G.4 MATHEMATICAL SOFTWARE
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Presolving attempts to eliminate redundant information from the problem formulation and simultaneously tries to strengthen the formulation. It can be very effective and is often essential for solving instances. Especially for mixed integer programming problems, fast and effective presolving algorithms are very important. In this paper, we report on three new presolving techniques. The first method searches for singleton continuous columns and tries to fix the corresponding variables. Then we present a presolving technique which exploits a partial order of the variables to induce fixings. Finally, we show an approach based on connected components in graphs. Our computational results confirm the profitable use of the algorithms in practice.
We present an exact rational solver for mixed-integer linear programming
that avoids the numerical inaccuracies inherent in the floating-point
computations used by existing software. This allows the solver to be used
for establishing theoretical results and in applications where correct
solutions are critical due to legal and financial consequences. Our solver
is a hybrid symbolic/numeric implementation of LP-based branch-and-bound,
using numerically-safe methods for all binding computations in the search
tree. Computing provably accurate solutions by dynamically choosing the
fastest of several safe dual bounding methods depending on the structure of
the instance, our exact solver is only moderately slower than an inexact
floating-point branch-and-bound solver. The software is incorporated into
the SCIP optimization framework, using the exact LP solver QSopt_ex and the
GMP arithmetic library. Computational results are presented for a suite of
test instances taken from the MIPLIB and Mittelmann collections.