Overview

What is SCIP?

SCIP is a framework to solve constraint integer programs (CIPs) and mixed-integer nonlinear programs. In particular,

• SCIP incorporates a mixed-integer programming (MIP) solver as well as
• an LP based mixed-integer nonlinear programming (MINLP) solver, and
• is a framework for branch-and-cut-and-price.

See the web site of SCIP for more information about licensing and to download SCIP.

If you are new to SCIP and don't know where to start you should have a look at the first steps walkthrough .

Structure of this manual

This manual gives an accessible introduction to the functionality of the SCIP code in the following chapters

Setup and news

• Installing SCIP
• Frequently Asked Questions (FAQ)
• Release notes and changes between different versions of SCIP

Tutorials and guides

• First Steps Walkthrough
• Tutorial: the interactive shell
• Important programming concepts for working with(in) SCIP
• How to start a new project
• How to search the documentation and source files structure for public interface methods
• Detailed guides for adding user plugins
• Detailed guides for advanced SCIP topics

Examples and applications

• Coding examples in C and C++ in the source code distribution
• Extensions of SCIP for specific applications

References

• Supported types of optimization problems
• Readable file formats
• Interfaces
• List of all SCIP parameters
• SCIP Authors
• License
• Links to external documentation

Quickstart

Let's consider the following minimal example in LP format. A 4-variable problem with a single, general integer variable and three linear constraints

Maximize
 obj: x1 + 2 x2 + 3 x3 + x4
Subject To
 c1: - x1 + x2 + x3 + 10 x4 <= 20
 c2: x1 - 3 x2 + x3 <= 30
 c3: x2 - 3.5 x4 = 0
Bounds
 0 <= x1 <= 40
 2 <= x4 <= 3
General
 x4
End

Saving this file as "simple.lp" allows to read it into SCIP and solve it by calling the scip binary with the -f flag to solve the problem from the provided file and exit.

scip -f simple.lp

reads and optimizes this model in no time:

SCIP version 9.0.0 [precision: 8 byte] [memory: block] [mode: optimized] [LP solver: Soplex 7.0.0] [GitHash: 7205bedd94]
Copyright (c) 2002-2024 Zuse Institute Berlin (ZIB)

External libraries: 
  Readline 7.0         GNU library for command line editing (gnu.org/s/readline)
  Soplex 7.0.0         Linear Programming Solver developed at Zuse Institute Berlin (soplex.zib.de) [GitHash: 6657fb3b]
  CppAD 20180000.0     Algorithmic Differentiation of C++ algorithms developed by B. Bell (github.com/coin-or/CppAD)
  ZLIB 1.2.11          General purpose compression library by J. Gailly and M. Adler (zlib.net)
  GMP 6.1.2            GNU Multiple Precision Arithmetic Library developed by T. Granlund (gmplib.org)
  AMPL/MP 690e9e7      AMPL .nl file reader library (github.com/ampl/mp)
  bliss 0.77           Computing Graph Automorphisms by T. Junttila and P. Kaski (users.aalto.fi/~tjunttil/bliss)
  sassy 1.1            Symmetry preprocessor by Markus Anders (github.com/markusa4/sassy)

user parameter file <scip.set> not found - using default parameters


read problem <doc/inc/simpleinstance/simple.lp>
============

original problem has 4 variables (0 bin, 1 int, 0 impl, 3 cont) and 3 constraints

presolving:
(round 1, fast)       2 del vars, 1 del conss, 0 add conss, 4 chg bounds, 0 chg sides, 0 chg coeffs, 0 upgd conss, 0 impls, 0 clqs
(round 2, fast)       2 del vars, 1 del conss, 0 add conss, 6 chg bounds, 0 chg sides, 0 chg coeffs, 0 upgd conss, 0 impls, 0 clqs
(round 3, fast)       2 del vars, 1 del conss, 0 add conss, 7 chg bounds, 0 chg sides, 0 chg coeffs, 0 upgd conss, 0 impls, 0 clqs
   (0.0s) probing cycle finished: starting next cycle
   (0.0s) symmetry computation started: requiring (bin +, int +, cont +), (fixed: bin -, int -, cont -)
   (0.0s) no symmetry present (symcode time: 0.00)
presolving (4 rounds: 4 fast, 1 medium, 1 exhaustive):
 2 deleted vars, 1 deleted constraints, 0 added constraints, 7 tightened bounds, 0 added holes, 0 changed sides, 0 changed coefficients
 2 implications, 0 cliques
presolved problem has 3 variables (1 bin, 0 int, 0 impl, 2 cont) and 2 constraints
      2 constraints of type <linear>
Presolving Time: 0.00

 time | node  | left  |LP iter|LP it/n|mem/heur|mdpt |vars |cons |rows |cuts |sepa|confs|strbr|  dualbound   | primalbound  |  gap   | compl. 
t 0.0s|     1 |     0 |     0 |     - | trivial|   0 |   3 |   2 |   0 |   0 |  0 |   0 |   0 | 1.630000e+02 | 3.400000e+01 | 379.41%| unknown
t 0.0s|     1 |     0 |     0 |     - | trivial|   0 |   3 |   2 |   0 |   0 |  0 |   0 |   0 | 1.630000e+02 | 5.300000e+01 | 207.55%| unknown
p 0.0s|     1 |     0 |     0 |     - |   locks|   0 |   3 |   2 |   2 |   0 |  0 |   0 |   0 | 1.630000e+02 | 1.225000e+02 |  33.06%| unknown
  0.0s|     1 |     0 |     2 |     - |   613k |   0 |   3 |   2 |   2 |   0 |  0 |   0 |   0 | 1.252083e+02 | 1.225000e+02 |   2.21%| unknown
  0.0s|     1 |     0 |     2 |     - |   613k |   0 |   3 |   2 |   2 |   0 |  0 |   0 |   0 | 1.252083e+02 | 1.225000e+02 |   2.21%| unknown
  0.0s|     1 |     0 |     3 |     - |   617k |   0 |   3 |   2 |   3 |   1 |  1 |   0 |   0 | 1.225000e+02 | 1.225000e+02 |   0.00%| unknown
  0.0s|     1 |     0 |     3 |     - |   617k |   0 |   3 |   2 |   3 |   1 |  1 |   0 |   0 | 1.225000e+02 | 1.225000e+02 |   0.00%| unknown

SCIP Status        : problem is solved [optimal solution found]
Solving Time (sec) : 0.00
Solving Nodes      : 1
Primal Bound       : +1.22500000000000e+02 (3 solutions)
Dual Bound         : +1.22500000000000e+02
Gap                : 0.00 %

Version

9.0.0