Skip to main content Accessibility help
  • Print publication year: 2015
  • Online publication date: May 2018

2 - Computers, Codes, and Engineering

Brooks, F.P., Jr., The Mythical Man-Month, Reading: Addison-Wesley, 1975.
Jayaram, S., Myklebust, A., and Gelhausen, P, “ACSYNT – A Standards-Based System for Parametric Computer Aided Conceptual Design of Aircraft,” AIAA Paper 92–1268, February 1992.
LinAir, Software Package, Ver. 4.0, Desktop Aeronautics, Inc., Palo Alto, CA, 2004.
Williams, J.E., and Vukelich, S.R., The USAF Stability and Control Digital DATCOM, AFFDL TR-79–3032, 1979.
Engineering Sciences Data Unit, Information Handling Services, Inc., London, England.
Blake, W.B. Missile DATCOM, AFRL VA-WP-TR-1998–3009, 1998.
Kinsey, D.W., and Bowers, D.L., “A Computerized Procedure to Obtain the Coordinates and Section Characteristics of NACA Designated Airfoils,” AFFDL-TR-71–87, 1971.
Vukelich, S. R., “Missile DATCOM Volume 3 – Fin Alone Aerodynamic Methodology,” March 1984.
McCormick, B.W., Aerodynamics, Aeronautics, and Flight Mechanics, 2nd Ed., Hoboken: John Wiley and Sons, 1995.
Antoine, N.E., and Kroo, I.M., “Framework for Aircraft Conceptual Design and Environmental Performance Studies,” AIAA Journal, Vol. 43, No. 10, 2005, pp. 2100–2109.
Pearce, D.G., Stanley, S.A., Martin, F.W., Gomez, R.J., LeBeau, G.J., Buning, P.G., Chan, W.M., Chan, I.T., Wulf, A., and Akdag, V., “Development of a Large Scale Chimera Grid System for the Space Shuttle Launch Vehicle,” AIAA Paper 93–0533, January 1993.
Moretti, G., and Abbett, M., “A Time-Dependent Computational Model for Blunt Body Flows,” AIAA Journal, Vol. 4, No. 12, 1966, pp. 2136–2141.
Rubbert, P.E., “Theoretical Characteristics of Arbitrary Wings by a Nonplanar Vortex Lattice Method,” Boeing Report D6-9244, The Boeing Company, 1964.
Hess, J.L., and Smith, A.M.O., “Calculation of Nonlifting Potential Flow About Arbitrary Three-Dimensional Bodies,” Douglas Report ES40622, Douglas Aircraft Company, 1962.
Chapman, D.R., “Aerodynamic Analysis Requiring Advanced Computers,” NASA SP-347, 1975, pp. 4–7.
Whitcomb, R., “Review of NASA Supercritical Airfoils,” ICAS Paper 74-10, 1974.
Murman, E.M., and Cole, J.D., “Calculation of Plane Steady Transonic Flows,” AIAA Journal, Vol. 9, No. 1, 1971, pp. 114–121.
Spalart, P.R., “Strategies for Turbulence Modeling and Simulations,” International Journal of Heat & Fluid Flow, Vol. 21, 2000, pp. 252–263.
Dongarra, J., ed., Sourcebook of Parallel Computing, San Francisco: Morgan Kaufmann Publishers, 2003.
Rizzi, A., and Engquist, B., “Selected Topics in the Theory and Practice of Computational Fluid Dynamics,” Journal of Computational Physics, Vol. 72, No. 1, 1987, pp. 1–69.
Neves, K.W., “Hardware Architecture” in Computational Fluid Dynamics: Algorithms and Supercomputers, AGARD-AG-311, 1988.
Deane, A., Brenner, G., Ecer, A., Emerson, D.R., McDonough, J., Periaux, J., Satofuka, N., and Tromeur-Dervout, D., eds., Parallel Computational Fluid Dynamics: Theory and Applications, Oxford: Elsevier, 2006.
Rajasekaran, S., and Reif, J., eds., Handbook of Parallel Computing: Models, Algorithms and Applications, Boca Raton: Chapman & Hall, 2008.
Asanovic, K., Bodik, R., Catanzaro, B.C., Gebis, J.J., Husbands, P., Keutzer, K., Patterson, D.A., Plishker, W.L., Shalf, J., Williams, S.W., Yelick, K.A., “The Landscape of Parallel Computing Research: A View from Berkeley,” Technical Report No. UCB/EECS-2006-183, 2006.
Holst, T.L., Salas, M.D., and Claus, R.W., “The NASA Computational Aerosciences Program – Toward Teraflops Computing,” AIAA Paper 92–0558, January 1992.
Tomoro, R.F., Strang, W.Z., and Wurtzler, K.E., “Can Legacy Codes Scale on Tens of Thousands of PEs or Do We Need to Reinvent the Wheel?,” DoD HPC User Group Conference, June 2012.
Morton, S.A., McDaniel, D.R., Sears, D.R., Tillman, B., and Tuckey, T.R., “Kestrel v2.0 – 6DoF and Control Surface Additions to a CREATE Simulation Tool,” AIAA Paper 2010-0511, January 2010.
Cosner, R.R., Oberkampf, W.L., Rumsey, C.L., Rahaim, C.P., and Shih, T.I-P., “AIAA Committee on Standards for Computational Fluid Dynamics: Status and Plans,” AIAA Paper 2006-0889, January 2006.
Schwer, L.E., “Guide for Verification and Validation in Computational Solid Mechanics,” ASME VV 10, 2006.
Thacker, B.H., Doebling, S.W., Hemez, F.M., Anderson, M.C., Pepin, J.E., and Rodriguez, E.A., “Concepts of Model Verification and Validation,” Los Alamos National Laboratory, LA-14167-MS, October 2004.
Sacher, P.W., “Technical Evaluation Report on the Fluid Dynamics Panel Symposium on Validation of Computational Fluid Dynamics,” AGARD Advisory Report No. 257, May 1989.
Melnik, R.E., Siclari, M.J., Barber, T., and Verhoff, A., “A Process for Industry Certification of Physical Simulation Codes,” AIAA Paper 94–2235, June 1994.
Melnik, R.E., Siclari, M.J., Marconi, F., Barber, T., and Verhoff, A., “An Overview of a Recent Industry Effort at CFD Code Certification,” AIAA Paper 95–2229, June 1995.
Tinoco, E.N., “Validation and Minimizing CFD Uncertainty for Commercial Aircraft Applications,” AIAA Paper 2008–6902, August 2008.
Roache, P.J., “Verification of Codes and Calculations,” AIAA Journal, Vol. 36, No. 5, 1998, pp. 696–702.
Aeschliman, D.F., Oberkampf, W.L., and Blottner, F.G., “A Proposed Methodology for Computational Fluid Dynamics Code Verification, Calibration, and Validation,” International Congress on Instrumentation in Aerospace Simulation Facilities (ICIASF), July 18–21, 1995, Wright-Patterson AFB, OH.
“Guide for the Verification and Validation of Computational Fluid Dynamics Simulations,” AIAA G-077-1998, 1998.
Oberkampf, W.L., and Roy, C.J., Verification and Validation in Scientific Computing, New York: Cambridge University Press, 2010.
Giles, M., “‘Best Practices’ in CFD Software Development,” Oxford University Computing Laboratory, 1995.
Anonymous, “Best Practice Guidelines for Marine Applications of Computational Fluid Dynamics,” MARNet CFD, Final Report, 2003.