topic nonlinear least squares - support for large sparse problems. in IntelĀ® oneAPI Math Kernel Library & IntelĀ® Math Kernel Library
https://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780399#M1440
<DIV id="tiny_quote"><DIV style="margin-left: 2px; margin-right: 2px;">Quoting <A jquery1323285042979="53" rel="/en-us/services/profile/quick_profile.php?is_paid=&user_id=9662" href="https://community.intel.com/en-us/profile/9662/" class="basic">mecej4</A></DIV><DIV style="background-color: #e5e5e5; margin-left: 2px; margin-right: 2px; border: 1px inset; padding: 5px;"><I>The trust-region nonlinear least-square routines use a reverse-call-interface. When you regain control, the request index tells you whether you are being asked to compute the functions (fvec) or their Jacobian (fjac). You can use whatever information you have to limit your computations for these quantities to only their non-zero elements. <BR /><BR />Other than that, there is probably no provision for exploiting sparse structure.<BR /></I></DIV></DIV><P></P>Thank you for your answer. Too bad there is no provision for exploiting large-scale sparse problems. The changes to the code would have been minimal, it would require adding another code in the reverse communication interface so the userprovides the routines to make the necessarymatrix-vector products. It would be a nice feature to have in a future release. I just cannot believe others have not asked for this feature in the past!<BR />Wed, 07 Dec 2011 19:15:18 GMTGonzalo_Feijoo2011-12-07T19:15:18Znonlinear least squares - support for large sparse problems.
https://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780397#M1438
<P>Hello,<BR /><BR />I would appreciate if someone could answer the following question for me: does the nonlinear least square solver has support for sparse problems? I mean, what if the optimization problem is large and the jacobian matrix is sparse (each row contains a few nonzeros). Some libraries, such as Matlab, give you handles so you can write a subroutineto compute theappropriatematrix-vector products instead of forming the Jacobian. Does Intel MKL have something like this?<BR /><BR />Thank you in advance,<BR /><BR />Gonzalo</P>Tue, 06 Dec 2011 17:52:27 GMThttps://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780397#M1438Gonzalo_Feijoo2011-12-06T17:52:27Znonlinear least squares - support for large sparse problems.
https://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780398#M1439
The trust-region nonlinear least-square routines use a reverse-call-interface. When you regain control, the request index tells you whether you are being asked to compute the functions (fvec) or their Jacobian (fjac). You can use whatever information you have to limit your computations for these quantities to only their non-zero elements. <BR /><BR />Other than that, there is probably no provision for exploiting sparse structure.<BR />Tue, 06 Dec 2011 18:36:35 GMThttps://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780398#M1439mecej42011-12-06T18:36:35Znonlinear least squares - support for large sparse problems.
https://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780399#M1440
<DIV id="tiny_quote"><DIV style="margin-left: 2px; margin-right: 2px;">Quoting <A jquery1323285042979="53" rel="/en-us/services/profile/quick_profile.php?is_paid=&user_id=9662" href="https://community.intel.com/en-us/profile/9662/" class="basic">mecej4</A></DIV><DIV style="background-color: #e5e5e5; margin-left: 2px; margin-right: 2px; border: 1px inset; padding: 5px;"><I>The trust-region nonlinear least-square routines use a reverse-call-interface. When you regain control, the request index tells you whether you are being asked to compute the functions (fvec) or their Jacobian (fjac). You can use whatever information you have to limit your computations for these quantities to only their non-zero elements. <BR /><BR />Other than that, there is probably no provision for exploiting sparse structure.<BR /></I></DIV></DIV><P></P>Thank you for your answer. Too bad there is no provision for exploiting large-scale sparse problems. The changes to the code would have been minimal, it would require adding another code in the reverse communication interface so the userprovides the routines to make the necessarymatrix-vector products. It would be a nice feature to have in a future release. I just cannot believe others have not asked for this feature in the past!<BR />Wed, 07 Dec 2011 19:15:18 GMThttps://community.intel.com/t5/Intel-oneAPI-Math-Kernel-Library/nonlinear-least-squares-support-for-large-sparse-problems/m-p/780399#M1440Gonzalo_Feijoo2011-12-07T19:15:18Z