Class SimplexSolver


public class SimplexSolver extends LinearOptimizer
Solves a linear problem using the "Two-Phase Simplex" method.

The SimplexSolver supports the following OptimizationData data provided as arguments to optimize(OptimizationData...):

Note: Depending on the problem definition, the default convergence criteria may be too strict, resulting in MathIllegalStateException or MathIllegalStateException. In such a case it is advised to adjust these criteria with more appropriate values, e.g. relaxing the epsilon value.

Default convergence criteria:

  • Algorithm convergence: 1e-6
  • Floating-point comparisons: 10 ulp
  • Cut-Off value: 1e-10

The cut-off value has been introduced to handle the case of very small pivot elements in the Simplex tableau, as these may lead to numerical instabilities and degeneracy. Potential pivot elements smaller than this value will be treated as if they were zero and are thus not considered by the pivot selection mechanism. The default value is safe for many problems, but may need to be adjusted in case of very small coefficients used in either the LinearConstraint or LinearObjectiveFunction.

  • Constructor Details

    • SimplexSolver

      public SimplexSolver()
      Builds a simplex solver with default settings.
    • SimplexSolver

      public SimplexSolver(double epsilon)
      Builds a simplex solver with a specified accepted amount of error.
      Parameters:
      epsilon - Amount of error to accept for algorithm convergence.
    • SimplexSolver

      public SimplexSolver(double epsilon, int maxUlps)
      Builds a simplex solver with a specified accepted amount of error.
      Parameters:
      epsilon - Amount of error to accept for algorithm convergence.
      maxUlps - Amount of error to accept in floating point comparisons.
    • SimplexSolver

      public SimplexSolver(double epsilon, int maxUlps, double cutOff)
      Builds a simplex solver with a specified accepted amount of error.
      Parameters:
      epsilon - Amount of error to accept for algorithm convergence.
      maxUlps - Amount of error to accept in floating point comparisons.
      cutOff - Values smaller than the cutOff are treated as zero.
  • Method Details