| .. default-domain:: cpp |
| |
| .. cpp:namespace:: ceres |
| |
| .. _chapter-on_derivatives: |
| |
| ============== |
| On Derivatives |
| ============== |
| |
| Ceres Solver, like all gradient based optimization algorithms, depends |
| on being able to evaluate the objective function and its derivatives |
| at arbitrary points in its domain. Indeed, defining the objective |
| function and its `Jacobian |
| <https://en.wikipedia.org/wiki/Jacobian_matrix_and_determinant>`_ is |
| the principal task that the user is required to perform when solving |
| an optimization problem using Ceres Solver. The correct and efficient |
| computation of the Jacobian is the key to good performance. |
| |
| Ceres Solver offers considerable flexibility in how the user can |
| provide derivatives to the solver. She can use: |
| |
| #. :ref:`chapter-analytical_derivatives`: The user figures out the |
| derivatives herself, by hand or using a tool like `Maple |
| <https://www.maplesoft.com/products/maple/>`_ or `Mathematica |
| <https://www.wolfram.com/mathematica/>`_, and implements them in a |
| :class:`CostFunction`. |
| #. :ref:`chapter-numerical_derivatives`: Ceres numerically computes |
| the derivative using finite differences. |
| #. :ref:`chapter-automatic_derivatives`: Ceres automatically computes |
| the analytic derivative using C++ templates and operator |
| overloading. |
| |
| Which of these three approaches (alone or in combination) should be |
| used depends on the situation and the tradeoffs the user is willing to |
| make. Unfortunately, numerical optimization textbooks rarely discuss |
| these issues in detail and the user is left to her own devices. |
| |
| The aim of this article is to fill this gap and describe each of these |
| three approaches in the context of Ceres Solver with sufficient detail |
| that the user can make an informed choice. |
| |
| For the impatient amongst you, here is some high level advice: |
| |
| #. Use :ref:`chapter-automatic_derivatives`. |
| #. In some cases it maybe worth using |
| :ref:`chapter-analytical_derivatives`. |
| #. Avoid :ref:`chapter-numerical_derivatives`. Use it as a measure of |
| last resort, mostly to interface with external libraries. |
| |
| For the rest, read on. |
| |
| .. toctree:: |
| :maxdepth: 1 |
| |
| spivak_notation |
| analytical_derivatives |
| numerical_derivatives |
| automatic_derivatives |
| interfacing_with_autodiff |
| inverse_and_implicit_function_theorems |