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A Library of Mixed-Integer and Continuous Nonlinear Programming Instances

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Instance st_test4

Formats^ⓘ	ams gms lp mod nl osil pip py
Primal Bounds (infeas ≤ 1e-08)^ⓘ	-7.00000000 p1 ( gdx sol ) (infeas: 0)
Other points (infeas > 1e-08)^ⓘ
Dual Bounds^ⓘ	-7.00000000 (ALPHAECP) -7.00000000 (ANTIGONE) -7.00000000 (BARON) -7.00000000 (COUENNE) -7.00000000 (CPLEX) -7.00000000 (GUROBI) -7.00000000 (LINDO) -7.00000000 (SCIP) -7.00000000 (SHOT)
References^ⓘ	Tawarmalani, M and Sahinidis, N V, Convexification and Global Optimization in Continuous and Mixed-Integer Nonlinear Programming: Theory, Algorithms, Software, and Applications, Kluwer, 2002. Shectman, J P, Finite Algorithms for Global Optimization of Concave Programs and General Quadratic Programs, PhD thesis, Department of Mechanical and Industrial Engineering, University of Illinois, Urbana Champagne, 1999.
Source^ⓘ	BARON book instance iqp/test4
Added to library^ⓘ	01 Sep 2002
Problem type^ⓘ	IQP
#Variables^ⓘ	6
#Binary Variables^ⓘ	0
#Integer Variables^ⓘ	6
#Nonlinear Variables^ⓘ	2
#Nonlinear Binary Variables^ⓘ	0
#Nonlinear Integer Variables^ⓘ	2
Objective Sense^ⓘ	min
Objective type^ⓘ	quadratic
Objective curvature^ⓘ	convex
#Nonzeros in Objective^ⓘ	6
#Nonlinear Nonzeros in Objective^ⓘ	2
#Constraints^ⓘ	5
#Linear Constraints^ⓘ	5
#Quadratic Constraints^ⓘ	0
#Polynomial Constraints^ⓘ	0
#Signomial Constraints^ⓘ	0
#General Nonlinear Constraints^ⓘ	0
Operands in Gen. Nonlin. Functions^ⓘ
Constraints curvature^ⓘ	linear
#Nonzeros in Jacobian^ⓘ	30
#Nonlinear Nonzeros in Jacobian^ⓘ	0
#Nonzeros in (Upper-Left) Hessian of Lagrangian^ⓘ	2
#Nonzeros in Diagonal of Hessian of Lagrangian^ⓘ	2
#Blocks in Hessian of Lagrangian^ⓘ	2
Minimal blocksize in Hessian of Lagrangian^ⓘ	1
Maximal blocksize in Hessian of Lagrangian^ⓘ	1
Average blocksize in Hessian of Lagrangian^ⓘ	1.0
#Semicontinuities^ⓘ	0
#Nonlinear Semicontinuities^ⓘ	0
#SOS type 1^ⓘ	0
#SOS type 2^ⓘ	0
Minimal coefficient^ⓘ	1.0000e-01
Maximal coefficient^ⓘ	8.0000e+00
Infeasibility of initial point^ⓘ	1
Sparsity Jacobian^ⓘ
Sparsity Hessian of Lagrangian^ⓘ

$offlisting
*  
*  Equation counts
*      Total        E        G        L        N        X        C        B
*          6        1        0        5        0        0        0        0
*  
*  Variable counts
*                   x        b        i      s1s      s2s       sc       si
*      Total     cont   binary  integer     sos1     sos2    scont     sint
*          7        1        0        6        0        0        0        0
*  FX      0
*  
*  Nonzero counts
*      Total    const       NL      DLL
*         37       35        2        0
*
*  Solve m using MINLP minimizing objvar;


Variables  i1,i2,i3,i4,i5,i6,objvar;

Integer Variables  i1,i2,i3,i4,i5,i6;

Equations  e1,e2,e3,e4,e5,e6;


e1..    i1 + 2*i2 + 8*i3 + i4 + 3*i5 + 5*i6 =L= 16;

e2..  - 8*i1 - 4*i2 - 2*i3 + 2*i4 + 4*i5 - i6 =L= -1;

e3..    2*i1 + 0.5*i2 + 0.2*i3 - 3*i4 - i5 - 4*i6 =L= 24;

e4..    0.2*i1 + 2*i2 + 0.1*i3 - 4*i4 + 2*i5 + 2*i6 =L= 12;

e5..  - 0.1*i1 - 0.5*i2 + 2*i3 + 5*i4 - 5*i5 + 3*i6 =L= 3;

e6.. -(0.5*i1*i1 + 6.5*i1 + 7*i6*i6 - i6) + i2 + 2*i3 - 3*i4 + 2*i5 + objvar
      =E= 0;

* set non-default bounds
i1.up = 1E15;
i2.up = 1E15;
i3.up = 1E15;
i4.up = 1;
i5.up = 1;
i6.up = 2;

Model m / all /;

m.limrow=0; m.limcol=0;
m.tolproj=0.0;

$if NOT '%gams.u1%' == '' $include '%gams.u1%'

$if not set MINLP $set MINLP MINLP
Solve m using %MINLP% minimizing objvar;

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