control Directory Reference
Files | |
file | alias.py [code] |
The GAMS Control API does not have the concept of a GAMS alias. | |
file | benders_2stage.py [code] |
This example demonstrates a sequential implementation of a simple Benders decomposition method for a stochastic linear program. | |
file | benders_2stage_mt.py [code] |
This example demonstrates a parallel implementation of a simple Benders decomposition method for a stochastic linear program. | |
file | clad.py [code] |
This example demonstrates how to implement a complex termination criterion for a difficult MIP using GAMS/Cplex. | |
file | cutstock.py [code] |
This example implements a column generation approach to solve the cutting stock problem. | |
file | cutstock_class.py [code] |
This example shows the wrapper model of a cutstock problem based on the simple GAMS cutstock model from the GAMS Model Library. | |
file | domain_checking.py [code] |
Enforcing referential integrity also known in the GAMS lingo as domain checking is an essential and important part of GAMS. | |
file | interrupt.py [code] |
Ctrl-C in a regular console application results in the interrupt of the entire job. | |
file | interrupt_gui.py [code] |
This small example demonstrates how to run a GAMS model in a graphical user interface. | |
file | markowitz.py [code] |
This is a small graphical program that plots the efficient frontier of Markowitz' portfolio selection problem with the two objectives return and risk. | |
file | run_engine.py [code] |
This is an example how to run a GamsJob on GAMS Engine using the run_engine method: | |
file | simple_cutstock.py [code] |
This example implements a column generation approach to solve the cutting stock problem. | |
file | special_values.py [code] |
This example shows how special values of the programming language (e.g. | |
file | transport1.py [code] |
This is the 1st model in a series of examples. | |
file | transport10.py [code] |
This is the 10th model in a series of examples. | |
file | transport11.py [code] |
This is the 11th model in a series of examples. | |
file | transport12.py [code] |
This is the 12th model in a series of examples. | |
file | transport13.py [code] |
This is the 13th model in a series of examples. | |
file | transport14.py [code] |
This is the 14th model in a series of examples. | |
file | transport2.py [code] |
This is the 2nd model in a series of examples. | |
file | transport3.py [code] |
This is the 3rd model in a series of examples. | |
file | transport4.py [code] |
This is the 4th model in a series of examples. | |
file | transport5.py [code] |
This is the 5th model in a series of examples. | |
file | transport6.py [code] |
This is the 6th model in a series of examples. | |
file | transport7.py [code] |
This is the 7th model in a series of examples. | |
file | transport8.py [code] |
This is the 8th model in a series of examples. | |
file | transport8a.py [code] |
This is a variation of the transport8.py example and it uses the multiprocessing Python package instead of threading in order to achieve parallel execution. | |
file | transport9.py [code] |
This is the 9th model in a series of examples. | |
file | transport_class.py [code] |
This example shows the wrapper model of a transportation problem based on the simple GAMS [trnsport] model from the GAMS Model Library. | |
file | transport_gdx.py [code] |
This example shows the use of the GamsDatabase class for reading and writing GDX files. | |
file | transport_neos.py [code] |
file | tsp.py [code] |
This example demonstrates how to use a GamsModelInstance to implement the sub tour elimination algorithm for the Traveling Salesman Problem (TSP) problem. | |
file | warehouse.py [code] |
This example demonstrates how to solve a simple GAMS model to assign stores to warehouses for different data sets in parallel. | |