• ADOL-C

  • Referenced in 249 articles [sw00019]
  • ADOL-C: Automatic Differentiation of C/C++. We present two strategies for the implementation of Automatic ... tool ADOL-C that applies operator overloading to differentiate C- and C++-code. Finally ... discuss some applications of ADOL-C...
  • CppAD

  • Referenced in 36 articles [sw04866]
  • Benders decomposition example using both the ADOL-C and CppAD packages. Some of the source ... well as future versions of ADOL-C and CppAD. The source code also serves...
  • ADMIT

  • Referenced in 22 articles [sw02687]
  • plugged into ADMIT-1; examples include ADOL-C (C/C++ target functions)and ADMAT (MATLAB target...
  • ADOL-F

  • Referenced in 10 articles [sw00020]
  • Fortran 90 interface to the ADOL-C library and facilitates the evaluation of first ... program. Fortran 90 allows operator overloading (like C++) but lacks constructor/destructor operators for user-defined ... active temporary variables than does ADOL-C. The derivative calculations involve a possibly substantial...
  • Adept

  • Referenced in 8 articles [sw19696]
  • that enables algorithms written in C and C++ to be automatically differentiated. It uses ... other libraries that provide equivalent functionality (ADOL-C, CppAD and Sacado) and less memory...
  • hess_pat

  • Referenced in 8 articles [sw11167]
  • adjoints is analysed. New drivers of ADOL-C are provided implementing the presented algorithms. Runtime...
  • pyadolc

  • Referenced in 3 articles [sw19693]
  • PYADOLC, a wrapper for ADOL-C. This PYADOLC, a Python module to differentiate complex algorithms ... wraps the functionality of the library ADOL-C...
  • edge_push_sp

  • Referenced in 4 articles [sw11168]
  • automatic differentiation package ADOL-C. The second is edge_push_sp, a new reverse mode...
  • Livarh

  • Referenced in 2 articles [sw31778]
  • both algorithms Livarh and Livarhacc within ADOL-C, a widely-used operator overloading based ... included in a future release of ADOL-C. .. 5.2 Implementing Livarh...
  • Livarhacc

  • Referenced in 2 articles [sw31779]
  • both algorithms Livarh and Livarhacc within ADOL-C, a widely-used operator overloading based ... included in a future release of ADOL-C. .. 5.3 Implementing Livarhacc...
  • LiPsMin

  • Referenced in 3 articles [sw26236]
  • corresponding drivers for the AD tool ADOL-C which are embedded in the nonsmooth solver...
  • PyADOL-C

  • Referenced in 1 article [sw15567]
  • Python Wrapper of ADOL-C. Features (http://www.autodiff.org/?module=Tools&tool=pyadolc): BSD licenced. tape evaluation is completely ... should be the same as in ADOL-C but bufsize can be much larger ... documented but available in ADOL-C (in particular hov_ti_reverse). provides an Pythonic userinterface...
  • JAP

  • Referenced in 2 articles [sw06495]
  • mature for several languages such as C or Fortran, but are just emerging in object ... also compares JAP performance to ADOL-C in forward mode on a magnetic MEMS model...
  • INDEXNET

  • Referenced in 2 articles [sw37079]
  • using the library INDEXNET and the ADOL-C package for algorithmic differentiation. We deal with...
  • LIEDRIVERS

  • Referenced in 1 article [sw19010]
  • Object-Oriented Algorithmic Differentiation Package ADOL-C. Lie derivatives are widely used in mathematics ... algorithmic differentiation using the software package ADOL-C avoiding the drawbacks of symbolic differentiation...
  • JAutoDiff

  • Referenced in 1 article [sw25241]
  • many implementation in C/C++ (ex. FADBAD++, ADOL-C, etc.), while are few in Java. JAutoDiff...
  • GRESS

  • Referenced in 13 articles [sw00385]
  • GRESS, a preprocessor for sensitivity analysis of Fortran...
  • PADRE2

  • Referenced in 14 articles [sw00667]
  • PADRE2, a Fortran precompiler yielding error estimates and...
  • R

  • Referenced in 9810 articles [sw00771]
  • R is a language and environment for statistical...