Try our new documentation site (beta).

Further reading

  • A Characterization of Stability in Linear Programming, Stephen M. Robinson, 1977, Operations Research 25-3:435—447.
  • IEEE Standard for Binary Floating-Point Arithmetic (IEEE 754), IEEE Computer Society, 1985.
  • What every computer scientist should know about floating-point arithmetic, David Goldberg, 1991, ACM Computing Surveys (CSUR), 23:5—48.
  • Numerical Computing with IEEE Floating Point Arithmetic, Michael L. Overton, SIAM, 2001.
  • Practical guidelines for solving difficult linear programs, Ed Klotz and Alexandra M. Newman, 2013, Surveys in Operations Research and Management Science, 18-1:1—17.
  • Identification, Assessment, and Correction of Ill-Conditioning and Numerical Instability in Linear and Integer Programs, Ed Klotz, Bridging Data and Decisions, Chapter 3, 54—108.

Try Gurobi for Free

Choose the evaluation license that fits you best, and start working with our Expert Team for technical guidance and support.

Evaluation License
Get a free, full-featured license of the Gurobi Optimizer to experience the performance, support, benchmarking and tuning services we provide as part of our product offering.
Academic License
Gurobi supports the teaching and use of optimization within academic institutions. We offer free, full-featured copies of Gurobi for use in class, and for research.
Cloud Trial

Request free trial hours, so you can see how quickly and easily a model can be solved on the cloud.

Search

Gurobi Optimization