ADOL-C

ADOL-C: Automatic Differentiation of C/C++. We present two strategies for the implementation of Automatic Differentiation (AD) based on the operator overloading facility in C++. Subsequently, we describe the capabilities of the AD-tool ADOL-C that applies operator overloading to differentiate C- and C++-code. Finally, we discuss some applications of ADOL-C.

This software is also referenced in ORMS.


References in zbMATH (referenced in 249 articles , 1 standard article )

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  1. Christianson, Bruce: Differentiating through conjugate gradient (2018)
  2. Cots, Olivier; Gergaud, Joseph; Goubinat, Damien: Direct and indirect methods in optimal control with state constraints and the climbing trajectory of an aircraft (2018)
  3. Fiege, Sabrina; Walther, Andrea; Kulshreshtha, Kshitij; Griewank, Andreas: Algorithmic differentiation for piecewise smooth functions: a case study for robust optimization (2018)
  4. Griewank, Andreas; Streubel, Tom; Lehmann, Lutz; Radons, Manuel; Hasenfelder, Richard: Piecewise linear secant approximation via algorithmic piecewise differentiation (2018)
  5. Hascoët, Laurent; Morlighem, M.: Source-to-source adjoint algorithmic differentiation of an ice sheet model written in C (2018)
  6. Hück, Alexander; Bischof, Christian; Sagebaum, Max; Gauger, Nicolas R.; Jurgelucks, Benjamin; Larour, Eric; Perez, Gilberto: A usability case study of algorithmic differentiation tools on the ISSM ice sheet model (2018)
  7. Jurgelucks, Benjamin; Claes, Leander; Walther, Andrea; Henning, Bernd: Optimization of triple-ring electrodes on piezoceramic transducers using algorithmic differentiation (2018)
  8. Kulshreshtha, K.; Narayanan, S. H. K.; Bessac, J.; MacIntyre, K.: Efficient computation of derivatives for solving optimization problems in R and Python using SWIG-generated interfaces to ADOL-C (2018)
  9. Leitz, Thomas; Leyendecker, Sigrid: Galerkin Lie-group variational integrators based on unit quaternion interpolation (2018)
  10. Marco, Onofre; Ródenas, Juan José; Fuenmayor, Francisco Javier; Tur, Manuel: An extension of shape sensitivity analysis to an immersed boundary method based on Cartesian grids (2018)
  11. Pryce, John D.; Nedialkov, Nedialko S.; Tan, Guangning; Li, Xiao: How AD can help solve differential-algebraic equations (2018)
  12. Sagebaum, Max; Albring, T.; Gauger, N. R.: Expression templates for primal value taping in the reverse mode of algorithmic differentiation (2018)
  13. Srajer, Filip; Kukelova, Zuzana; Fitzgibbon, Andrew: A benchmark of selected algorithmic differentiation tools on some problems in computer vision and machine learning (2018)
  14. Towara, M.; Naumann, U.: SIMPLE adjoint message passing (2018)
  15. Brandt, Christopher; Hildebrandt, Klaus: Compressed vibration modes of elastic bodies (2017)
  16. Dunning, Iain; Huchette, Joey; Lubin, Miles: JuMP: a modeling language for mathematical optimization (2017)
  17. La, H. C.; Potschka, A.; Schlöder, J. P.; Bock, H. G.: Dual control and online optimal experimental design (2017)
  18. Phipps, E.; D’Elia, M.; Edwards, H. C.; Hoemmen, M.; Hu, J.; Rajamanickam, S.: Embedded ensemble propagation for improving performance, portability, and scalability of uncertainty quantification on emerging computational architectures (2017)
  19. Ringkamp, Maik; Ober-Blöbaum, Sina; Leyendecker, Sigrid: On the time transformation of mixed integer optimal control problems using a consistent fixed integer control function (2017)
  20. Schutte, Aaron D.: A nilpotent algebra approach to Lagrangian mechanics and constrained motion (2017)

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