concorde

The NEOS Server offers Concorde for the solution of Traveling Salesman Problems.

Concorde was written by David Applegate, Robert E. Bixby, Vašek Chvátal, and William J. Cook.

Source code, binaries, and documentation are available from the Concorde homepage

This solver was implemented by Hans Mittelmann and executes at under

Using the NEOS Server for Concorde

The user must submit a symmetric TSP problem in either the simple 2-d coordinate form

              #cities
              x_0 y_0
              x_1 y_1
              .
              .
              .
              x_n-1 y_n-1

or in TSPLIB format.

The user can currently choose between applying the exact algorithm and the Lin-Kernighan heuristic (especially for large instances). Concorde can be called with the authors' QSopt LP solver or CPLEX. This small benchmark gives you an impression of its performance with different LP solvers. If Concorde terminates prematurely it may have run out of time or memory. Either the fixed random seed 99 can be used or a variable one.
The user can further choose to receive a PDF file plotting the optimal resp. final tour.

Enter the complete path to the file with the xy-list (distances measured in the Euclidean(L2) norm)
Concorde data(xy-list file, L2 norm):

Or, enter the complete path to the file with the xy-list (distances measured in the Manhattan(L1) norm)
Concorde data(xy-list file, L1 norm):

Or, enter the complete path to the symmetric TSPLIB file
Concorde data(TSPLIB format file):

Choose the algorithm (cqs=QSopt, con=CPLEX [default], lk=Lin-Kernighan)
Algorithm:

Choose the random seed (fixed=99 [default], variable=random)
Random seed:

PDF file of the optimal tour? (no [default], cp=yes, pf=w/o cities)
PDF plot:

Comments:

e-mail address:

Please do not click the 'Submit to NEOS' button more than once.

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