Detailed Description
Problem data scaling during setup.
This file includes the routine that is called during setup to scale the problem data, and initial guesses if the problem is warm-started. Scaling the problem is useful to prevent large changes in the active set and to guard against ill-conditioning in the objective function.
Definition in file scaling.h.
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Functions | |
| void | scale_data (QPALMWorkspace *work) |
| Scale problem matrices. | |
| void | unscale_data (QPALMWorkspace *work) |
| Unscale the problem data. | |
Function Documentation
◆ scale_data()
| void scale_data | ( | QPALMWorkspace * | work | ) |
Scale problem matrices.
Ruiz scaling [4] is applied to the constraint matrix A. This means that the rows and columns of A are scaled elementwise by the square root of their infinity norm, and this for a number of work->settings->scaling iterations. The resulting scaling can be written as \(\bar{A}\leftarrow EAD\), where \(E\) and \(D\) are the row and column scaling diagonal matrices respectively. The upper and lower bounds are also scaled with \(E\), thus \(\bar{b}_\textrm{min}, \bar{b}_\textrm{max} \leftarrow E b_\textrm{min}, E b_\textrm{max}\). The primal variables are transformed using \(D^{-1}\), resulting in \(\bar{x}\leftarrow D^{-1}x\). Therefore, also the cost matrix Q and vector q have to be scaled with \(D\), \(\bar{Q}\leftarrow DQD\) and \(\bar{q}\leftarrow Dq\). Finally the objective function is scaled with a scalar \(c\), thus \(\bar{Q}, \bar{q} \leftarrow c\bar{Q}, c\bar{q} \), where \(c=1/\textrm{max}(1, \nabla f(x_0))\). The dual variables in the scaled problem become \(\bar{y} \leftarrow c E^{-1} y\). The diagonals of \(D\) and \(E\) are stored and used in the remainder of the problem.
- Parameters
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work Workspace
Definition at line 31 of file scaling.c.
Here is the call graph for this function:◆ unscale_data()
| void unscale_data | ( | QPALMWorkspace * | work | ) |
