Index

A - B - C - D - E - F - G - H - I - J - K - L - M - N - O - P - Q - R - S - T - U - V - W - X - Y - Z

;

; D.1.2.4

!

! D.1.2.4 E.1.3

!) D.1.2.4

(

(! D.1.2.4

=

== E.1.1.2

A

argument

subroutine D.6.2.1

array

definition D.1.2.1

dynamic D.2.1 G.2

B

basis G.2

loading D.6.2.2 E.4.2

saving D.6.2.2 E.4.2

BCL 2.2 G.2

initialization E.1.1.1

model E.1.1.2

BIM file D.2.3 D.7.2 G.2

binary variable D.4.2 E.2.2 F.3.2 G.2

bound 3.1 E.1.1.2 G.2

modification D.6.2.2 E.4.2

Branch-and-Bound 2.1 D.4.2.2 E.2.2.1 F.3.2.2 G.2

Branch-and-Bound tree D.4.2.2 G.2

Branch-and-Cut G.2

C

case G.2

code completion D.1.3

column F.2.1 G.2

comments D.1.2.4 D.2.1 E.1.3 E.3.2.1

comparison tolerance D.6.2.3

compilation E.1.2 F.1.3 F.2.3

constraint G.2

definition D.1.2.1 D.1.2.1 E.1.1.2

equality 3.1 E.1.1.2 G.2

inequality 3.1 G.2

linear D.1.2.1 E.1.1.2

name D.3.2

continuous variable G.2

control parameter G.2

cut D.4.2.2 E.2.2.2 G.2

cut generation D.4.2.2 D.6.2.2 E.2.2.2 E.4.2

cutoff value D.6.1 E.4.1

D

data

input from file D.2.1 D.3.4 D.5.2.1 E.1.3 E.3.2.1

data file D.2.1 D.3.4 D.5.2.1 E.1.3 E.3.2.1

data handling 2.2

debugger D.1.3.1

debugging D.1.3.1

decision variable 3.1 G.2

creation E.1.1.2

declaration D.1.2.1 D.2.1

type D.4.2.1 E.2.2.1 F.3.2.2

declaration G.2

declarations D.1.2.1 D.6.2.1

deployment template D.7

discrete variable D.4.2.1 E.2.2.1 G.2

DSO see dynamic shared object

dynamic array D.2.1 G.2

dynamic set D.2.1 G.2

dynamic shared object G.2

E

elif/then D.3.2

embedding 2.2 D.7

empty line D.1.2.4

end-do D.3.2

end-function D.6.2.1

end-model D.1.2.1

end-procedure D.6.2.1 D.6.2.1 D.6.2.1

equality constraint 3.1 E.1.1.2 G.2

error

redirection D.7.3.3

error handling D.1.3 E.1.4 F.1.2

error stream D.7.3.3

exportprob D.7.4.1

expression

linear D.1.2.1 E.1.1.2

quadratic E.3.2.1

F

F_APPEND D.2.2

F_OUTPUT D.2.2

fclose D.2.2

feasibility tolerance D.6.2.2 E.4.2

feasible solution G.2

finalize D.2.1 G.2

fopen D.2.2

forall D.1.2.1 D.3.2 G.2

forall/do D.3.2

formating D.1.2.4

output D.2.2

forward D.6.2

function D.6.2.1 G.2

G

getLPStat E.1.4 E.1.4

getMIPStat E.2.2.1

getparam D.6.2.2

getprobstat D.3.2

getXPRSprob E.4.2

graph drawing D.3.3

graphical user interface 2.2 G.2

H

heuristic G.2

variable fixing D.6.1 E.4.1

I

if/then/else/end-if D.3.2 G.2

if/then/end-if D.3.2

indentation D.1.2.4

index

string D.1.4.1 E.1.3 G.2

index set E.1.3 G.2

indicator variable D.4.2 E.2.2 F.3.2 G.2

inequality constraint 3.1 G.2

info bar D.1.1

initialization

BCL E.1.1.1

explicit E.1.4

Mosel D.7.3.1

Optimizer F.1.2

initializations from D.2.2

initializations to D.2.2

input file D.2.1 E.1.3

integer variable D.4.2.1 E.2.2.1 F.3.2.2 G.2

integrality condition D.4.2.2 G.2

interior point algorithm G.2

interrupt execution D.4.2.2

is_binary D.4.2.1

is_integer D.4.2.1

is_partint D.4.3.1

is_semcont D.4.3.1

is_semint D.4.3.1

IVE 2.2 G.2

starting D.1.1

L

language

modeling 2.2

solving 2.2

library

embedding 2.2

limit value E.2.3.1 F.3.3.2 G.2

linear constraint D.1.2.1 E.1.1.2

linear expression D.1.2.1 E.1.1.2

Linear Programming 2.1 D.1 E.1 F.2 G.2

optimization information D.1.4 E.1.2 F.1.3 F.2.3

problem status E.1.4 F.2.2

relaxation D.4.2.2 G.2

line break D.1.2.4

loadMat E.4.2

loadprob D.6.2.2

loop D.1.2.1 D.3.2 G.2

optimization D.3.2

LP see Linear Programming

LP format D.7.4.1 E.1.5 F.1.1

M

mathematical model 3.1

Mathematical Programming 2.1

Mathematical Programming problem 2.1 G.2

matrix G.2

display D.1.3.1 D.4.2.2

export D.7.4.1 E.1.5

format D.7.4.1 E.1.5 F.1.1

import D.7.4.2 F.1.2

matrix representation F.2.1 F.3.2.1 F.4.3 G.2

maxim E.1.1.3 E.2.2.1

maximize D.1.2.2 D.1.3 D.4.2.2 D.6.2.2

minim E.1.5 E.3.2.1

minimize D.5.2.1

MIP see Mixed Integer Programming

MIP heuristics D.6.2.2 E.2.2.2 E.4.2

MIQP see Mixed Integer Quadratic Programming

Mixed Integer Programming 2.1 D.4 E.2 F.3 G.2

optimization information D.4.2.2 E.2.2.2 E.4.2

problem status E.2.2.1 F.3.2.2

search D.4.2.2 E.2.2.2 F.3.2.2

Mixed Integer Quadratic Programming 2.1 D.5 E.3 F.4.4 G.2

optimization information D.5.3.2 E.3.3.1

model D.1.2.1 G.2

BCL E.1.1.2

embedding 2.2 D.7

incremental definition D.5.3.1 E.3.3.1

Mosel D.1.2

parameter D.2.3 G.2

model building 2.1 3

modeling language 2.2 G.2

modeling objects 2.2 G.2

modeling style D.2.3

module 2.2 G.2

module browser D.1.3 D.6.2.2

mosel D.2.3

Mosel G.2

environment 2.2

language 2.2 G.2

libraries 2.2 G.2

model D.1.2

Native Interface 2.2 G.2

standalone D.2.3

MPS format D.7.4.1 E.1.5 F.1.1

mpvar D.1.2.1

N

names

constraint D.3.2

defining E.1.1.2

namespace E.1.1.1

Newton-Barrier E.3.2.1 G.2

newVar E.1.1.2

NI see Mosel Native Interface

NLP see Non-linear Programming

node D.4.2.2 G.2

colors D.4.2.2

Non-linear Programming 2.1 G.1.2.5 G.2

O

objective function 3.1 G.2

definition D.1.2.1 E.1.1.2

quadratic D.5.2 E.3.2 F.4.2

ODBC 2.2 G.2

optimal solution G.2

optimization D.1.2.2 E.1.1.3 F.2.2 G.2

loop D.3.2 D.5.2.1

optimization project 2.1

Optimizer 2.2 D.1.2.2 E.1.1.3 G.2 G.2

direct access E.4.2

output D.1.2.3 D.1.4 E.1.1.4 F.2.2

formating D.2.2

redirection D.7.3.3 F.2.3

output file D.2.3 D.7.3.3 F.1.3

overloading D.6.2.1 G.2

P

parameter G.2

parameters D.2.3 G.2

parameter settings D.2.3 D.4.2.2 D.6.2.2 D.7.3.2 E.4.2 G.2

partial integer variable D.4.3.1 E.2.3.1 F.3.3.2 G.2

pausing execution D.4.2.2 D.4.2.2

presolving D.6.2.2 E.4.2

print E.1.4

printing D.1.2.3 E.1.1.4

problem

change D.6.2.2 E.4.2

creation E.1.1.1

input F.2.2

instance D.7.3.2 G.2

matrix F.2.1 G.2

parameter G.2

problem status D.3.2 G.2 G.2

LP E.1.4 F.2.2

MIP E.2.2.1 F.3.2.2

QP F.4.4

procedure D.6.2.1 G.2

programming language 2.2

project bar D.1.1

Q

QP see Quadratic Programming

quadratic expression E.3.2.1

quadratic objective function D.5.2 E.3.2 F.4.2

Quadratic Programming 2.1 D.5 E.3 F.4 G.2

algorithm E.3.2.1

optimization information E.3.2.1

problem status F.4.4

R

range set D.1.2.1 G.2

repeat until G.2

return value D.6.2.1

right hand side D.2.3 F.2.1 G.2

row F.2.1 G.2

run bar D.1.1

S

selection statement G.2

semi-continuous integer D.4.3.1 E.2.3.1 F.3.3.2 G.2

semi-continuous variable D.4.3.1 E.2.3.1 F.3.3.2 G.2

set

definition D.1.2.1

dynamic D.2.1 G.2

range D.1.2.1 G.2

setlb D.6.2.2

setLB E.4.2

setLim E.2.3.1

setMsgLevel E.1.2

setObj E.1.1.3

setparam D.4.2.2 D.6.2.2

setSense E.1.5

setub D.6.2.2

setUB E.4.2

Simplex D.1.4 E.3.2.1 E.4.2 G.2

SLP see Successive Linear Programming

solution G.2

feasible G.2

optimal G.2

solution heuristic D.6.1 E.4.1

solution information D.1.4 G.2

solve E.1.5

solver G.2

solving D.1.2.2 E.1.1.3 F.2.2 G.2

SP see Stochastic Programming

space D.1.2.4

sparse format G.2

Stochastic Programming G.1.2.5

strfmt D.2.2

string indices D.1.4.1 E.1.3 G.2

subroutine D.6.2.1 G.2

subroutine definition

overloading D.6.2.1

Successive Linear Programming 2.1 G.1.2.5 G.2

system functions 2.2 G.2

T

tolerance value D.6.2.2 E.4.2

U

user graph D.3.3 D.5.2.1

user module 2.2 G.2

uses D.1.2.2 D.3.4

V

valid inequality see cut

variable see decision variable

viewing matrix D.4.2.2

W

warning D.1.3

while G.2

write D.1.2.3

writeln D.1.2.3

X

XPRB_BV E.2.2.1

XPRB_PI E.2.3.1

XPRB_SC E.2.3.1

XPRB_SI E.2.3.1

XPRB_UI E.2.2.1

XPRBctr E.1.4

XPRBindexSet E.1.4

XPRBprob E.1.4

XPRBquadExp E.3.2.1

XPRBreadarrlinecb E.3.2.1

XPRBreadlinecb E.1.3

XPRBsos E.1.4

XPRBvar E.1.4

Xpress-BCL see BCL

Xpress-IVE see IVE

Xpress-Mosel see Mosel

Xpress-Optimizer see Optimizer

Xpress-SLP G.1.2.5

Xpress-SP G.1.2.5

XPRM_F_ERROR D.7.3.3

XPRM_F_OUTPUT D.7.3.3

XPRS_CUTSTRATEGY D.4.2.2 D.6.2.2 E.4.2

XPRS_HEURSTRATEGY D.6.2.2 E.4.2

XPRS_LPLOG E.4.2

XPRS_MIPLOG E.4.2

XPRS_OPT D.3.2

XPRS_PRESOLVE D.6.2.2 E.4.2

XPRS_TOP D.6.2.2

XPRSloadglobal F.3.2.2

XPRSloadlp F.2.2

XPRSloadqglobal F.4.4

XPRSloadqp F.4.4

XPRSmaxim F.2.2 F.3.2.2

XPRSminim F.4.4

XPRSprob E.4.2

XPRSsetintcontrol E.4.2

XPRSsetlogfile F.2.3

Z

ZEROTOL D.6.2.3