Scientific Computing, Applied and Industrial Mathematics (SCAIM) Seminar: Henry Wolkowicz

  • Date: 10/23/2018
  • Time: 12:00

Henry Wolkowicz, University of Waterloo



University of British Columbia


Solving DNN Relaxations fo the Quadratic Assignment Problem with ADMM and Facial Reduction


The quadratic assignment problem, QAP, has many applications ranging from the planning of building locations of a university, to the positioning of modules on a computer chip (VLSI design), to the design of keyboards. This problem is arguably one of the hardest of the NP-hard problems, as problems with dimension 30 are still considered hard to solve to optimality.


The QAP in the trace formulation is modelled as the minimization of a quadratic function over the permutation matrices. The set of permutation matrices can be represented by quadratic constraints. Relaxations of these constraints are used in branch and bound solution methods. These relaxations include the eigenvalue and projected eigenvalue relaxations, as well as various semidefinite programming, SDP, and doubly nonnegative, DNN, relaxations. These latter relaxations are particularly strong and often solve the QAP to optimality. However, they can be extremely expensive to solve.


We show that the combination of an alternating direction method of multipliers, ADMM, in combination with facial reduction works extremely well in solving the very difficult DNN relaxation.

Other Information: 

Time:  12:00 pm (Please note time change)


Location: ESB 4133 (PIMS lounge)


More info on speaker is here.


For details, please visit the official website.