Source: coinor-coinall Priority: extra Maintainer: Aramian Wasielak Build-Depends: debhelper (>= 5), autotools-dev, dpatch, cdbs, pvm-dev, xmlto, texlive-latex-base, xmltex, doxygen, texlive-latex-extra, latex2html, glpk Standards-Version: 3.7.2 Section: libs Homepage: http://www.coin-or.org/ Package: coinor-libalps-dev Section: libdevel Architecture: i386 Depends: coinor-libalps0 (= ${Source-Version}) Description: COIN-OR Alps library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Alps is a framework for implementing parallel graph search algorithms. Its methodology generalizes many of the notions of an LP-based branch-and-bound algorithm, allowing the implementation of a wide range of algorithms with a simplified interface. Alps implements the search handling methods required for implementing large-scale, data-intensive parallel search algorithms, such as those used for solving discrete optimization problems. It is the base layer of the Cops (COIN Open Parallel Search Framework) library hierarchy that will includes a library for solving mixed integer linear programs (Blis). Package: coinor-libalps0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Alps library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Alps is a framework for implementing parallel graph search algorithms. Its methodology generalizes many of the notions of an LP-based branch-and-bound algorithm, allowing the implementation of a wide range of algorithms with a simplified interface. Alps implements the search handling methods required for implementing large-scale, data-intensive parallel search algorithms, such as those used for solving discrete optimization problems. It is the base layer of the Cops (COIN Open Parallel Search Framework) library hierarchy that will includes a library for solving mixed integer linear programs (Blis). Package: coinor-libbcp-dev Section: libdevel Architecture: i386 Depends: coinor-libbcp0 (= ${Source-Version}) Description: COIN-OR Branch-Cut-Price (BCP) library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . BCP is a parallel framework for implementing branch, cut, and price algorithms for solving mixed integer programs (MIPs). BCP provides the user with an object-oriented framework that can be used to develop an efficient problem class specific MIP solver without all the implementational effort. involved with implementing a branch and bound framework from scratch. Package: coinor-libbcp0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Branch-Cut-Price (BCP) library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . BCP is a parallel framework for implementing branch, cut, and price algorithms for solving mixed integer programs (MIPs). BCP provides the user with an object-oriented framework that can be used to develop an efficient problem class specific MIP solver without all the implementational effort. involved with implementing a branch and bound framework from scratch. Package: coinor-libbcps-dev Section: libdevel Architecture: i386 Depends: coinor-libbcps0 (= ${Source-Version}) Description: COIN-OR Bcps library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Bcps is one of the libraries that make up the Cops (COIN Open Parallel Search Framework) library hierarchy. . Bcps implements that data-handling functions needed to support development of many types of relaxation-based branch-and-bound algorithms, especially for solving mathematical programs. It is intended to capture the implementation of methods common to all such algorithms without assuming anything about the structure of the mathematical program or the bounding method used. Package: coinor-libbcps0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Bcps library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Bcps is one of the libraries that make up the Cops (COIN Open Parallel Search Framework) library hierarchy. . Bcps implements that data-handling functions needed to support development of many types of relaxation-based branch-and-bound algorithms, especially for solving mathematical programs. It is intended to capture the implementation of methods common to all such algorithms without assuming anything about the structure of the mathematical program or the bounding method used. Package: coinor-libblis-dev Section: libdevel Architecture: i386 Depends: coinor-libblis0 (= ${Source-Version}) Description: COIN-OR BiCePS Linear Integer Solver (BLIS) -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . BLIS is one of the libraries that make up the Cops (COIN Open Parallel Search Framework) library hierarchy. . The BiCePS Linear Integer Solver (BLIS) is a concretization of the BiCePS layer for solving mixed-integer linear programs. Package: coinor-libblis0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR BiCePS Linear Integer Solver (BLIS) The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . BLIS is one of the libraries that make up the Cops (COIN Open Parallel Search Framework) library hierarchy. . The BiCePS Linear Integer Solver (BLIS) is a concretization of the BiCePS layer for solving mixed-integer linear programs. Package: coinor-blis Section: math Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR BiCePS Linear Integer Solver (BLIS) The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . BLIS is one of the libraries that make up the Cops (COIN Open Parallel Search Framework) library hierarchy. . The BiCePS Linear Integer Solver (BLIS) is a concretization of the BiCePS layer for solving mixed-integer linear programs. Package: coinor-libcbc-dev Section: libdevel Architecture: i386 Depends: coinor-libcbc0 (= ${Source-Version}) Description: COIN-OR Branch and Cut (Cbc) mixed integer programming solver library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CBC is an open-source MILP solver. It uses many of the COIN components and is designed to be used with CLP or dylp. It is available as a library and as a standalone solver. Package: coinor-libcbc0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Branch and Cut (Cbc) mixed integer programming solver library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CBC is an open-source MILP solver. It uses many of the COIN components and is designed to be used with CLP or dylp. It is available as a library and as a standalone solver. Package: coinor-cbc Section: math Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Branch and Cut (Cbc) mixed integer programming solver The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CBC is an open-source MILP solver. It uses many of the COIN components and is designed to be used with CLP or dylp. It is available as a library and as a standalone solver. Package: coinor-libcgl-dev Section: libdevel Architecture: i386 Depends: coinor-libcgl0 (= ${Source-Version}) Description: COIN-OR Cut Generation Library (Cgl) -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The COIN-OR Cut Generation Library is a collection of cut generators that can be used with other COIN-OR projects that make use of cuts, such as, among others, the linear solver Clp or the mixed integer linear programming solvers Cbc or BCP. Package: coinor-libcgl0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Cut Generation Library (Cgl) The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The COIN-OR Cut Generation Library is a collection of cut generators that can be used with other COIN-OR projects that make use of cuts, such as, among others, the linear solver Clp or the mixed integer linear programming solvers Cbc or BCP. Package: coinor-libclp-dev Section: libdevel Architecture: i386 Depends: coinor-libclp0 (= ${Source-Version}) Description: COIN-OR LP solver library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CLP is a high quality open-source LP solver. Its main strengths are its Dual and Primal Simplex algorithms. It also has a barrier algorithm for Linear and Quadratic objectives. There are limited facilities for Nonlinear and Quadratic objectives using the Simplex algorithm. It is available as a library and as a standalone solver Package: coinor-libclp0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR LP solver library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CLP is a high quality open-source LP solver. Its main strengths are its Dual and Primal Simplex algorithms. It also has a barrier algorithm for Linear and Quadratic objectives. There are limited facilities for Nonlinear and Quadratic objectives using the Simplex algorithm. It is available as a library and as a standalone solver Package: coinor-clp Section: math Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR LP solver The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . CLP is a high quality open-source LP solver. Its main strengths are its Dual and Primal Simplex algorithms. It also has a barrier algorithm for Linear and Quadratic objectives. There are limited facilities for Nonlinear and Quadratic objectives using the Simplex algorithm. It is available as a library and as a standalone solver Package: coinor-libcoinutils-dev Section: libdevel Architecture: i386 Depends: coinor-libcoinutils0 (= ${Source-Version}) Description: COIN-OR CoinUtils library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Utilities, data structures, and linear algebra methods for COIN-OR projects. Package: coinor-libcoinutils0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR CoinUtils library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Utilities, data structures, and linear algebra methods for COIN-OR projects. Package: coinor-libdylp-dev Section: libdevel Architecture: i386 Depends: coinor-libdylp0 (= ${Source-Version}) Description: COIN-OR implementation of the dynamic simplex algorithm -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Dylp is a linear programming solver, based on the dynamic simplex algorithm. Roughly, this means that dylp attempts to maintain an active constraint system which consists of only those constraints and variables that are relevant at the current extreme point. The bet is that this will be a useful property in situations where the same constraint system is repeatedly modified and reoptimised (e.g., in a branch-cut-price MIP code). You can also tell dylp to operate with the full constraint system, which is useful for obtaining an initial solution. Package: coinor-libdylp0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR implementation of the dynamic simplex algorithm The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Dylp is a linear programming solver, based on the dynamic simplex algorithm. Roughly, this means that dylp attempts to maintain an active constraint system which consists of only those constraints and variables that are relevant at the current extreme point. The bet is that this will be a useful property in situations where the same constraint system is repeatedly modified and reoptimised (e.g., in a branch-cut-price MIP code). You can also tell dylp to operate with the full constraint system, which is useful for obtaining an initial solution. Package: coinor-libflopcpp-dev Section: libdevel Architecture: i386 Depends: coinor-libflopcpp0 (= ${Source-Version}) Description: COIN-OR FLOPC++ library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . An open source algebraic modelling language implemented as a C++ class library. Package: coinor-libflopcpp0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR FLOPC++ library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . An open source algebraic modelling language implemented as a C++ class library. Package: coinor-libos-dev Section: libdevel Architecture: i386 Depends: coinor-libos0 (= ${Source-Version}) Description: COIN-OR Optimization Services (OS) library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The objective of Optimization Services (OS) is to provide a set of standards for representing optimization instances, results, solver options, and communication between clients and solvers in a distributed environment using Web Services. Package: coinor-libos0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Optimization Services (OS) library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The objective of Optimization Services (OS) is to provide a set of standards for representing optimization instances, results, solver options, and communication between clients and solvers in a distributed environment using Web Services. Package: coinor-ossolverservice Section: math Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Optimization Services (OS) solver The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The objective of Optimization Services (OS) is to provide a set of standards for representing optimization instances, results, solver options, and communication between clients and solvers in a distributed environment using Web Services. Package: coinor-libosi-dev Section: libdevel Architecture: i386 Depends: coinor-libosi0 (= ${Source-Version}) Description: COIN-OR Open Solver Interface (OSI) library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The COIN-OR Open Solver Interface is a uniform API for interacting with callable solver libraries. It supports linear programming solvers as well as the ability to "finish off" a mixed-integer problem calling the solver library's MIP solver. Currently, the following solvers are supported: - COIN-OR LP solver (OsiClp) and COIN-OR Branch and Cut solver (CoinBcp) - CPLEX (OsiCpx) - DyLP (OsiDylp) - FortMP (OsiFmp) - GLPK, the GNU Linear - Programming Kit (OsiGlpk) - Mosek (OsiMsk) - OSL, the IBM Optimization Subroutine Library - (OsiOsl) - SYMPHONY (OsiSym) - The Volume Algorithm (OsiVol) - XPRESS-MP (OsiXpr). Package: coinor-libosi0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Open Solver Interface (OSI) library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . The COIN-OR Open Solver Interface is a uniform API for interacting with callable solver libraries. It supports linear programming solvers as well as the ability to "finish off" a mixed-integer problem calling the solver library's MIP solver. Currently, the following solvers are supported: - COIN-OR LP solver (OsiClp) and COIN-OR Branch and Cut solver (CoinBcp) - CPLEX (OsiCpx) - DyLP (OsiDylp) - FortMP (OsiFmp) - GLPK, the GNU Linear - Programming Kit (OsiGlpk) - Mosek (OsiMsk) - OSL, the IBM Optimization Subroutine Library - (OsiOsl) - SYMPHONY (OsiSym) - The Volume Algorithm (OsiVol) - XPRESS-MP (OsiXpr). Package: coinor-libsmi-dev Section: libdevel Architecture: i386 Depends: coinor-libsmi0 (= ${Source-Version}) Description: COIN-OR SMI library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Smi is an open-source interface for modeling stochastic linear programming problems. Currently it supports: a scenario tree structure for multiperiod stochastic data, an implementation of a Stochastic MPS (SMPS) reader, direct interfaces for generating scenario trees from paths and from discrete random variables, generating the deterministic equivalent problem for OSI compatible solvers, and parsing the solutions by stage and scenario. Package: coinor-libsmi0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR SMI library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Smi is an open-source interface for modeling stochastic linear programming problems. Currently it supports: a scenario tree structure for multiperiod stochastic data, an implementation of a Stochastic MPS (SMPS) reader, direct interfaces for generating scenario trees from paths and from discrete random variables, generating the deterministic equivalent problem for OSI compatible solvers, and parsing the solutions by stage and scenario. Package: coinor-libsymphony-dev Section: libdevel Architecture: i386 Depends: coinor-libsymphony0 (= ${Source-Version}) Description: COIN-OR SYMPHONY library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . SYMPHONY is an open-source generic MILP solver, callable library, and extensibleframework for implementing customized solvers for mixed-integer linear programs (MILPs). SYMPHONY can be built in various sequential and parallel configurations for either distributed or shared memory architectures and can be used "out of the box" as a solver for generic mixed-integer linear programs or customized through a wide variety of user callback functions and control parameters. SYMPHONY has a number of advanced capabilities stemming from the research projects discussed above, including the ability to solve multi-objective MILPs, the ability to warm start its solution procedure, and the ability to perform basic sensitivity analyses. SYMPHONY has has been deployed in a variety of application areas, including computational biology, wireless telecommunications, supply chain management, transportation services, and air transportation. Package: coinor-libsymphony0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR SYMPHONY library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . SYMPHONY is an open-source generic MILP solver, callable library, and extensibleframework for implementing customized solvers for mixed-integer linear programs (MILPs). SYMPHONY can be built in various sequential and parallel configurations for either distributed or shared memory architectures and can be used "out of the box" as a solver for generic mixed-integer linear programs or customized through a wide variety of user callback functions and control parameters. SYMPHONY has a number of advanced capabilities stemming from the research projects discussed above, including the ability to solve multi-objective MILPs, the ability to warm start its solution procedure, and the ability to perform basic sensitivity analyses. SYMPHONY has has been deployed in a variety of application areas, including computational biology, wireless telecommunications, supply chain management, transportation services, and air transportation. Package: coinor-symphony Section: math Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR SYMPHONY The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . SYMPHONY is an open-source generic MILP solver, callable library, and extensibleframework for implementing customized solvers for mixed-integer linear programs (MILPs). SYMPHONY can be built in various sequential and parallel configurations for either distributed or shared memory architectures and can be used "out of the box" as a solver for generic mixed-integer linear programs or customized through a wide variety of user callback functions and control parameters. SYMPHONY has a number of advanced capabilities stemming from the research projects discussed above, including the ability to solve multi-objective MILPs, the ability to warm start its solution procedure, and the ability to perform basic sensitivity analyses. SYMPHONY has has been deployed in a variety of application areas, including computational biology, wireless telecommunications, supply chain management, transportation services, and air transportation. Package: coinor-libvol-dev Section: libdevel Architecture: i386 Depends: coinor-libvol0 (= ${Source-Version}) Description: COIN-OR Volume Algorithm (Vol) library -- development files The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Vol (Volume Algorithm) is an open-source implementation of a subgradient method that produces primal as well as dual solutions. The primal solution comes from estimating the volumes below the faces of the dual problem. This is an approximate method so the primal vector might have small infeasiblities that are negligible in many practical settings. The original subgradient algorithm produces only dual solutions. Package: coinor-libvol0 Section: libs Architecture: i386 Depends: ${shlibs:Depends}, ${misc:Depends} Description: COIN-OR Volume Algorithm (Vol) library The Computational Infrastructure for Operations Research (COIN-OR, or simply COIN) project is an initiative to spur the development of open-source software for the operations research community. . Vol (Volume Algorithm) is an open-source implementation of a subgradient method that produces primal as well as dual solutions. The primal solution comes from estimating the volumes below the faces of the dual problem. This is an approximate method so the primal vector might have small infeasiblities that are negligible in many practical settings. The original subgradient algorithm produces only dual solutions.