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         Linear Programming:     more books (100)
  1. Linear Genetic Programming (Genetic and Evolutionary Computation) by Markus F. Brameier, Wolfgang Banzhaf, 2010-11-02
  2. Methods and applications of linear programming by Leon Cooper, 1974
  3. Direct Methods for Sparse Linear Systems (Fundamentals of Algorithms) by Timothy A. Davis, 2006-09-15
  4. Theory and Application of the Linear Model (Duxbury Classic) by Franklin A. Graybill, 2000-03-27
  5. Model Building in Mathematical Programming, 4th Edition by H. P. Williams, 1999-10-14
  6. Introduction to Practical Linear Programming by David J. Pannell, 1996-09
  7. 50 Years of Integer Programming 1958-2008: From the Early Years to the State-of-the-Art
  8. Integer Programming by Laurence A. Wolsey, 1998-09-09
  9. Linear Programming by G. Hadley, 1963
  10. Integer Programming and Network Models by H.A. Eiselt, C.-L. Sandblom, 2010-11-02
  11. Extending the Linear Model with R: Generalized Linear, Mixed Effects and Nonparametric Regression Models (Chapman & Hall/CRC Texts in Statistical Science) by Julian J. Faraway, 2005-12-20
  12. Dynamic Programming: Foundations and Principles, Second Edition (Pure and Applied Mathematics) by Moshe Sniedovich, 2010-09-10
  13. Mathematical Programming: Structures and Algorithms by Jeremy F. Shapiro, 1979-12-05
  14. Applied Linear Programming for Socioeconomic and Environmental Sciences (Operations research and industrial engineering) by M.R. Greenberg, 1978-11

81. CS 525 - Linear Programming Methods
CS 525 linear programming Methods. General Course Information. This course isoffered each Fall and Spring semester. CS 525 Pages of the Various Instructors.
http://www.cs.wisc.edu/areas/math-prog/cs525-all.html
CS 525 - Linear Programming Methods
General Course Information
This course is offered each Fall and Spring semester.
CS 525 Pages of the Various Instructors
Graduate MP Courses at Wisconsin
Last modified: January 25, 1996

82. Linear Programming
3.9.9 linear programming. FindMinimum can find local minima for arbitrary functions. Linearprogramming provides a way to do this for linear functions.
http://documents.wolfram.com/v4/MainBook/3.9.9.html
Documentation Mathematica The Mathematica Book Advanced Mathematics in ... Numerical Operations on Functions All Documentation Mathematica 4 Documentation
The Mathematica Book
Built-in Functions Getting Started Add-ons ... For More Information
3.9.9 Linear Programming FindMinimum can find local minima for arbitrary functions. In solving optimization problems, it is however often important to be able to find global maxima and minima.
Linear programming provides a way to do this for linear functions. In general, linear programming allows you to find the global minimum or maximum of any linear function subject to a set of constraints defined by linear inequalities.
For a function of variables, the constraints effectively define a region in -dimensional space. Each linear inequality gives a plane in -dimensional space which forms one of the sides of the region. Solving linear optimization problems. The functions ConstrainedMax and ConstrainedMin allow you to specify an "objective function" to maximize or minimize, together with a set of linear constraints on variables. Mathematica assumes in all cases that the variables are constrained to have non-negative values.

83. Dantzig, G.: Linear Programming And Extensions.
of the book linear programming and Extensions by Dantzig, G., publishedby Princeton University Press. linear programming and Extensions.......
http://pup.princeton.edu/titles/413.html
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Linear Programming and Extensions
George B. Dantzig
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Endorsements Table of Contents In real-world problems related to finance, business, and management, mathematicians and economists frequently encounter optimization problems. In this classic book, George Dantzig looks at a wealth of examples and develops linear programming methods for their solutions. He begins by introducing the basic theory of linear inequalities and describes the powerful simplex method used to solve them. Treatments of the price concept, the transportation problem, and matrix methods are also given, and key mathematical concepts such as the properties of convex sets and linear vector spaces are covered. Endorsement: "The author of this book was the main force in establishing a new mathematical discipline, and he has contributed to its further development at every stage and from every angle. This volume ... is a treasure trove for those who work in this fieldteachers, students, and users alike. Its encyclopaedic coverage, due in part to collaboration with other experts, makes it an absolute must."S. Vajda, Table of Contents Series: Subject Areas: VISIT OUR MATH WEBSITE Hardcover published in 1963
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84. Linear Programming
. The linear programming module (SIMPLEX) isdesigned to solve small scale linear programming problems.......linear programming.
http://www.additive-net.de/software/gauss/module/linearprogramming.shtml
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Linear Programming
Description The Linear Programming module (SIMPLEX) is designed to solve small scale linear programming problems. Features
  • Upper and lower finite bounds can be provided for variables and constraints
  • Problem type (minimization or maximization)
  • Choice of tolerances
  • Pivoting rules
  • Output can be adjusted using global variables
Computes
  • The value of the variables and the objective function upon termination, and returns the dual variables
  • State of each constraint
  • Uniqueness and quality of solution
  • Multiple optimal solutions if they exist
  • Number of iterations required
  • A final basis
  • Can generate iterations log and/or final report, if requested.
SIMPLEX can be initialized with a starting value, such as the solution to a previous problem which is similar to the one being solved. This feature can dramatically reduce the number of iterations required to find a feasible starting point.
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85. Linear Programming
linear programming. The goal of linear programming is to find the place within thefeasibility region where the value of the function is highest or lowest.
http://www.explorelearning.com/gizmos/math/LinearProgramming.htm
Home
Gizmos Math Linear Programming
Introduction
Why use Gizmos? With this Gizmo, you will experiment with finding the maximum (or minimum) value of a linear equation in two variables subject to linear constraint inequalities. Are there any general rules governing where the maximum or minimum can occur? Lets find out.
Linear Programming
Exploration Guide
In the upper left corner of the Gizmo is a function in x and y. This is the function that you are going to extremize in order to find the places where the function value is at its maximum and minimum. When we need to extremize a function, there are usually practical constraints on x and y that limit which (x,y) coordinates we can choose from. For instance, if x represents the time to spend on a particular task, you might have a constraint of 'x cannot be negative', or if y represents the cost of producing a product, you might have a constraint of 'y cannot exceed 10.00.' More complicated constraints relate x and y to one another, such as 'x + y is less than 16.' Taken together, these constraints describe a

86. Linear Programming
Selected topics in linear programming, including problem formulation checklist,sensitivity analysis, binary variables, simulation, useful functions, and
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Operations / Linear Programming Linear Programming Topics Linear programming is a quantitative analysis technique for optimizing an objective function given a set of constraints. As the name implies, the functions must be linear in order for linear programming techniques to be used. Problem Formulation Checklist The objective function and constraints are formulated from information extracted from the problem statement. The following checklist is useful for minimizing the risk of errors in problem formulation.
  • Every number in problem statement should be either implemented in the formulation or rejected as irrelevant, e.g. sunk costs. Don't forget any initial conditions, e.g. initial staff on hand at beginning of first staffing period. Ensure every variable in the objective function is listed somewhere in the constraints. Ensure that any non-negativity constraints are listed.
  • 87. Full Index For Scripted CPS615-Linear Programming And Whirlwind Full Matrix Disc
    CPS615linear programming and Whirlwind Full Matrix Discussion. Table of Contentsfor CPS615-linear programming and Whirlwind Full Matrix Discussion.
    http://www.npac.syr.edu/users/gcf/cps615dec596/
    Foilset Search Full Index for Scripted foilset
    CPS615-Linear Programming and Whirlwind Full Matrix Discussion
    Given by Geoffrey C. Fox at Delivered Lectures of CPS615 Basic Simulation Track for Computational Science on 5 Decemr 96 Foils prepared 29 December 1996
    Secs 66.2 This lecture covers two distinct areas. Firstly a short discussion of LInear Programming what type of problems its used for, what the equations look like and basic issues in the difficult use of parallel processing Then we give an abbreviated discussion of Full Matrix algorithms covering
    • The types of applications that use them
    • Matrix Multiplication including Cannon's algorithm in detail
    • Use of MPI primitives including communicator groups
    • Performance Analysis
    This mixed presentation uses parts of the following base foilsets which can also be looked at on their own! Master Set of Foils for 1996 Session of CPS615
    CPS713 Lectures on Practical Optimization Methods 1994-1996

    Parallel Full Matrix Algorithms
    Table of Contents for CPS615-Linear Programming and Whirlwind Full Matrix Discussion
    There are two types of foils html and image which are each available in basic and JavaScript enabled "focused" style
    (basic: )(focus style: ) Denote Foils where Image Critical
    (basic: )(focus style: ) Denote Foils where HTML is sufficient
    (basic: (focus style: ) Denote Foils where Image is not available
    Indicates Available audio which is greyed out if missing CPS 615 Lectures 1996 Fall Semester December 5 1996
    Delivered Lectures for CPS615 Base Course for the Simulation Track of Computational Science

    88. Myths And Counterexamples
    back soon. linear programming; Mixed Integer Programming; NonlinearProgramming. linear programming LP Min cx x = 0, Ax = b. x is
    http://carbon.cudenver.edu/~hgreenbe/myths/myths.html
    You have reached http://www.cudenver.edu/~hgreenbe/myths/myths.html
    Myths and Counterexamples in Mathematical Programming
    by Harvey J. Greenberg
    This has counterexamples to some mathematical statements that seem plausible. It serves as useful teaching material, and is referenced by my Mathematical Programming Glossary Comments and/or contributions welcome (click on my name). The following categories will expand, so come back soon.
  • Linear Programming
  • Mixed Integer Programming
  • Nonlinear Programming
    Linear Programming
    x is a column n-vector, c is a row n-vector, A is m by n matrix, b is column m-vector.
  • Redundancy
  • Break points
  • Dual price
  • Max flow = Min cut ... Jump to beginning
    Myth LP-1. All redundant constraints can be removed. Click here for explanation.
    Myth LP-2. direction of the RHS change. Then, z is piece-wise linear, where the break-points occur wherever there must be a basis change. Click here for explanation.
    Myth LP-3. Suppose LP is solved and p(i) is the dual price associated with the i-th constraint, A(i,.)x = b(i). Then, the same solution is obtained when removing the constraint and adding p(i)A(i,.)x to the objective. Click here for explanation.
  • 89. Test-Problem Collection For Stochastic Linear Programming
    Test Set for Stochastic linear programming.
    http://www.uwsp.edu/math/afelt/slptestset.html
    Test-Problem Collection for Stochastic Linear Programming
    Andy Felt , ed.
    Department of Mathematics and Computing

    University of Wisconsin-Stevens Point
    Brief Description
    This is a modern test-problem collection for stochastic programming, with emphasis on a close connection between the test problems and their associated real world applications. The problem descriptions were collected from the literature, with focus on variety of problem structure and application. Each of the 11 problems has a short description, mathematical problem statement, and notational reconciliation to a standard problem format. In addition, there are 21 specific test cases with data in SMPS format. The test set is expanding. Indeed, submissions of new problems and descriptions from colleagues are encouraged.
    Visit the Download Page
    You are welcome to freely download any and all of the test cases.
    Please Contribute
    I would love to expand the test set. If you would like to submit a problem, please email me the following:
  • Data files in SMPS format A written description in LaTeX, following the format of the other written descriptions. (See the
  • 90. Linear Programming
    Course Objectives Offer a thorough coverage of linear programming. Recommendedreadings are linear programming and Extensions by Dantzig.
    http://archimedes.scs.uiuc.edu/courses/lp.html
    IE 309: Optimization of Large-Scale Linear Systems Instructor: Nick Sahinidis (nikos@uiuc.edu) Course Objectives: Offer a thorough coverage of Linear Programming. Topics covered:
    • Fundamentals: Linear Algebra, Polyhedral Theory, Duality Algorithms: Simplex, interior point methods, decomposition, subgradient optimization Numerical stability and other implementation issues Software: OSL, CPLEX, MINOS, GAMS.
    Text: There are no required texts for this course. Recommended readings are:
    • Linear Programming and Extensions by Dantzig. Linear Programming and Network Flows by Bazaraa, Jarvis and Sherali. Linear Optimization and Extensions. Theory and Algorithms by Fang and Puthenpura.
    Extensive additional material from research papers will be provided in class. A General Bibliography on Optimization is available here Credit: 3 hours or 3/4 or 1 unit. Course grade will be based on homework (33.3%) and two take home exams (33.3% each). Those taking the course for 1 unit will be required to complete a computational project accounting for 25% of their grade. Course Contents:
    • Linear Programming Models Linear Algebra and Polyhedral Theory Fundamental Properties of Linear Programs The Simplex Method Numerically Stable forms and other Implementation Issues Duality and Postoptimality Analysis Column Generation and Benders Decomposition Stochastic Linear Programming Lagrangian Relaxation Methods Projective Scaling, Primal and Dual Affine Scaling Methods

    91. Linear Programming - Wikipedia
    linear programming. From Wikipedia, the free encyclopedia. linear programmingis a technique used to solve problems that have many numeric constraints.
    http://www.wikipedia.org/wiki/Linear_programming
    Main Page Recent changes Edit this page Older versions Special pages Set my user preferences My watchlist Recently updated pages Upload image files Image list Registered users Site statistics Random article Orphaned articles Orphaned images Popular articles Most wanted articles Short articles Long articles Newly created articles All pages by title Blocked IP addresses Maintenance page External book sources Printable version Talk
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    Linear programming
    From Wikipedia, the free encyclopedia. Linear Programming is a technique used to solve problems that have many numeric constraints. Often these constraints have poorly defined relationships, and nobody knows how to find the best solution. In these cases, the best outcome is to find a good solution. Often the goal is to either minimise a cost or maximise a value. The relationships have to be defined mathematically, usually by inequalities. Sometimes more than one goal may be defined. In these cases, the goals are usually either prioritized, or weighted. Because techniques are limited, the constraints are usually described as linear inequalities. Mathematicians can handle lines. Graphically, a linear inequality is a line that relates two types of numbers on a graph. Every point on one side of the line is an impossible solution; it simply will not work. Every point on the other side represents a possible solution, but most of these will be wasteful. The points on the line are usually good solutions because they give the maximum result from a minimum of resource.

    92. Gadgets, Approximation, And Linear Programming
    Gadgets, Approximation, and linear programming. 804915 of how to prove theoptimality of gadgets linear programming duality gives such proofs.
    http://epubs.siam.org/sam-bin/dbq/article/32884
    SIAM Journal on Computing
    Volume 29, Number 6

    pp. 2074-2097
    Gadgets, Approximation, and Linear Programming
    Luca Trevisan, Gregory B. Sorkin, Madhu Sudan, David P. Williamson
    Abstract. We present a linear programming-based method for finding "gadgets," i.e., combinatorial structures reducing constraints of one optimization problem to constraints of another. A key step in this method is a simple observation which limits the search space to a finite one. Using this new method we present a number of new, computer-constructed gadgets for several different reductions. This method also answers a question posed by Bellare, Goldreich, and Sudan [ SIAM J. Comput., 27 (1998), pp. 804915] of how to prove the optimality of gadgets: linear programming duality gives such proofs. The new gadgets, when combined with recent results of Hå stad [ Proceedings of the th ACM Symposium on Theory of Computing SIAM J. Comput. J. ACM , 42 (1995), pp. 11151145]; U. Feige and M. X. Goemans [ Proceedings of the Third Israel Symposium on Theory of Computing and Systems , 1995, pp. 182189]) of .7704.

    93. KLUWER Academic Publishers | Linear Programming
    Books » linear programming Second Edition. linear programming Second EditionFoundations and Extensions. Add to cart. by Robert J. Vanderbei Dept.
    http://www.wkap.nl/prod/b/0-7923-7342-1
    Title Authors Affiliation ISBN ISSN advanced search search tips Books Linear Programming
    Second Edition
    Linear Programming Second Edition
    Foundations and Extensions

    Add to cart

    by
    Robert J. Vanderbei
    Dept. of Civil Engineering and Operations Research, Princeton University, NJ, USA
    Book Series: INTERNATIONAL SERIES IN OPERATIONS RESEARCH AND MANAGEMENT SCIENCE Volume 37
    Linear Programming: Foundations and Extensions is an introduction to the field of optimization. The book emphasizes constrained optimization, beginning with a substantial treatment of linear programming, and proceeding to convex analysis, network flows, integer programming, quadratic programming, and convex optimization. The book is carefully written. Specific examples and concrete algorithms precede more abstract topics. Topics are clearly developed with a large number of numerical examples worked out in detail. Moreover, Linear Programming: Foundations and Extensions underscores the purpose of optimization: to solve practical problems on a computer. Accordingly, the book is coordinated with free efficient C programs that implement the major algorithms studied:
    • The two-phase simplex method;

    94. KLUWER Academic Publishers | Linear Programming: Foundations And Extensions
    Books » linear programming Foundations and Extensions. linear programmingFoundations and Extensions. Add to cart. by Robert J. Vanderbei Dept.
    http://www.wkap.nl/prod/b/0-7923-8141-6
    Title Authors Affiliation ISBN ISSN advanced search search tips Books Linear Programming: Foundations and Extensions
    Linear Programming: Foundations and Extensions
    Add to cart

    by
    Robert J. Vanderbei
    Dept. of Civil Engineering and Operations Research, Princeton University, NJ, USA
    Book Series: INTERNATIONAL SERIES IN OPERATIONS RESEARCH AND MANAGEMENT SCIENCE Volume 4
    This book focuses largely on constrained optimization. It begins with a substantial treatment of linear programming and proceeds to convex analysis, network flows, integer programming, quadratic programming, and convex optimization. Along the way, dynamic programming and the linear complementarity problem are touched on as well.
    This book aims to be the first introduction to the topic. Specific examples and concrete algorithms precede more abstract topics. Nevertheless, topics covered are developed in some depth, a large number of numerical examples worked out in detail, and many recent results are included, most notably interior-point methods. The exercises at the end of each chapter both illustrate the theory, and, in some cases, extend it.
    Optimization is not merely an intellectual exercise: its purpose is to solve practical problems on a computer. Accordingly, the book comes with software that implements the major algorithms studied. At this point, software for the following four algorithms is available:

    95. Problem 8: Linear Programming: Strongly Polynomial?
    Problem 8 linear programming Strongly Polynomial? Statement Is linear programmingstrongly polynomial? Polynomial algorithm in linear programming.
    http://cs.smith.edu/~orourke/TOPP/P8.html
    Next: Problem 9: Edge-Unfolding Convex Up: The Open Problems Project Previous: Problem 7: k-sets

    Problem 8: Linear Programming: Strongly Polynomial?
    Statement
    Is linear programming strongly polynomial?
    Origin
    Uncertain, pending investigation.
    Status/Conjectures
    Open.
    Partial and Related Results
    It is known to be weakly polynomial, exponential in the bit complexity of the input data [ ]. Subexponential time is achievable via a randomized algorithm [ ]. In any fixed dimension, linear programming can be solved in strongly polynomial linear time (linear in the input size) [
    Appearances Categories
    linear programming
    Entry Revision History
    J. O'Rourke, 2 Aug. 2001.
    Bibliography
    M. E. Dyer.
    Linear time algorithms for two- and three-variable linear programs.
    SIAM J. Comput.
    N. Karmarkar.
    A new polynomial-time algorithm for linear programming.
    Combinatorica
    L. G. Khachiyan.
    Polynomial algorithm in linear programming.
    U.S.S.R. Comput. Math. and Math. Phys.
    N. Megiddo.
    Linear programming in linear time when the dimension is fixed.
    J. ACM

    96. GLPK - GNU Project - Free Software Foundation (FSF)
    Introduction to GLPK. GLPK (GNU linear programming Kit) is a set ofroutines written in ANSI C and organized in the form of a library.
    http://www.gnu.org/software/glpk/glpk.html
    GLPK
    Introduction Get the Software Documentation
    Mailing Lists/Newsgroups
    ...
    Introduction to GLPK
    GLPK ( G NU L inear P rogramming K it) is a set of routines written in ANSI C and organized in the form of a library. This package is intended for solving large-scale linear programming (LP), mixed integer linear programming (MIP), and other related problems. GLPK has the following main features:
    • implementation of the revised simplex method (based on sparse matrix technique, steepest edge pricing, and two-pass pivoting technique);
    • implementation of the primal-dual interior point method;
    • implementation of the branch-and-bound procedure (based on the dual simplex method);
    • application program interface (API).
    Please note that the current version of GLPK is tentative.
    Downloading GLPK
    GLPK distribution can be found on in the subdirectory /gnu/glpk/ on your favorite GNU mirror . For other ways to obtain GLPK, please read How to get GNU Software
    Documentation
    The documentation for GLPK is divided into the User's Guide and the Library Reference. The texinfo source for both of these are included in the main distribution file. Alternatively, already built Postscript versions can be found on in the same subdirectory as GLPK distribution.
    Mailing Lists/Newsgroups
    GLPK now has two mailing lists: and The main discussion list is , and is used to discuss all aspects of GLPK, including development and porting.

    97. Interactive Linear Programming: What Is LP?
    Interactive linear programming. with C =, Number of rows Number of columns linear programming What is LP Handbook Solver 2D Solver . RIOT HOME.
    http://ford.ieor.berkeley.edu/riot/Tools/InteractLP/GeneralSolverInput.html
    Interactive Linear Programming
    RIOT HOME

    Linear

    Programming

    What is LP?
    ...
    Linear Programming
    PLEASE ENTER THE DIMENSIONS OF YOUR PROBLEM
    Recall the standard linear program to be solved:
    (if you have some inequality constraints, click here
    NOTE: if a box is empty the value considered is 0.
    Min cx
    s.t. Ax=b
    and x
    Or, using vectors and matrices: Min cx Subject to: and X with C = Number of rows : Number of columns : Linear Programming What is LP Handbook Solver ... RIOT HOME

    98. NCSS Linear Programming Procedure
    linear programming. INTRODUCTION. LP page. linear programming PANEL.SAMPLE linear programming DATASET. SAMPLE linear programming OUTPUT.
    http://www.ncss.com/linprog.html
    HOME NCSS PASS ORDER ... CONTACT LINEAR PROGRAMMING INTRODUCTION LP maximizes a linear objective function subject to one or more constraints. The technique finds broad use in operations research and is occasionally of use in statistical work.
    [Back to Upgrade page]
    [Back to Example page] LINEAR PROGRAMMING PANEL SAMPLE LINEAR PROGRAMMING DATASET SAMPLE LINEAR PROGRAMMING OUTPUT [Back to Upgrade page] [Back to Example page] HOME NCSS ... CONTACT NCSS Statistical Software · 329 North 1000 East · Kaysville, Utah 84037
    Email: sales@ncss.com for sales or support@ncss.com for tech support
    Toll Free: (800) 898-6109 · Tel: (801) 546-0445 · Fax:(801) 546-3907

    99. Linear Programming
    next up previous contents Next What is LP? Up Frequently Asked Questions in PreviousWhat is the best Contents linear programming. Subsections What is LP?
    http://www.ifor.math.ethz.ch/~fukuda/polyfaq/node39.html
    Next: What is LP? Up: Frequently Asked Questions in Previous: What is the best Contents

    Linear Programming
    Subsections

    100. IFOR - Mysteries In Linear Programming - Komei Fukuda
    linear programming is an optimization problem, one of the simplest,mathematically. A standard formulation is to maximize a linear
    http://www.ifor.math.ethz.ch/im/38/index.en.html
    english - deutsch
    Visiting Professor, IFOR, ETH Zentrum,
    and on leave from University of Tsukuba, Tokyo, Japan
    Linear programming is an optimization problem, one of the simplest, mathematically. A standard formulation is to maximize a linear function c T x subject to a system of linear inequalities , where x is a variable n -vector, c and b are given n -vector and m -vector, and A is a given m × n matrix. The following figure illustrates a tiny example with n = 3 , where the set of feasible solutions forms a convex polytope in R
    Figur 1 Twenty years ago there was virtually no ambiguity in teaching a solving technique in standard Linear Programming lecture. We simply had to teach the simplex method [d-lpe-63], invented by G. Dantzig of Stanford University in 1951, period. Different geometric interpretations were perhaps the only sources of improvisation. In fact, it was widely believed that we could never beat the simplex method which then could already solve large-scale problems with several thousands variables and inequalities successfully. Now, every professor in charge of LP course is in a little trouble. The

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