Download all versions of chips-n-salsa JAR files with all dependencies
chips-n-salsa from group org.cicirello (version 7.0.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 7.0.0
Last update 01. August 2024
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 7.0.0
Last update 01. August 2024
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.4.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.4.0
Last update 28. July 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.4.0
Last update 28. July 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.3.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.3.0
Last update 15. May 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.3.0
Last update 15. May 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.2.1)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.2.1
Last update 20. January 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.2.1
Last update 20. January 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.2.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.2.0
Last update 10. January 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.2.0
Last update 10. January 2023
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.1.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.1.0
Last update 17. November 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.1.0
Last update 17. November 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 6.0.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 6.0.0
Last update 02. September 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 6.0.0
Last update 02. September 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 5.2.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 5.2.0
Last update 01. August 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 5.2.0
Last update 01. August 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 5.1.0)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 5.1.0
Last update 29. July 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 5.1.0
Last update 29. July 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
chips-n-salsa from group org.cicirello (version 5.0.1)
Chips-n-Salsa is a Java library of customizable,
hybridizable, iterative, parallel, stochastic, and self-adaptive
local search algorithms. The library includes implementations of
several stochastic local search algorithms, including simulated
annealing, hill climbers, as well as constructive search algorithms
such as stochastic sampling. Chips-n-Salsa now also includes genetic
algorithms as well as evolutionary algorithms more generally. The
library very extensively supports simulated annealing. It includes
several classes for representing solutions to a variety of optimization
problems. For example, the library includes a BitVector class that
implements vectors of bits, as well as classes for representing
solutions to problems where we are searching for an optimal vector
of integers or reals. For each of the built-in representations, the
library provides the most common mutation operators for generating
random neighbors of candidate solutions, as well as common crossover
operators for use with evolutionary algorithms. Additionally, the
library provides extensive support for permutation optimization
problems, including implementations of many different mutation
operators for permutations, and utilizing the efficiently implemented
Permutation class of the JavaPermutationTools (JPT) library.
Chips-n-Salsa is customizable, making extensive use of Java's generic
types, enabling using the library to optimize other types of representations
beyond what is provided in the library. It is hybridizable, providing
support for integrating multiple forms of local search (e.g., using a hill
climber on a solution generated by simulated annealing), creating hybrid
mutation operators (e.g., local search using multiple mutation operators),
as well as support for running more than one type of search for the same
problem concurrently using multiple threads as a form of algorithm portfolio.
Chips-n-Salsa is iterative, with support for multistart metaheuristics,
including implementations of several restart schedules for varying the run
lengths across the restarts. It also supports parallel execution of multiple
instances of the same, or different, stochastic local search algorithms for
an instance of a problem to accelerate the search process. The library
supports self-adaptive search in a variety of ways, such as including
implementations of adaptive annealing schedules for simulated annealing,
such as the Modified Lam schedule, implementations of the simpler annealing
schedules but which self-tune the initial temperature and other parameters,
and restart schedules that adapt to run length.
Artifact chips-n-salsa
Group org.cicirello
Version 5.0.1
Last update 25. July 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
Group org.cicirello
Version 5.0.1
Last update 25. July 2022
Tags: climbers very chips optimal type beyond integers java problem optimization concurrently algorithm using simulated sampling bits metaheuristics salsa each hybridizable mutation creating algorithms crossover other providing integrating utilizing customizable representations permutations local example adaptive across search library same ways varying variety operators temperature stochastic supports where vector multistart implementations genetic enabling restart initial more representing bitvector many climber generally hill such extensive extensively additionally efficiently self instance several that optimize solution generated portfolio neighbors than implemented accelerate modified different which making including solutions adapt iterative constructive includes restarts most vectors hybrid support parameters problems implements instances classes searching provided javapermutationtools generating annealing simpler tune running random candidate common parallel provides schedules class permutation reals execution types process built multiple length threads also generic with schedule what form lengths well evolutionary forms
Organization Cicirello.Org
URL https://chips-n-salsa.cicirello.org/
License GPL-3.0-or-later
Dependencies amount 3
Dependencies jpt, rho-mu, core,
There are maybe transitive dependencies!
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