Book Contents
Book Contents
Master Index
Master Index
SAS/OR User's Guide: Mathematical Programming

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N

NAME statement
NETFLOW procedure "COLUMN Statement"
NETFLOW procedure "COST Statement"
NETFLOW procedure "Input Data Sets"
NETFLOW procedure "LO Statement"
NETFLOW procedure "NAME Statement"
NETFLOW procedure "NAME Statement"
NETFLOW procedure "PRINT Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NAMECTRL= option
NETFLOW procedure "NAME Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NAMECTRL=option
PROC NETFLOW statement
_NAME_ variable
ARCDATA data set (NETFLOW)
ARCOUT and CONOUT data sets (NETFLOW)
NARCS= option
NETFLOW procedure
PROC NETFLOW statement
NCOEFS= option
NETFLOW procedure
PROC NETFLOW statement
NCONS= option
NETFLOW procedure
PROC NETFLOW statement
Nelder-Mead
Nelder-Mead Simplex
NETFLOW procedure
ALLART option
AOUT= option "PROC NETFLOW Statement"
AOUT= option "RESET Statement"
Arc names "COEF Statement"
Arc names "COLUMN Statement"
Arc names "Getting Started"
Arc names "Input Data Sets"
Arc names "Introductory Example"
Arc names "Linear Programming Models: Interior Point Algorithm"
Arc names "NAME Statement"
Arc names "Network Models: Interior Point Algorithm"
Arc names "PROC NETFLOW Statement"
ARCDATA= option "CAPACITY Statement"
ARCDATA= option "COST Statement"
ARCDATA= option "DEMAND Statement"
ARCDATA= option "Getting Started"
ARCDATA= option "Getting Started"
ARCDATA= option "HEADNODE Statement"
ARCDATA= option "Input Data Sets"
ARCDATA= option "Interactivity"
ARCDATA= option "Introductory Example"
ARCDATA= option "Linear Programming Models: Interior Point Algorithm"
ARCDATA= option "Linear Programming Models: Interior Point Algorithm"
ARCDATA= option "Linear Programming Models: Interior Point Algorithm"
ARCDATA= option "LO Statement"
ARCDATA= option "Network Models: Interior Point Algorithm"
ARCDATA= option "Network Models: Interior Point Algorithm"
ARCDATA= option "Network Models: Interior Point Algorithm"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "PROC NETFLOW Statement"
ARCDATA= option "RESET Statement"
ARCDATA= option "SUPPLY Statement"
ARCDATA= option "TAILNODE Statement"
ARCDATA= option "Warm Starts"
ARCNAME statement
ARCOUT= option "Dual Variables, Reduced Costs, and Status"
ARCOUT= option "Getting Started"
ARCOUT= option "ID Statement"
ARCOUT= option "Output Data Sets"
ARCOUT= option "Output Data Sets"
ARCOUT= option "PROC NETFLOW Statement"
ARCOUT= option "RESET Statement"
ARCOUT= option "RESET Statement"
ARCOUT= option "RESET Statement"
ARCOUT= option "RESET Statement"
ARCOUT= option "Warm Starts"
ARCS_ONLY_ARCDATA option
ARC_SINGLE_OBS option
Bartels-Golub decomposition "PROC NETFLOW Statement"
Bartels-Golub decomposition "RESET Statement"
Bartels-Golub decomposition "RESET Statement"
Bartels-Golub decomposition "The Working Basis Matrix"
BIGM1 option
BIGM2 option
blending constraints
BPDIV= option
BYPASSDIV= option
BYPASSDIVIDE= option
BYTES= option "PROC NETFLOW Statement"
BYTES= option "PROC NETFLOW Statement"
CAPAC statement
CAPACITY statement "CAPACITY Statement"
CAPACITY statement "Example 4.2: Minimum Cost Flow Problem"
CAPACITY statement "PRINT Statement"
case-sensitivity
case-sensitivity;ARCDATA= option
Central Path
CF= option
CHOLTINYTOL= option
COEF statement "COEF Statement"
COEF statement "Input Data Sets"
COEF statement "PRINT Statement"
COEF statement "TYPE Statement"
COLUMN statement "COLUMN Statement"
COLUMN statement "Input Data Sets"
COLUMN statement "PROC NETFLOW Statement"
COLUMN statement "PROC NETFLOW Statement"
COLUMN statement "PROC NETFLOW Statement"
CONDATA= option "COEF Statement"
CONDATA= option "COLUMN Statement"
CONDATA= option "Getting Started"
CONDATA= option "Getting Started"
CONDATA= option "Getting Started"
CONDATA= option "Input Data Sets"
CONDATA= option "Interactivity"
CONDATA= option "Introductory Example"
CONDATA= option "Linear Programming Models: Interior Point Algorithm"
CONDATA= option "Linear Programming Models: Interior Point Algorithm"
CONDATA= option "Linear Programming Models: Interior Point Algorithm"
CONDATA= option "Linear Programming Models: Interior Point Algorithm"
CONDATA= option "NAME Statement"
CONDATA= option "Network Models: Interior Point Algorithm"
CONDATA= option "Network Models: Interior Point Algorithm"
CONDATA= option "Network Models: Interior Point Algorithm"
CONDATA= option "Network Models: Interior Point Algorithm"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "PROC NETFLOW Statement"
CONDATA= option "RESET Statement"
CONDATA= option "TYPE Statement"
CONDATA= option "VAR Statement"
CONDATA= option "Warm Starts"
CONOPT statement "CONOPT Statement"
CONOPT statement "Interactivity"
CONOPT statement "Linear Programming Models: Interior Point Algorithm"
CONOPT statement "Network Models: Interior Point Algorithm"
CONOPT statement "SHOW Statement"
CONOUT= option "Dual Variables, Reduced Costs, and Status"
CONOUT= option "Getting Started"
CONOUT= option "ID Statement"
CONOUT= option "Linear Programming Models: Interior Point Algorithm"
CONOUT= option "Network Models: Interior Point Algorithm"
CONOUT= option "Output Data Sets"
CONOUT= option "Output Data Sets"
CONOUT= option "PROC NETFLOW Statement"
CONOUT= option "RESET Statement"
CONOUT= option "RESET Statement"
CONOUT= option "RESET Statement"
CONOUT= option "RESET Statement"
CONOUT= option "Warm Starts"
CON_SINGLE_OBS option
COREFACTOR= option
COST statement "COST Statement"
COST statement "PRINT Statement"
COST statement "Warm Starts"
COUT= option "PROC NETFLOW Statement"
COUT= option "RESET Statement"
CYCLEMULT1= option
Data Set options
DATA SETS option;SHOW statement "SAVE Statement"
DATA SETS option;SHOW statement "SHOW Statement"
DC= option
DCT= option
DEFCAPACITY= option
DEFCONTYPE= option "Example 4.2: Minimum Cost Flow Problem"
DEFCONTYPE= option "Input Data Sets"
DEFCONTYPE= option "PROC NETFLOW Statement"
DEFCONTYPE= option "TYPE Statement"
DEFCOST= option
DEFMINFLOW= option
DEFTYPE= option
DEMAND= option "PROC NETFLOW Statement"
DEMAND= option "PROC NETFLOW Statement"
DEMAND statement "DEMAND Statement"
DEMAND statement "Missing S Supply and Missing D Demand Values"
Dense input format "Getting Started"
Dense input format "How to Make the Data Read of PROC NETFLOW More Efficient"
Dense input format "How to Make the Data Read of PROC NETFLOW More Efficient"
Dense input format "Input Data Sets"
Dense input format "Linear Programming Models: Interior Point Algorithm"
Dense input format "Network Models: Interior Point Algorithm"
Dense input format "PROC NETFLOW Statement"
Dense input format "PROC NETFLOW Statement"
Dense input format "PROC NETFLOW Statement"
Dense input format "PROC NETFLOW Statement"
Dense input format "PROC NETFLOW Statement"
Dense input format "RHS Statement"
Dense input format "ROW Statement"
Dense input format "Side Constraints"
Dense input format "TYPE Statement"
Dense input format "VAR Statement"
DENSETHR= option
Details
DMF= option
DOUT= option "PROC NETFLOW Statement"
DOUT= option "RESET Statement"
Dual Variables "Dual Variables, Reduced Costs, and Status"
Dual Variables "Pricing Strategies"
DUALFREQ= option "Pricing Strategies"
DUALFREQ= option "RESET Statement"
DUALIN= option "PROC NETFLOW Statement"
DUALIN= option "PROC NETFLOW Statement"
DUALIN= option "Warm Starts"
DUALOUT= option "Output Data Sets"
DUALOUT= option "Output Data Sets"
DUALOUT= option "PROC NETFLOW Statement"
DUALOUT= option "RESET Statement"
DUALOUT= option "RESET Statement"
DUALOUT= option "RESET Statement"
DUALOUT= option "RESET Statement"
DUALOUT= option "Warm Starts"
DWIA= option
ENDPAUSE1 option
Examples
FEASIBLEPAUSE1 option
FEASIBLEPAUSE2 option
flow conservation constraints "Flow Conservation Constraints"
flow conservation constraints "Flow Conservation Constraints"
flow conservation constraints "How to Make the Data Read of PROC NETFLOW More Efficient"
flow conservation constraints "Input Data Sets"
flow conservation constraints "Network Models"
flow conservation constraints "Network Models: Interior Point Algorithm"
flow conservation constraints "Network Models: Interior Point Algorithm"
flow conservation constraints "Network Models: Interior Point Algorithm"
flow conservation constraints "Reasons for Infeasibility"
flow conservation constraints "Reasons for Infeasibility"
flow conservation constraints "RESET Statement"
flow conservation constraints "Side Constraints"
flow conservation constraints "Side Constraints"
FP1 option
FP2 option
FROM statement "PRINT Statement"
FROM statement "TAILNODE Statement"
FROMNODE statement
functional summary "Functional Summary"
functional summary "PROC NETFLOW Statement"
functional summary "RESET Statement"
functional summary Interior Point Algorithm
Functional Summary: Network Models: Interior Point algorithm
FUTURE1 option "Getting Started"
FUTURE1 option "RESET Statement"
FUTURE1 option "RESET Statement"
FUTURE1 option "Warm Starts"
FUTURE2 option "Getting Started"
FUTURE2 option "RESET Statement"
FUTURE2 option "RESET Statement"
FUTURE2 option "Warm Starts"
Getting Started
Getting Started Interior Point Algorithm
GROUPED= option "PROC NETFLOW Statement"
GROUPED= option "PROC NETFLOW Statement"
HEAD statement
HEADNODE statement "DEMAND Statement"
HEADNODE statement "Example 4.1: Shortest Path Problem"
HEADNODE statement "HEADNODE Statement"
HEADNODE statement "NODE Statement"
ID statement "Example 4.3: Using a Warm Start"
ID statement "ID Statement"
IMAXITERB= option
INF= option
Infeasibility
INFINITY= option "PROC NETFLOW Statement"
INFINITY= option "PROC NETFLOW Statement"
INFINITY= option "PROC NETFLOW Statement"
INFINITY= option "PROC NETFLOW Statement"
initial basic feasible solution "CONOPT Statement"
initial basic feasible solution "Getting Started"
initial basic feasible solution "PROC NETFLOW Statement"
initial basic feasible solution "RESET Statement"
Input data sets "Input Data Sets"
Input data sets "PROC NETFLOW Statement"
Interactivity
Interactivity Interior Point Algorithm
Interior Point algorithm
Interior Point algorithm options
Interior Point algorithm: Functional Summary: Network Models
Interior Point Algorithm: Getting Started
Interior Point Algorithm: Interactivity
Interior Point Algorithm: Introductory example
Interior Point Algorithm: linear programming problems
Interior Point Algorithm: NETFLOW statement
Interior Point Algorithm: Summary of PROC NETFLOW Options
Interior Point: Algorithmic Details
INTFIRST option
INTPOINT option "Network Models: Interior Point Algorithm"
INTPOINT option "RESET Statement"
Introductory example "Input Data Sets"
Introductory example "Input Data Sets"
Introductory example "Introductory Example"
Introductory example "PRINT Statement"
Introductory example Interior Point Algorithm
INVD_2D option "PROC NETFLOW Statement"
INVD_2D option "RESET Statement"
INVD_2D option "RESET Statement"
INVD_2D option "RESET Statement"
INVD_2D option "RESET Statement"
INVD_2D option "RESET Statement"
INVD_2D option "RESET Statement"
INVD_2D option "The Working Basis Matrix"
INVFREQ= option
INVREQ= option
IPRSLTYPE= option
Karush-Kuhn-Tucker (KKT) conditions
linear programming problem "Advantages of Network Models over LP Models"
linear programming problem "How to Make the Data Read of PROC NETFLOW More Efficient"
linear programming problem "How to Make the Data Read of PROC NETFLOW More Efficient"
linear programming problem "Input Data Sets"
linear programming problem "Introduction"
linear programming problem "Linear Programming Models: Interior Point Algorithm"
linear programming problem "Linear Programming Models: Interior Point Algorithm"
linear programming problem "RESET Statement"
linear programming problem "RESET Statement"
linear programming problems: Interior Point Algorithm
LO statement "LO Statement"
LO statement "PRINT Statement"
Longest path problem
Loop arcs
LOWERBD statement
LP
LRATIO1 option
LRATIO2 option
macro variable _ORNETFL
mathematical description of LP
mathematical description of NPSC
MAX option
MAXARRAYBYTES= option
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
MAXFLOW option "PROC NETFLOW Statement"
Maximal flow problem "PROC NETFLOW Statement"
Maximal flow problem "PROC NETFLOW Statement"
Maximal flow problem "PROC NETFLOW Statement"
Maximal flow problem "PROC NETFLOW Statement"
MAXIMIZE option
MAXIT1= option "PIVOT Statement"
MAXIT1= option "RESET Statement"
MAXIT2= option "PIVOT Statement"
MAXIT2= option "RESET Statement"
MAXIT2= option "RESET Statement"
MAXITERB= option
MAXL= option "RESET Statement"
MAXL= option "RESET Statement"
MAXLUUPDATES= option "RESET Statement"
MAXLUUPDATES= option "RESET Statement"
MEMREP option "PROC NETFLOW Statement"
MEMREP option "PROC NETFLOW Statement"
MEMREP option "PROC NETFLOW Statement"
MF option
MINBLOCK1= option
MINFLOW statement
Minimum flow problam
MISC option;SHOW statement
Missing S Supply and Missing D Demand
MLUU= option
MOREOPT option
multicommodity problems
Multiple arcs
NAME statement "COLUMN Statement"
NAME statement "COST Statement"
NAME statement "Input Data Sets"
NAME statement "LO Statement"
NAME statement "NAME Statement"
NAME statement "PRINT Statement"
NAME statement "PROC NETFLOW Statement"
NAME statement "PROC NETFLOW Statement"
NAMECTRL= option "NAME Statement"
NAMECTRL= option "PROC NETFLOW Statement"
NARCS= option
NCOEFS= option
NCONS= option
NETFLOW statement "Getting Started"
NETFLOW statement "Interactivity"
NETFLOW statement "PROC NETFLOW Statement"
NETFLOW statement Interior Point Algorithm "Linear Programming Models: Interior Point Algorithm"
NETFLOW statement Interior Point Algorithm "Network Models: Interior Point Algorithm"
network problems
network problems Interior Point Algorithm
network programming problem with side constraints
NNAS= option
NNODES= option
NOBIGM1 option
NOBIGM2 option
NODE statement "NODE Statement"
NODE statement "Output Data Sets"
NODE statement "SUPDEM Statement"
NODEDATA= data set "Getting Started"
NODEDATA= data set "Network Models: Interior Point Algorithm"
NODEDATA= option "Getting Started"
NODEDATA= option "Interactivity"
NODEDATA= option "Introductory Example"
NODEDATA= option "Network Models: Interior Point Algorithm"
NODEDATA= option "Network Models: Interior Point Algorithm"
NODEDATA= option "NODE Statement"
NODEDATA= option "PROC NETFLOW Statement"
NODEDATA= option "PROC NETFLOW Statement"
NODEDATA= option "PROC NETFLOW Statement"
NODEDATA= option "PROC NETFLOW Statement"
NODEDATA= option "RESET Statement"
NODEDATA= option "SUPDEM Statement"
NODEDATA= option "Warm Starts"
NODEOUT= option "Getting Started"
NODEOUT= option "Output Data Sets"
NODEOUT= option "Output Data Sets"
NODEOUT= option "PROC NETFLOW Statement"
NODEOUT= option "RESET Statement"
NODEOUT= option "RESET Statement"
NODEOUT= option "RESET Statement"
NODEOUT= option "RESET Statement"
NODEOUT= option "Warm Starts"
NOENDPAUSE1 option
NOEP1 option
NOFEASIBLEPAUSE1 option
NOFEASIBLEPAUSE2 option
NOFP1 option
NOFP2 option
NOFUTURE1 option
NOFUTURE2 option
NOINTFIRST option
NOLRATIO1 option
NOLRATIO2 option
nonarc variable
nonarc variables
NON_REPLIC= option
NOPERTURB1 option
NOSCRATCH option
NOTWOPHASE1 option
NOTWOPHASE2 option
NOUT= option
NOZTOL1 option
NOZTOL2 option
NPSC
OBJFN statement
options classified by function "Functional Summary"
options classified by function "PROC NETFLOW Statement"
options classified by function "RESET Statement"
options classified by function Interior Point Algorithm "Linear Programming Models: Interior Point Algorithm"
options classified by function Interior Point Algorithm "Network Models: Interior Point Algorithm"
_ORNETFL macro variable "PROC NETFLOW"
_ORNETFL macro variable "PROC NETFLOW"
_ORNETFL macro variable "PROC NETFLOW"
Output data sets "Output Data Sets"
Output data sets "PROC NETFLOW Statement"
Overview
P1NPARTIAL= option
P1SCAN=BEST option
P1SCAN=FIRST option
P2NPARTIAL= option
P2SCAN=ANY
P2SCAN=BEST option
P2SCAN=FIRST option
PAUSE option;SHOW statement
PAUSE1= option
PAUSE2= option
PDGAPTOL= option
PDSTEPMULT= option
PERTURB1 option
PIVOT statement "Interactivity"
PIVOT statement "Linear Programming Models: Interior Point Algorithm"
PIVOT statement "Network Models: Interior Point Algorithm"
PIVOT statement "PIVOT Statement"
preprocessing
PRICETYPE1=BLAND
PRICETYPE1=NOQ
PRICETYPE2=BLAND
PRICETYPE2=NOQ
PRICETYPEx= option "Pricing Strategies"
PRICETYPEx= option "RESET Statement"
PRICETYPEx=BLAND
PRICETYPEx=NOQ
PRICETYPEx=Q
PRICING option;SHOW statement
Pricing Strategies
PRINT statement "Interactivity"
PRINT statement "Linear Programming Models: Interior Point Algorithm"
PRINT statement "Network Models: Interior Point Algorithm"
PRINT statement "PRINT Statement"
PRINT statement cautions
proportional constraints "Introductory Example"
proportional constraints "Side Constraints"
PRSLTYPE= option
PxNPARTIAL= option "Pricing Strategies"
PxNPARTIAL= option "RESET Statement"
PxNPARTIAL= option, PRICETYPEx=NOQ
PxSCAN= option
PxSCAN= option, PRICETYPEx=NOQ
PxSCAN= option, PRICETYPEx=Q
Q1FILLNPARTIAL= option
Q1FILLSCAN= option
Q1FILLSCAN=BEST
Q1FILLSCAN=FIRST
Q2FILLNPARTIAL= option
Q2FILLSCAN= option
Q2FILLSCAN=BEST
Q2FILLSCAN=FIRST
QSIZE1= option
QSIZE2= option
QSIZEx= option "Pricing Strategies"
QSIZEx= option "RESET Statement"
QUIT statement "Interactivity"
QUIT statement "Linear Programming Models: Interior Point Algorithm"
QUIT statement "Network Models: Interior Point Algorithm"
QUIT statement "QUIT Statement"
QxFILLNPARTIAL= option "Pricing Strategies"
QxFILLNPARTIAL= option "RESET Statement"
QxFILLSCAN= option "Pricing Strategies"
QxFILLSCAN= option "RESET Statement"
RCHOLTINYTOL= option
RDENSETHR= option
Reduced Costs "Dual Variables, Reduced Costs, and Status"
Reduced Costs "Pricing Strategies"
REDUCEQSIZE1= option
REDUCEQSIZE2= option
REDUCEQSIZEx= option "Pricing Strategies"
REDUCEQSIZEx= option "RESET Statement"
REDUCEQx= option
REFACTFREQ= option "RESET Statement"
REFACTFREQ= option "RESET Statement"
REFRESHQ1= option
REFRESHQ2= option
REFRESHQx= option "Pricing Strategies"
REFRESHQx= option "RESET Statement"
RELEVANT option;SHOW statement
RESET statement "Getting Started"
RESET statement "Interactivity"
RESET statement "Linear Programming Models: Interior Point Algorithm"
RESET statement "Network Models: Interior Point Algorithm"
RESET statement "RESET Statement"
RFF= option
RHS statement "Input Data Sets"
RHS statement "Output Data Sets"
RHS statement "RHS Statement"
RHSOBS= option "COLUMN Statement"
RHSOBS= option "Input Data Sets"
RHSOBS= option "PROC NETFLOW Statement"
ROW statement "COEF Statement"
ROW statement "Input Data Sets"
ROW statement "Output Data Sets"
ROW statement "ROW Statement"
ROW statement "VAR Statement"
RPDGAPTOL= option
RPDSTEPMULT= option
RTOLDINF= option
RTOLPINF= option
RUN statement "Interactivity"
RUN statement "Linear Programming Models: Interior Point Algorithm"
RUN statement "Network Models: Interior Point Algorithm"
RUN statement "RUN Statement"
SAME_NONARC_DATA option
SAVE statement "Getting Started"
SAVE statement "Interactivity"
SAVE statement "Linear Programming Models: Interior Point Algorithm"
SAVE statement "Network Models: Interior Point Algorithm"
SAVE statement "RESET Statement"
SAVE statement "RESET Statement"
SAVE statement "RESET Statement"
SAVE statement "RESET Statement"
SAVE statement "SAVE Statement"
SCALE= option
SCDATA option
SCRATCH option "CONOPT Statement"
SCRATCH option "RESET Statement"
SCRATCH option "SHOW Statement"
SET statement
Shortest path problem "Example 4.1: Shortest Path Problem"
Shortest path problem "PROC NETFLOW Statement"
Shortest path problem "PROC NETFLOW Statement"
Shortest path problem "PROC NETFLOW Statement"
SHORTPATH option "Example 4.1: Shortest Path Problem"
SHORTPATH option "PROC NETFLOW Statement"
SHORTPATH option "PROC NETFLOW Statement"
SHORTPATH option "PROC NETFLOW Statement"
SHORTPATH option "PROC NETFLOW Statement"
SHORTPATH option "PROC NETFLOW Statement"
SHOW statement "Interactivity"
SHOW statement "Linear Programming Models: Interior Point Algorithm"
SHOW statement "Network Models: Interior Point Algorithm"
SHOW statement "RESET Statement"
SHOW statement "SHOW Statement"
SHOW statement;DATA SETS option "SAVE Statement"
SHOW statement;DATA SETS option "SHOW Statement"
SHOW statement;MISC option
SHOW statement;PAUSE option
SHOW statement;PRICING option
SHOW statement;RELEVANT option
SHOW statement;SIMPLEX option
SHOW statement;STAGE option
SHOW statement;STATUS option
side constraints "Mathematical Description of NPSC"
side constraints "Nonarc Variables"
side constraints "Side Constraints"
SIMPLEX option;SHOW statement
SINK= option "Example 4.1: Shortest Path Problem"
SINK= option "PROC NETFLOW Statement"
SINK= option "PROC NETFLOW Statement"
SINK= option "PROC NETFLOW Statement"
SINK= option "PROC NETFLOW Statement"
SINK= option "PROC NETFLOW Statement"
SINK= option "PROC NETFLOW Statement"
SND option
SOURCE= option "PROC NETFLOW Statement"
SOURCE= option "PROC NETFLOW Statement"
SOURCE= option "PROC NETFLOW Statement"
SOURCE= option "PROC NETFLOW Statement"
SOURCE= option "PROC NETFLOW Statement"
SOURCE= option "PROC NETFLOW Statement"
SP option
SP2 option
Sparse input format "Case Sensitivity"
Sparse input format "COEF Statement"
Sparse input format "COLUMN Statement"
Sparse input format "Example 4.6: Adding Side Constraints, Using a Warm Start"
Sparse input format "Getting Started"
Sparse input format "How to Make the Data Read of PROC NETFLOW More Efficient"
Sparse input format "How to Make the Data Read of PROC NETFLOW More Efficient"
Sparse input format "Input Data Sets"
Sparse input format "Linear Programming Models: Interior Point Algorithm"
Sparse input format "Linear Programming Models: Interior Point Algorithm"
Sparse input format "Network Models: Interior Point Algorithm"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "PROC NETFLOW Statement"
Sparse input format "ROW Statement"
Sparse input format "Side Constraints"
Sparse input format "TYPE Statement"
SPARSECONDATA option "Input Data Sets"
SPARSECONDATA option "PROC NETFLOW Statement"
SPARSEP2 option
Special rows "COEF Statement"
Special rows "Input Data Sets"
Special rows "Input Data Sets"
Special rows "TYPE Statement"
STAGE option;SHOW statement
stages "CONOPT Statement"
stages "Getting Started"
stages "Pricing Strategies"
stages "Reasons for Infeasibility"
stages "RESET Statement"
stages Interior Point Algorithm "Linear Programming Models: Interior Point Algorithm"
stages Interior Point Algorithm "Network Models: Interior Point Algorithm"
Status
STATUS option;SHOW statement
Summary of PRINT Options
Summary of PROC NETFLOW Options "Functional Summary"
Summary of PROC NETFLOW Options "PROC NETFLOW Statement"
Summary of PROC NETFLOW Options Interior Point Algorithm
Summary of PROC NETFLOW Options: Interior Point Algorithm
Summary of RESET Statement Options
Summary of SAVE Options
Summary of SHOW Options
SUPDEM statement "Missing S Supply and Missing D Demand Values"
SUPDEM statement "Output Data Sets"
SUPDEM statement "SUPDEM Statement"
SUPPLY= option "PROC NETFLOW Statement"
SUPPLY= option "PROC NETFLOW Statement"
SUPPLY statement "Missing S Supply and Missing D Demand Values"
SUPPLY statement "SUPPLY Statement"
Syntax
Syntax Interior Point Algorithm
syntax skeleton
table of syntax elements "Functional Summary"
table of syntax elements "PROC NETFLOW Statement"
table of syntax elements "RESET Statement"
table of syntax elements Interior Point Algorithm "Linear Programming Models: Interior Point Algorithm"
table of syntax elements Interior Point Algorithm "Network Models: Interior Point Algorithm"
TAIL statement
TAILNODE statement "Example 4.1: Shortest Path Problem"
TAILNODE statement "NODE Statement"
TAILNODE statement "SUPPLY Statement"
TAILNODE statement "TAILNODE Statement"
THRUNET option "Missing S Supply and Missing D Demand Values"
THRUNET option "PROC NETFLOW Statement"
TO statement "HEADNODE Statement"
TO statement "HEADNODE Statement"
TO statement "PRINT Statement"
TOLDINF= option
TOLPINF= option
TONODE statement
TWOPHASE1 option
TWOPHASE2 option
TYPE statement "Input Data Sets"
TYPE statement "Output Data Sets"
TYPE statement "TYPE Statement"
TYPEOBS= option "COLUMN Statement"
TYPEOBS= option "Input Data Sets"
TYPEOBS= option "PROC NETFLOW Statement"
U= option "RESET Statement"
U= option "RESET Statement"
UPPERBD statement
VAR statement "Input Data Sets"
VAR statement "PROC NETFLOW Statement"
VAR statement "TYPE Statement"
VAR statement "VAR Statement"
VAR statement "VAR Statement"
VARNAME statement
VERBOSE= option
WARM option "Example 4.5: Using an Unconstrained Solution Warm Start"
WARM option "PROC NETFLOW Statement"
WARM option "Warm Starts"
Warm starts "Example 4.3: Using a Warm Start"
Warm starts "Example 4.5: Using an Unconstrained Solution Warm Start"
Warm starts "Getting Started"
Warm starts "Pricing Strategies"
Warm starts "PROC NETFLOW Statement"
Warm starts "PROC NETFLOW Statement"
Warm starts "RESET Statement"
Warm starts "Warm Starts"
Warm starts "Warm Starts"
Working basis matrix "PROC NETFLOW Statement"
Working basis matrix "PROC NETFLOW Statement"
Working basis matrix "PROC NETFLOW Statement"
Working basis matrix "RESET Statement"
Working basis matrix "The Working Basis Matrix"
Z1= option
Z2= option
ZERO1= option
ZERO2= option
ZEROTOL= option
ZTOL1 option
ZTOL2 option
NETFLOW procedure Interior Point Algorithm
syntax skeleton
NETFLOW statement
NETFLOW procedure "Getting Started"
NETFLOW procedure "Interactivity"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW statement Interior Point Algorithm
NETFLOW procedure "Linear Programming Models: Interior Point Algorithm"
NETFLOW procedure "Network Models: Interior Point Algorithm"
network problems
NETFLOW procedure
network problems Interior Point Algorithm
NETFLOW procedure
network programming problem with side constraints
NETFLOW procedure
NEWRAP option
Newton-Raphson
NLINCON Statement
NLP procedure
Absolute Function Convergence
Absolute Gradient Convergence
Absolute Parameter Convergence
Absolute Singularity Criterion
accurate digits in Nonlinear Constraints
accurate digits in Objective Function
alt. relative gradient convergence
Best Grid Points
BOUNDS statement
BY statement
checking gradient computation
CRPJAC statement
DECVAR statement
finite difference option
formula for computing Covariance matrix
Function Convergence
functional summary
GRADIENT statement
Hessian initial estimate
Hessian Scaling
HESSIAN statement
Hessian update method
INCLUDE statement
initial step size for line-search
initial values
JACNLC statement
JACOBIAN statement
LABEL statement
LINCON statement
line-search method
LSQ statement
MATRIX statement
MAX statement
max. number of function calls
max. number of iterations
MIN statement
NLC statement
NLINCON statement
optimization technique
options classified by function
overview
Parameters for profile confidence limits
PARAMETERS statement
PARMS statement
predicted reduction convergence
print all
print covariance matrix
print function values
print optimization histroy
print supress
PROC NLP statement
PROFILE statement
PROGRAM statement
relative function convergence
relative gradient convergence
Relative Parameter Convergence
Relative Singularity Criterion "PROC NLP Statement"
Relative Singularity Criterion "PROC NLP Statement"
restrict output
restrict output to short form
second order finite differences
Sparsity Structure in quadratic opt.
table of syntax elements
threshold for eigenvalues
time limit
VAR statement
NMSIMP option
NNAS= option
NETFLOW procedure
PROC NETFLOW statement
NNODES= option
NETFLOW procedure
PROC NETFLOW statement
_NNUMB_ variable
NODEDATA data set (NETFLOW)
NODEOUT and DUALOUT data sets (NETFLOW)
NOAUTO option
LP procedure
PROC LP statement
NOBIGM1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOBIGM2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOBINFST option
LP procedure
PROC LP statement
NODE statement
NETFLOW procedure "NODE Statement"
NETFLOW procedure "Output Data Sets"
NETFLOW procedure "SUPDEM Statement"
NODEDATA= data set
NETFLOW procedure "Getting Started"
NETFLOW procedure "Network Models: Interior Point Algorithm"
NODEDATA= option
NETFLOW procedure "Getting Started"
NETFLOW procedure "Interactivity"
NETFLOW procedure "Introductory Example"
NETFLOW procedure "Network Models: Interior Point Algorithm"
NETFLOW procedure "Network Models: Interior Point Algorithm"
NETFLOW procedure "NODE Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "RESET Statement"
NETFLOW procedure "SUPDEM Statement"
NETFLOW procedure "Warm Starts"
PROC NETFLOW statement
NODEOUT= option
NETFLOW procedure "Getting Started"
NETFLOW procedure "Output Data Sets"
NETFLOW procedure "Output Data Sets"
NETFLOW procedure "PROC NETFLOW Statement"
NETFLOW procedure "RESET Statement"
NETFLOW procedure "RESET Statement"
NETFLOW procedure "RESET Statement"
NETFLOW procedure "RESET Statement"
NETFLOW procedure "Warm Starts"
PROC NETFLOW statement
PROC NETFLOW, RESET, or SAVE statement
NODEVEX option
LP procedure
PROC LP statement
_NODE_ variable
NODEDATA data set (NETFLOW)
NODEOUT and DUALOUT data sets (NETFLOW)
NOEIGNUM
PROC NLP statement
NOENDPAUSE option
LP procedure
PROC LP statement
NOENDPAUSE1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOEP1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFEASIBLEPAUSE option
LP procedure
PROC LP statement
NOFEASIBLEPAUSE1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFEASIBLEPAUSE2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFLOW option
LP procedure
PROC LP statement
NOFP1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFP2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFUTURE1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOFUTURE2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOINTFIRST option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOLRATIO1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOLRATIO2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOMISS
PROC NLP statement
nonarc variable
NETFLOW procedure
nonarc variables
NETFLOW procedure
NONE option
NONINTEGER option
PRINT statement (LP)
NONINTEGER_NONZEROS option
PRINT statement (LP)
NONINTEGER_NONZEROSoption
PRINT statement (LP)
NonLinear Constraints
NLC Statement "DECVAR Statement"
NLC Statement "NLINCON Statement"
NLINCON Statement "DECVAR Statement"
NLINCON Statement "NLINCON Statement"
Nonlinearly Constrained Optimization
NONZEROS option
PRINT statement (LP)
NON_REPLIC= option
NETFLOW procedure
PROC NETFLOW statement
NOP
PROC NLP statement
NOPARAPRINT option
LP procedure
PROC LP statement
NOPERTURB1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOPOSTPROCESS option
LP procedure
PROC LP statement
NOPREPROCESS option
LP procedure
PROC LP statement
NOPRINT
PROC NLP statement
NOPRINT option
LP procedure
PROC LP statement
NORANGEPRICE option
LP procedure
PROC LP statement
NORANGERHS option
LP procedure
PROC LP statement
NOSCRATCH option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOTABLEAUPRINT option
LP procedure
PROC LP statement
NOTWOPHASE1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOTWOPHASE2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOUT= option
NETFLOW procedure
PROC NETFLOW, RESET, or SAVE statement
NOZTOL1 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NOZTOL2 option
NETFLOW procedure
PROC NETFLOW, or RESET statement
NPSC
NETFLOW procedure
NRRIDG option

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Master Index
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