|
Model |
Description |
Type |
Author |
|
A |
|
abel |
Linear Quadratic Control Problem |
NLP |
Kendrick, D |
|
absmip |
Discontinous functions abs() min() max() sign() as MIPs |
MIP |
GAMS Development Corporation |
|
agreste |
Agricultural Farm Level Model of NE Brazil |
LP |
Kutcher, G P |
|
aircraft |
Aircraft Allocation Under Uncertain Demand |
LP |
Dantzig, G B |
|
airsp |
Aircraft Allocation |
OSLSE |
Dantzig, G B |
|
airsp2 |
Aircraft Allocation - stochastic optimization with DECIS |
DECIS |
Dantzig, G B |
|
ajax |
Ajax Paper Company Production Schedule |
LP |
CDC |
|
alan |
A Quadratic Programming Model for Portfolio Analysis |
MINLP |
Manne, A S |
|
alkyl |
Simplified Alkylation Process |
NLP |
Berna, T |
|
alphamet |
Alphametics - a Mathematical Puzzle |
MIP |
de Wetering, A V |
|
alum |
World Aluminum Model |
MIP |
Brown, M |
|
ampl |
AMPL Sample Problem |
LP |
Fourer, R |
|
andean |
Andean Fertilizer Model |
MIP |
Mennes, L B M |
|
apl1p |
Stochastic Programming Example for DECIS |
DECIS |
Infanger, G |
|
apl1pca |
Stochastic Programming Example for DECIS |
DECIS |
Infanger, G |
|
awkqap |
Input file generation with AWK for the Quadratic Assignment Problem |
MIQCP |
Burkard, R E |
|
awktsp |
Traveling Salesman Problem Instance prepared with AWK |
MIP |
Juenger, M |
|
B |
|
badmip |
Rounding Problems in MIPs |
MIP |
Neumaier, A |
|
batchdes |
Optimal Design for Chemical Batch Processing |
MINLP |
Kocis, G R |
|
bchfcnet |
Fixed Cost Network Flow Problem with Cuts using BCH Facility |
MIP |
Bussieck, M R |
|
bchmknap |
Multi knapsack problem using BCH Facility |
MIP |
Beasley, J E |
|
bchoil |
Oil Pipeline Design Problem using BCH Facility |
MIP |
Brimberg, J |
|
bchstock |
Cutting Stock - A Column Generation Approach with BCH |
MIP |
Gilmore, P C |
|
bchtlbas |
Trim Loss Minimization with Heuristic using BCH Facility |
MINLP |
Floudas, C A |
|
bchtsp |
Traveling Salesman Problem Instance with BCH |
MIP |
Beasley, J E |
|
bearing |
Hydrostatic Thrust Bearing Design for a Turbogenerator |
NLP |
Coello Coello, C A |
|
bid |
Bid Evaluation |
MIP |
Bracken, J |
|
bidsos |
Bid Evaluation with SOS2 Sets |
MIP |
Bracken, J |
|
bilinear |
Convexification of bilinear term binary times x |
MINLP |
Kallrath, J |
|
blend |
Blending Problem I |
LP |
Dantzig, G B |
|
C |
|
cafemge |
Corporate average fuel economy standards |
MPSGE |
Thorpe, S |
|
calendar |
Calendar Function Examples |
GAMS |
GAMS Development Corporation |
|
camcge |
Cameroon General Equilibrium Model Using NLP |
NLP |
Condon, T |
|
camcns |
Cameroon General Equilibrium Model Using CNS |
CNS |
Condon, T |
|
cammcp |
Cameroon General Equilibrium Model Using MCP |
MCP |
Condon, T |
|
cammge |
Cameroon General Equilibrium Model Using MPSGE |
MPSGE |
Condon, T |
|
camshape |
Shape optimization of a cam COPS 2.0 #4 |
NLP |
Anitescu, M |
|
catmix |
Catalyst Mixing COPS 2.0 #14 |
NLP |
Dolan, E D |
|
cefiles |
Compressed Input Files |
GAMS |
GAMS Development Corporation |
|
cesam |
Cross Entropy SAM Estimation |
MCP |
Golan, A |
|
chain |
Hanging Chain COPS 2.0 #3 |
NLP |
Cesari, L |
|
chakra |
Optimal Growth Model |
NLP |
Chakravarty, S |
|
chance |
Chance Constrained Feed Mix Problem |
NLP |
Bracken, J |
|
chartdat |
Create an example GDX file for the IDE Charting facility |
GAMS |
GAMS Development Corporation |
|
chem |
Chemical Equilibrium Problem |
NLP |
Bracken, J |
|
chenery |
Substitution and Structural Change |
NLP |
Chenery, H B |
|
china |
Organic Fertilizer Use in Intensive Farming |
LP |
Wiens, T B |
|
circle |
Circle Enclosing Points - SNOPT Example |
NLP |
Gill, P E |
|
cirimge |
Increasing returns in intermediate inputs |
MPSGE |
Lopez de Silanes, F |
|
clearlak |
Scenario Reduction: ClearLake exercise |
LP |
Birge, J R |
|
cmo |
Financial Optimization: Financial Engineering |
MIP |
Dahl, H |
|
coex |
Peacefully Coexisting Armies of Queens |
MIP |
Bosch, R A |
|
coexx |
Peacefully Coexisting Armies of Queens - tight |
MIP |
Bosch, R A |
|
copper |
Modeling Investment in the World Copper Industry |
MIP |
Dammert, A |
|
co2mge |
Carbon-related trade model (static) |
MPSGE |
Perroni, C |
|
crazy |
Examples of Extended Arithmetic |
GAMS |
GAMS Development Corporation |
|
cross |
Alcuin's River Crossing |
MIP |
Borndoerfer, R |
|
csched |
Cyclic Scheduling of Continuous Parallel Units |
MINLP |
Jain, V |
|
csp |
Closest String Problem |
MIP |
Meneses, C N |
|
cta |
Controlled Tabular Adjustments |
MIP |
Cox, L H |
|
cube |
Three-Dimensional Noughts and Crosses |
MIP |
Williams, H P |
|
cutstock |
Cutting Stock - A Column Generation Approach |
MIP |
Gilmore, P C |
|
D |
|
danwolfe |
Dantzig Wolfe Decomposition and Grid Computing |
LP |
Dantzig, G B |
|
dea |
Data Envelopment Analysis - DEA |
LP |
Dyson |
|
decomp |
Decomposition Principle - Animated |
LP |
Dantzig, G B |
|
decomphh |
A Successive Recalibration Algorithm for GE Models with Many Households |
MPSGE |
Rutherford, T F |
|
demo1 |
Simple Farm Level Model |
LP |
Kutcher, G P |
|
demo7 |
Nonlinear Simple Agricultural Sector Model |
NLP |
Kutcher, G P |
|
deploy |
GAMS Deployment Model |
GAMS |
GAMS Development Corporation |
|
dice |
Non-transitive Dice Design |
MIP |
Bosch, R A |
|
dicegrid |
MIP Decomposition and Parallel Grid Submission - DICE Example |
MIP |
Bosch, R A |
|
dicex |
Non-transitive Dice Design - Enhanced |
MIP |
Bosch, R A |
|
diet |
Stigler's Nutrition Model |
LP |
Dantzig, G B |
|
dinam |
DINAMICO A Dynamic Multi-Sectoral Multi-Skill Model |
LP |
Manne, A S |
|
dispatch |
Economic Load Dispatch Including Transmission Losses |
NLP |
Wood, A J |
|
dmcmge |
Accounting for economic growth with new inputs |
MPSGE |
Markusen, J R |
|
dplytest |
A Deployment Test Model |
GAMS |
GAMS Development Corporation |
|
E |
|
egypt |
Egypt Agricultural Model |
LP |
Kutcher, G P |
|
elec |
Distribution of electrons on a sphere COPS 2.0 #2 |
NLP |
Dolan, E D |
|
emfl |
Existing Multi Facility Location Problem - Cone Format |
LP |
Vanderbei, R |
|
encrypt |
Input file encyption demo |
GAMS |
GAMS Development Corporation |
|
epscm |
eps-Constraint Method for Multiobjective Optimization |
LP |
Mavrotas, G |
|
ers82mcp |
USDA-ERS CGE Model of the US |
MCP |
Robinson, S |
|
etamac |
ETA-MACRO Energy Model for the USA |
NLP |
Manne, A S |
|
etamge |
ETA-MACRO Energy Model for the USA - MPSGE Format |
MPSGE |
Manne, A S |
|
F |
|
farm |
The Farmer's Problem formulated for DECIS |
DECIS |
Birge, J R |
|
fawley |
Platoform Example Refinery |
LP |
Palmer, K H |
|
fct |
LGO Interface Example |
DNLP |
Pinter, J D |
|
feasopt1 |
An Infeasible Transportation Problem analyzed with Cplex option FeasOpt |
LP |
Dantzig, G B |
|
feedtray |
Optimum Feed Plate Location |
MINLP |
Viswanathan, J |
|
fertd |
Egypt - Dynamic Fertilizer Model |
MIP |
Choksi, A M |
|
ferts |
Egypt - Static Fertilizer Model |
LP |
Choksi, A M |
|
finmge |
A General Equilibrium Model for Finland |
MPSGE |
Torma, H |
|
fiveleap |
The Five Leaper Tour Problem |
MIP |
Chlond, M J |
|
flowchan |
Flow in a channel COPS 2.0 #7 |
NLP |
Ascher, U M |
|
food |
Food Manufacturing Problem - Blending of oils |
MIP |
Williams, H P |
|
fuel |
Fuel Scheduling and Unit Commitment Problem |
MINLP |
Wood, A J |
|
G |
|
gamsrep |
The GAMS Model Library |
GAMS |
GAMS Development Corporation |
|
gamshtm |
HTML generation of model library |
GAMS |
GAMS Development Corporation |
|
gamsutil |
Generates some useful files from the Model Library |
GAMS |
GAMS Development Corporation |
|
gancns |
Macro-Economic Framework for India - CNS |
CNS |
Mitra, P |
|
gancnsx |
Macro-Economic Framework for India - Tracking CNS |
CNS |
Mitra, P |
|
ganges |
Macroeconomic Framework for India |
NLP |
Mitra, P |
|
gangesx |
Economic Framework for India - Tracking |
NLP |
Mitra, P |
|
gapmin |
Lagrangian Relaxation of Assignment Problem |
MIP |
Guignard, M |
|
gasnet |
Optimal Design of a Gas Transmission Network |
MINLP |
Edgar, T F |
|
gastrans |
Gas Transmission Problem - Belgium |
MINLP |
de Wolf, D |
|
gasoil |
Catalytic cracking of gas oil COPS 2.0 #12 |
NLP |
Ascher, U M |
|
gauss |
Matrix Inversion with Full Pivoting |
GAMS |
GAMS Development Corporation |
|
gear |
Gear Train Design |
MINLP |
Deb, K |
|
gemmcp |
GEMTAP: A general equilibrium model for tax policy |
MCP |
Rutherford, T F |
|
gemmge |
GEMTAP: A general equilibrium model for tax policy |
MPSGE |
Balard, C L |
|
glider |
Hang glider COPS 2.0 #11 |
NLP |
Bulirsch, R |
|
gmstest |
Test sript for library models |
GAMS |
GAMS Development Corporation |
|
gqapsdp |
SDP Convexifications of the Generalized Quadratic Assignment Problem |
RMIQCP |
Guignard, M |
|
great |
Great Circle Distances |
GAMS |
Brooke, A |
|
gsolver |
Compare the actual system with the original solver database |
GAMS |
GAMS Development Corporation |
|
gtm |
International Gas Trade Model |
NLP |
Manne, A S |
|
H |
|
hansmcp |
Hansen's Activity Analysis Example - MCP |
MCP |
Scarf, H |
|
hansmge |
Hansen's Activity Analysis Example - MPSGE |
MPSGE |
Scarf, H |
|
harker |
Models of Spatial Competition |
NLP |
Harker, P T |
|
harkmcp |
Models of Spatial Competition in MCP Form |
MCP |
Harker, P T |
|
harmge |
Increasing returns with average cost pricing |
MPSGE |
Kamiya, K |
|
haverly |
Haverly's pooling problem example |
NLP |
Adhya, N |
|
herves |
Herves (Transposable Element) Activity Calculations |
DNLP |
Meeraus, W H |
|
hda |
Synthesis: Hydrodealkylation of Toluene |
MINLP |
Kocis, G R |
|
hhfair |
Household Optimization Problem by Fair |
NLP |
Fair, R C |
|
hhmax |
A Household Maximization Problem |
NLP |
Hosoe, N |
|
himmel11 |
Himmelblau Test Problem Number 11 |
NLP |
Himmelblau, D M |
|
himmel16 |
Area of Hexagon Test Problem |
NLP |
Himmelblau, D M |
|
holiday |
US Holiday and Leave Chart |
GAMS |
GAMS Development Corporation |
|
house |
House Plan Design |
NLP |
Borland |
|
hs62 |
Hock - Schittkowski Problem 62 |
NLP |
Hock, W |
|
hydro |
Hydrothermal Scheduling Problem |
NLP |
Wood, A J |
|
I |
|
ibm1 |
Aluminum Alloy Smelter Sample Problem |
LP |
IBM |
|
icut |
Integer Cut Example |
MIP |
GAMS Development Corporation |
|
immun |
Financial Optimization: Risk Management |
QCP |
Dahl, H |
|
imsl |
Piecewise Linear Approximation |
LP |
IMSL Inc |
|
indus |
Indus Agricultural Model |
LP |
Duloy, J H |
|
indus89 |
Indus Basin Water Resource Model |
LP |
Ahmad, M |
|
irscge |
A CGE Model with Scale Economy |
NLP |
Hosoe, N |
|
iswnm |
Indus Surface Water Network Submodule |
LP |
Duloy, J H |
|
J |
|
jacobi |
Asynchronous Jacobi Methods |
MCP |
Bertsekas, D P |
|
jbearing |
Journal bearing COPS 2.0 #16 |
NLP |
Averick, B M |
|
jdate |
Julian date test |
GAMS |
GAMS Development Corporation |
|
jit |
Design of Just-in-Time Flowshops |
MINLP |
Gunasekaran, A |
|
jobt |
On-the-Job Training |
LP |
Dantzig, G B |
|
K |
|
kand |
Stochastic Programming |
OSLSE |
Kall, P |
|
kehomge |
Multiple equilibria in a simple GE model |
MPSGE |
Kehoe, T |
|
knights |
Maximum Knights Problem |
MIP |
Dudeney, H E |
|
korcge |
General Equilibrium Model for Korea - NLP |
NLP |
Lewis, J |
|
korcns |
General Equilibrium Model for Korea - CNS |
CNS |
Lewis, J |
|
kormcp |
General Equilibrium Model for Korea - MCP |
MCP |
Lewis, J |
|
korpet |
Investment Planning in the Korean Oil-Petro Industry |
MIP |
Suh, J S |
|
knp |
Kissing Number Problem using Variable Neighborhood Search |
NLP |
Liberti, L |
|
kport |
Product Portfolio Optimization |
MINLP |
Kallrath, J |
|
L |
|
lands |
Optimal Investment |
OSLSE |
Louveaux, F V |
|
launch |
Launch Vehicle Design and Costing |
NLP |
Bracken, J |
|
latin |
The Orthogonal Latin-Square Problem |
MIP |
Dantzig, G B |
|
least |
Nonlinear Regression Problem |
NLP |
Bracken, J |
|
licememo |
License Memorandum |
GAMS |
GAMS Development Corporation |
|
like |
Maximum Likelihood Estimation |
NLP |
Bracken, J |
|
linear |
Linear Regression with Various Criteria |
DNLP |
Bracken, J |
|
lmp1 |
Linear Multiplicative Model - Type 1 |
NLP |
Konno, H |
|
lmp2 |
Linear Multiplicative Model - Type 2 |
NLP |
Tawarmalani, M |
|
lmp3 |
Linear Multiplicative Model - Type 3 |
NLP |
Benson, H P |
|
lnts |
Particle steering COPS 2.0 #9 |
NLP |
Betts, J |
|
logmip1a |
LogMIP User's Manual Example 1a - Job Scheduling |
LOGMIP |
Raman, R |
|
logmip1b |
LogMIP User's Manual Example 1b - Job Scheduling |
LOGMIP |
Raman, R |
|
logmip1c |
LogMIP User's Manual Example 1c - Job Scheduling |
LOGMIP |
Raman, R |
|
logmip2 |
LogMIP User's Manual Example 2 - Example to illustrate disjunctions |
LOGMIP |
Vecchietti, A |
|
logmip3 |
LogMIP User's Manual Example 3 - Synthesis of 8 Processes |
LOGMIP |
Raman, R |
|
logmip4 |
LogMIP User's Manual Example 4 - Job Shop Scheduling |
LOGMIP |
Raman, R |
|
lop |
Line Optimization |
MIP |
Bussieck, M R |
|
lrgcge |
A Large Country CGE Model |
NLP |
Hosoe, N |
|
lrs |
Linear Recursive Sequence Optimization Model |
MIP |
GAMS Development Corporation |
|
M |
|
magic |
Magic Power Scheduling Problem |
MIP |
Garver, L L |
|
marco |
Mini Oil Refining Model |
LP |
Aronofsky, J S |
|
marilyn |
Numerical Puzzle |
MIP |
Savant, M |
|
markov |
Strategic Petroleum Reserve |
LP |
Teisberg, T J |
|
mathopt1 |
MathOptimizer Example 1 |
NLP |
Mathematica |
|
mathopt2 |
MathOptimizer Example 2 |
NLP |
Mathematica |
|
mathopt3 |
MathOptimizer Example 3 |
NLP |
Mathematica |
|
mathopt4 |
MathOptimizer Example 4 |
NLP |
Mathematica |
|
mathopt5 |
MathOptimizer Example 5 |
DNLP |
Mathematica |
|
mathopt6 |
MathOptimizer Example 6 |
DNLP |
Mathematica |
|
maxcut |
Goemans/Williamson Randomized Approximation Algorithm for MaxCut |
MIP |
Goemans M.X. |
|
maxmin |
Max Min Location of Points in Unit Square |
DNLP |
Pinter, J D |
|
meanvar |
Financial Optimization: Risk Management |
NLP |
Dahl, H |
|
meanvarx |
Financial Optimization: Risk Management |
MINLP |
Dahl, H |
|
methanol |
Methanol to hydrocarbons COPS 2.0 #13 |
NLP |
Ascher, U M |
|
mexls |
Mexico Steel - Large Static |
LP |
Kendrick, D |
|
mexsd |
Mexico Steel - Small Dynamic |
MIP |
Kendrick, D |
|
mexss |
Mexico Steel - Small Static |
LP |
Kendrick, D |
|
mhw4d |
Nonlinear Test Problem |
NLP |
Wright, M H |
|
mhw4dx |
MHW4D with additional Tests |
NLP |
Wright, M H |
|
mhw4dxx |
MHW4DX with multiple solutions |
NLP |
Wright, M H |
|
mingamma |
Minimal y of GAMMA(x) |
DNLP |
Sloane, N J A |
|
mine |
Opencast Mining |
LP |
Williams, H P |
|
minlphi |
Heat Integrated Distillation Sequences |
NLP |
Floudas, C A |
|
minlphix |
Heat Integrated Distillation Sequences |
MINLP |
Floudas, C A |
|
minsurf |
Minimal surface with obstacle COPS 2.0 #17 |
NLP |
Dolan, E D |
|
mlbeta |
Fitting of beta distribution through maximum likelihood |
NLP |
Kotz, J |
|
mlgamma |
Maximum Likelihood estimation of parameters of the gamma distribution |
NLP |
Cox, D R |
|
moncge |
A Monopoly CGE Model |
NLP |
Hosoe, N |
|
mpstrans |
MPS file for transportation problem |
GAMS |
Dantzig, G B |
|
mr5mcp |
Multi-Region Growth Model Based on Global 2100 |
MCP |
Manne, A S |
|
mrp2 |
Materials Requirement Planning (MRP) Formulations |
MIP |
Voss, S |
|
msm |
Morocco Fertilizer Distribution - Mode Selection |
LP |
Meeraus, A |
|
mst |
Minimum Spanning Tree |
GAMS |
Hillier, F S |
|
mws |
Computation of Horowitz’s work-trip mode choice model estimates |
MIP |
Florios, K |
|
N |
|
nash |
A non-cooperative game: Nash and Stackelberg versions |
MPEC |
Murphy, F H |
|
nebrazil |
North-East Brazil Regional Agricultural Model |
LP |
Kutcher, G P |
|
nemhaus |
Scheduling to Minimize Interaction Cost |
MIP |
Carlson, R C |
|
netgen |
Min Cost Flow with an Instance generated by NETGEN |
LP |
Clark, R H |
|
nonsharp |
Synthesis of General Distillation Sequences |
MIP |
Aggarwal, A |
|
nsharpx |
Synthesis of General Distillation Sequences |
MINLP |
Aggarwal, A |
|
nsmge |
North-South trade and capital flows |
MPSGE |
Manne, A S |
|
O |
|
oligomcp |
Oligopolistic Competition - Examples from MP |
MCP |
Harker, P T |
|
openpit |
Dynamic open pit mining extraction |
MIP |
GAMS Development Corporation |
|
orani |
A Miniature Version of Orani 78 |
LP |
Kendrick, D |
|
otpop |
OPEC Trade and Production |
NLP |
Blitzer, C |
|
P |
|
pak |
Optimal Patterns of Growth and Aid |
LP |
Chenery, H B |
|
paklive |
Pakistan Punjab Livestock Model |
LP |
World Bank |
|
paperco |
Vertically Integrated Company |
LP |
Thompson, G |
|
pentium |
Pentium Error Test |
GAMS |
House, B |
|
pdi |
ARCNET - Production Distribution and Inventory |
LP |
ARCNET |
|
phosdis |
Sea Distances for World Phosphate Model |
LP |
Meeraus, A |
|
pindyck |
Optimal Pricing and Extraction for OPEC |
NLP |
Pindyck, R S |
|
pinene |
Isometrization of alpha-pinene COPS 2.0 #5 |
NLP |
Ascher, U M |
|
pivot |
Simple Gaussian Elimination |
GAMS |
GAMS Development Corporation |
|
pollut |
Industrial Pollution Control |
NLP |
Mangasarian, O L |
|
polygon |
Largest small polygon COPS 2.0 #1 |
NLP |
Dolan, E D |
|
pool |
Pooling problem |
NLP |
Adhya, N |
|
popdynm |
Marine population dynamics COPS 2.0 #6 |
NLP |
Dolan, E D |
|
port |
Simple Portfolio Model |
LP |
CDC |
|
poutil |
Portfolio Optimization for Electric Utilities |
MIP |
Rebennack, S |
|
prime |
Prime Number Generation |
GAMS |
GAMS Development Corporation |
|
process |
Alkylation Process Optimization |
NLP |
Bracken, J |
|
procmean |
Optimal Process Mean |
NLP |
Chen, C H |
|
procsel |
Structural Optimization of Process Flowsheets |
MINLP |
Kocis, G R |
|
prodmix |
A Production Mix Problem |
LP |
Dantzig, G B |
|
prodsch |
APEX - Production Scheduling Model |
MIP |
CDC |
|
prodschx |
Production Scheduling Model using SOS1 and SOS2 |
MIP |
CDC |
|
prodsp |
Stochastic Programming Example |
OSLSE |
King, A J |
|
prodsp2 |
Stochastic Programming Example - reformulated for DECIS |
DECIS |
King, A J |
|
prolog |
Market Equilibrium and Activity Analysis |
NLP |
Norton, R D |
|
pump |
Pump Network Synthesis |
MINLP |
Floudas, C A |
|
Q |
|
qabel |
Linear Quadratic Control Problem |
QCP |
Kendrick, D |
|
qalan |
A Quadratic Programming Model for Portfolio Analysis QCP |
MIQCP |
Manne, A S |
|
qcp1 |
Standard QP Model QCP |
QCP |
Kalvelagen, E |
|
qdemo7 |
Nonlinear Simple Agricultural Sector Model QCP |
QCP |
Kutcher, G P |
|
qmeanvar |
Financial Optimization: Risk Management using MIQCP |
MIQCP |
Dahl, H |
|
qmeanvag |
Portfolio Modeling with Parallel Solutions |
MIQCP |
Dahl, H |
|
quantum |
An application from quantum mechanics |
DNLP |
Ogura, A |
|
qsambal |
Social Accounting Matrix Balancing Problem QCP |
QCP |
Zenios, S A |
|
qp1 |
Standard QP Model |
NLP |
Kalvelagen, E |
|
qp1x |
Standard QP Model with GDX data input |
NLP |
Kalvelagen, E |
|
qp2 |
Standard QP Model - symmetry exploitations |
NLP |
Kalvelagen, E |
|
qp3 |
Standard QP Model - intermediate variables |
NLP |
Kalvelagen, E |
|
qp4 |
Standard QP Model - no covariance matrix |
NLP |
Kalvelagen, E |
|
qp5 |
Standard QP Model - linear approximation |
LP |
Kalvelagen, E |
|
qp6 |
Standard QP Model - LCP formulation of QP4 |
MCP |
Kalvelagen, E |
|
qp7 |
Standard QP Model - conic programming formulation |
LP |
Andersen, E |
|
queens |
Maximum Queens Chess Problem |
MIP |
Beauvais, J |
|
quocge |
A CGE Model with Quotas |
NLP |
Hosoe, N |
|
R |
|
railcirc |
Minimum Circulation of Railway Stock |
MIP |
Schrijver, A |
|
ramsey |
Savings Model by Ramsey |
NLP |
Murtagh, B A |
|
rbrock |
Rosenbrock Test Function |
NLP |
Rosenbrock, H H |
|
rdata |
Sample Database of the US Economy |
MIP |
Kendrick, D |
|
reaction |
Logical Inference for Reaction path synthesis |
MIP |
Raman, R |
|
repay |
Repayment Factors for Loans |
GAMS |
GAMS Development Corporation |
|
robert |
Elementary Production and Inventory Model |
LP |
Fourer, R |
|
robot |
Robot arm COPS 2.0 #8 |
NLP |
Dolan, E D |
|
rocket |
Goddard rocket COPS 2.0 #10 |
NLP |
Bryson, A E |
|
rotdk |
Robust Optimization |
MIP |
Laguna, M |
|
S |
|
sambal |
Social Accounting Matrix Balancing Problem |
NLP |
Zenios, S A |
|
sammge |
Carbon taxes with exemptions for heavy industry |
MPSGE |
Boehringer, C |
|
sample |
Stratified Sample Design |
NLP |
Bracken, J |
|
sarf |
Farm Credit and Income Distribution Model |
LP |
Husain, T |
|
scarfmcp |
Scarf's Activity Analysis Example |
MCP |
Scarf, H |
|
scarfmge |
Tax distortions in a small activity analysis model |
MPSGE |
Scarf, H |
|
schulz |
Termination routine to ensure solvers stay with resource limit |
GAMS |
GAMS Development Corporation |
|
secure |
Secure Work Files - Example 2 |
GAMS |
GAMS Development Corporation |
|
seders |
ERS Data Manipulations with SED |
GAMS |
Somwaru, A |
|
senstran |
Sensitivity analysis using LOOPS |
LP |
Dantzig, G B |
|
shale |
Investment Planning in the Oil Shale Industry |
LP |
Melton, J W |
|
ship |
Structural Optimization |
NLP |
Bracken, J |
|
shovmge |
The economic effects of UK membership in the EC |
MPSGE |
Miller, M H |
|
slvtest |
Solver combination test |
GAMS |
GAMS Development Corporation |
|
solnpool |
Cplex Solution Pool for a Simple Facility Location Problem |
MIP |
ILOG |
|
solveopt |
Option solveopt explained |
GAMS |
GAMS Development Corporation |
|
sparta |
Military Manpower Planning from Wagner |
LP |
Wagner, H M |
|
splcge |
A Simple CGE Model |
NLP |
Hosoe, N |
|
spring |
Coil Compression String Design |
MINLP |
Sandgren, E |
|
srcpm |
Single-Region Contingency Planning Model |
NLP |
Manne, A S |
|
srkandw |
Stochastic Programming Scenario Reduction |
LP |
Kall, P |
|
sroute |
The Shortest Route Problem |
LP |
Dantzig, G B |
|
sroutex |
Shortest Route Algorithm |
GAMS |
Dantzig, G B |
|
srpchase |
Scenario Tree Construction Example |
LP |
H. Heitsch |
|
stdcge |
A Standard CGE Model |
NLP |
Hosoe, N |
|
stockcc |
Minimizing Total Average Cycle Stock |
MIP |
Silver, E A |
|
swath |
Mission Planning for Synthetic Aperture Radar Surveillance |
MIP |
Panton, D M |
|
synheat |
Simultaneous Optimization for Hen Synthesis |
MINLP |
Yee, T F |
|
T |
|
t1000 |
LGO Test t1000_10 |
NLP |
Pinter, J D |
|
tabora |
Tabora Rural Development - Fuelwood Production |
LP |
World Bank |
|
tanksize |
Tank Size Design Problem |
MINLP |
Rebennack, S |
|
tba |
Financial Optimization: Financial Engineering |
MIP |
Dahl, H |
|
tfordy |
Antalya Forestry Model - Dynamic |
LP |
Bergendorff, H |
|
tforss |
Antalya Forestry Model - Steady State |
LP |
Bergendorff, H |
|
thai |
Thai Navy Problem |
MIP |
Choypeng, P |
|
thaix |
Thai Navy Problem Extended |
MIP |
Choypeng, P |
|
threemge |
Three Approaches to Differential Tax Policy Analysis |
MPSGE |
Rutherford, T F |
|
torsion |
Elastic-plastic torsion COPS 2.0 #15 |
NLP |
Averick, B M |
|
traffic |
Traffic Equilibrium Problem |
MCP |
Ferris, M C |
|
transmcp |
Transportation Model as Equilibrium Problem |
MCP |
Dantzig, G B |
|
trig |
Simple Trigonometric Example |
NLP |
Pinter, J D |
|
trimloss |
Trim Loss Minimization |
MINLP |
Floudas, C A |
|
trnsgrid |
Grid Transportation Problem |
LP |
Ferris, M C |
|
trnsport |
A Transportation Problem |
LP |
Dantzig, G B |
|
trnspwl |
A Transportation Problem with discretized economies of scale |
MIP |
Dantzig, G B |
|
trnssdp |
Solving the Transportation LP Problem using SDP |
GAMS |
Dantzig, G B |
|
tsp1 |
Traveling Salesman Problem - One |
MIP |
Kalvelagen, E |
|
tsp2 |
Traveling Salesman Problem - Two |
MIP |
Kalvelagen, E |
|
tsp2ltx |
TSP tour plotting with LaTeX xy-pic environment |
MIP |
GAMS Development Corporation |
|
tsp3 |
Traveling Salesman Problem - Three |
MIP |
Kalvelagen, E |
|
tsp4 |
Traveling Salesman Problem - Four |
MIP |
Kalvelagen, E |
|
tsp42 |
TSP solution with subtour elimination |
MIP |
Dantzig, G B |
|
tsp5 |
TSP solution with Miller et al subtour elimination |
MIP |
Miller, C E |
|
turkey |
Turkey Agricultural Model with Risk |
NLP |
Le-Si, V |
|
turkpow |
Turkey Power Planning Model |
LP |
Turvey, R |
|
tvcsched |
Flow Formulation of the ISCI Rotator Problem |
MIP |
Bollapragada, S |
|
twocge |
A Two Country CGE Model |
NLP |
Hosoe, N |
|
two3mac |
Simple 2 x 2 x 2 General Equilibrium Model Using Macros |
MCP |
Shoven, J |
|
two3mcp |
Simple 2 x 2 x 2 General Equilibrium Model |
MCP |
Shoven, J |
|
U |
|
uimp |
UIMP - Production Scheduling Problem |
LP |
Ellison, E F D |
|
unstmge |
Globally Unstable Equilibria |
MPSGE |
Scarf, H |
|
V |
|
version1 |
How to test for a GAMS version |
GAMS |
GAMS Development Corporation |
|
vietman |
Vietoriscz Manne Fertilizer Model 1961 |
MIP |
Manne, A S |
|
vonthmcp |
General Equilibrium Variant of the von Thunen Model |
MCP |
Rowse |
|
vonthmge |
A General Equilibrium Version of the von Thunen Model |
MPSGE |
Mackinnon, J |
|
W |
|
wall |
Chemical Equilibrium Problem |
NLP |
Wall, T W |
|
wallmcp |
Chemical Equilibrium Problem as MCP |
MCP |
Wall, T W |
|
water |
Design of a Water Distribution Network |
DNLP |
Brooke, A |
|
waterx |
Design of a Water Distribution Network (MINLP) |
MINLP |
Brooke, A |
|
weapons |
Weapons Assignment |
NLP |
Bracken, J |
|
westmip |
Economies of Scale and Investment over Time |
MIP |
Chenery, H B |
|
windfac |
Winding Factor of Electrical Machines |
MINLP |
Michna, M |
|
whouse |
Simple Warehouse Problem |
LP |
Dantzig, G B |
|
worst |
Financial Optimization: Risk Management |
NLP |
Dahl, H |
|
X |
|
Y |
|
yemcem |
Yemen Cement Model |
MIP |
World Bank |
|
Z |
|
zloof |
Relational Database Example |
GAMS |
Zloof, M M |
