QPALM
1.2.5
Proximal Augmented Lagrangian method for Quadratic Programs
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QPALM main solver routines.
This file contains the functions that make up the qpalm algorithm (the functions that qpalm_solve will use). These include the computation of the residuals at the start of the iteration, the update of the primal variables in an inner iteration, the update of the penalty factors and dual variables in an outer iteration, the computation of the primal and dual objective values, etc.
Definition in file iteration.c.
#include <qpalm/iteration.h>
#include <qpalm/lin_alg.h>
#include <qpalm/solver_interface.h>
#include <qpalm/newton.h>
#include <qpalm/linesearch.h>
#include <qpalm/nonconvex.h>
#include <qpalm/util.h>
#include <ladel.h>
Go to the source code of this file.
Functions | |
void | compute_residuals (QPALMWorkspace *work, solver_common *c) |
Compute the residuals (in vector form) | |
void | initialize_sigma (QPALMWorkspace *work, solver_common *c) |
Initialize penalty factors from initial x. | |
void | update_sigma (QPALMWorkspace *work, solver_common *c) |
Update the penalty factors. | |
void | update_gamma (QPALMWorkspace *work) |
Update the proximal penalty. | |
void | boost_gamma (QPALMWorkspace *work, solver_common *c) |
Maximize the proximal penalty. | |
void | update_or_boost_gamma (QPALMWorkspace *work, solver_common *c, c_int iter_out) |
void | update_proximal_point_and_penalty (QPALMWorkspace *work, solver_common *c, c_int iter_out, c_float *eps_k_abs, c_float *eps_k_rel) |
void | update_dual_iterate_and_parameters (QPALMWorkspace *work, solver_common *c, c_int iter_out, c_float *eps_k_abs, c_float *eps_k_rel) |
void | update_primal_iterate (QPALMWorkspace *work, solver_common *c) |
Update the primal iterate. | |
c_float | compute_objective (QPALMWorkspace *work) |
Compute the (unscaled) primal objective value at the current iterate. | |
c_float | compute_dual_objective (QPALMWorkspace *work, solver_common *c) |
Compute the (unscaled) dual objective value at the current iterate. | |
void compute_residuals | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Compute the residuals (in vector form)
This routine is called at the start of every QPALM iteration. It computes the current residual vectors, which are required by the termination routines and by the other iteration routines.
work | Workspace |
c | Linear systems solver environment |
Definition at line 22 of file iteration.c.
void initialize_sigma | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Initialize penalty factors from initial x.
The formula used here can be found in [2].
work | Workspace |
c | Linear systems solver environment |
Definition at line 48 of file iteration.c.
void update_sigma | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Update the penalty factors.
Constraints that are active are penalized in proportion to their constraint violation. If the number of changed penalty parameters is low, and the proximal penalty need not be further updated, then the factor LD is updated using a low-rank update based on the changed penalty factors.
work | Workspace |
c | Linear systems solver environment |
Definition at line 73 of file iteration.c.
void update_gamma | ( | QPALMWorkspace * | work | ) |
Update the proximal penalty.
The proximal penalty parameter is increased by a constant factor at every outer update, until a certain maximum value is reached.
work | Workspace |
Definition at line 126 of file iteration.c.
void boost_gamma | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Maximize the proximal penalty.
The proximal penalty parameter can be increased when the primal residual is low and the number of active constraints no longer changes. Increasing the proximal penalty will significantly speed up the convergence of the dual residual in that case. First, the maximum allowed value is computed, based on the fact that \(Q+A^T \Sigma A + \frac{1}{\gamma}I\) should be sufficiently positive definite for the factorization routines.
work | Workspace |
c | Linear systems solver environment |
Definition at line 138 of file iteration.c.
void update_or_boost_gamma | ( | QPALMWorkspace * | work, |
solver_common * | c, | ||
c_int | iter_out | ||
) |
Definition at line 184 of file iteration.c.
void update_proximal_point_and_penalty | ( | QPALMWorkspace * | work, |
solver_common * | c, | ||
c_int | iter_out, | ||
c_float * | eps_k_abs, | ||
c_float * | eps_k_rel | ||
) |
NB Implementation detail: store Einv*Ax and Einv*z in temp_2m. The infinity norm of that vector is then equal to the maximum of both norms.
Definition at line 209 of file iteration.c.
void update_dual_iterate_and_parameters | ( | QPALMWorkspace * | work, |
solver_common * | c, | ||
c_int | iter_out, | ||
c_float * | eps_k_abs, | ||
c_float * | eps_k_rel | ||
) |
Definition at line 249 of file iteration.c.
void update_primal_iterate | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Update the primal iterate.
This function calls the functions that compute the newton direction and stepsize from exact linesearch, and applies the update.
work | Workspace |
c | Linear systems solver environment |
Definition at line 269 of file iteration.c.
c_float compute_objective | ( | QPALMWorkspace * | work | ) |
Compute the (unscaled) primal objective value at the current iterate.
work | Workspace |
Definition at line 287 of file iteration.c.
c_float compute_dual_objective | ( | QPALMWorkspace * | work, |
solver_common * | c | ||
) |
Compute the (unscaled) dual objective value at the current iterate.
work | Workspace |
c | Linear systems solver environment |
Definition at line 328 of file iteration.c.