselaer Polytechnic Institute, October 13-15, 1988. Participated in the Fourth Parallel Computing Circus, Rutgers University, November 1988. Chaired Session on Sorting and Simulated Annealing at the Fourth International Conference on Supercomputing, Santa Clara, May 3-5, 1989. Co-organizer with Boleslaw Szymanski of the Fifth Parallel Computing Circus, Rensselaer Polytechnic Institute, April 28-29, 1989. Attended the Seventh Army Conference on Applied Mathematics and Computing, U.S. Military Academy, West Point, June 6-9, 1989. Attended the DARPA Meeting on Supercomputing, San Diego, May 14-16, 1990. Participated in Cornell Workshop on Supercomputing, Cornell University, June 13-15, 1990.

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Co-sponsored with M. S. Shephard the Workshop on Large-Scale Scientific Computation hosted by the Scientific Computation Research Center, Rensselaer Polytechnic Institute, December 11-12, 1990. Co-organizer with M. Shephard, the Workshop on Adaptive Methods for Partial Differential Equations, Rensselaer Polytechnic Institute, May 17-20, 1992. Science Council, Research Institute in Advanced Computer Science (RIACS), NASA Ames Research Center, 1992 - 1995. Co-organizer with J. D. Cole, D. A. Drew, B. J. Matkowsky and L. Ting, the Workshop on Perturbation Methods in Physical Mathematics, Rensselaer Polytechnic Institute, June 23-26, 1993. Co-organizer with A. Friedman (University of Minnesota), the Workshop on Modeling, Mesh Generation, and Adaptive Numerical Methods for Partial Differential Equations, Institute for Mathematics and its Appplications, University of Minnesota, July 6-23, 1993. Attended the Twenty First Annual Cocoa Beach Conference and Exposition on Composites, Advanced Ceramics, Materials and Structures, Cocoa Beach, January 12-16, 1997. Co-organizer with M. Bern (Xerox PARC) and M. Luskin (University of Minnesota), the Workshop on Grid Generation and Adaptive Algorithms, Institute for Mathematics and its Applications, University of Minnesota, April 28 - May 2, 1997. Advisory Committee, Mathematical and Computer Sciences Directorate, U.S. Army Research Office, 1998. External Advisory Council, Parallel Computing Laboratory, Sandia National Laboratories, 1998 - date. Science Council, Institute for Computer Applications in Science and Engineering (ICASE), NASA Langley Research Center, 1998 - date. Chair, 1999 - date. Co-organizer with D. A. Drew, M. H. Holmes, and R. M. M. Mattheij (University of Einhoven), the Workshop on Singular Perturbations at the Turning Point of the Millennium, Rensselaer Polytecnic Institute, October 9, 10, 1999. Member, International Organizing Committee, conference on Finite Elements in Flow Problems 2000, University of Texas at Austin, Austin, April 30 - May 4, 2000. Member, Scientific Committee, conference on p and hp Finite Element Methods: Mathematics and Engineering Practice (p-FEM 2000), Washington University, St. Louis, May 31 - June 2, 2000. Member, Organizing Committee, 16th IMACS World Congress 2000, Lausanne, August 20 - 25, 2000. Member, Organizing Committee, The Fields Institute Thematic Year on Numerical and Computational Challenges in Science and Engineering, The Fields Institute for

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Research in Mathematical Sciences, University of Toronto, Toronto, June 18, 2001 - August 31, 2002. Invited participant, U. S. Army Research Office 50th Anniversary Symposium, Research Triangle Park, June 12, 2001 Member, Organizing Committee, U. S. National Congress on Computational Mechanics, Dearborn, Aug. 1 - 3 2001. Member, Science Council, National Institute of Aerospace, 2003 - date. XII. In addition to the above information include, if pertinent, concrete evidence of teaching ability and any unusual contributions to university affairs, such as curriculum advising or development, continuing education participation, etc.

Date:

Signature:

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