= Simulated Annealing =
Simulated Annealing is commonly said to be the oldest among the metaheuristics. It has its origins in the Metropolis algorithm which was published in 1953 and was adopted as a general metaheuristic, termed Simulated Annealing in 1983 by Kirkpatrick, Gelatt and Vecchi (Kirkpatrick et al. 1983) who demonstrated the algorithm on various problems of computer design and the traveling salesman problem.
'''Cooling Schedules:'''
Cooling schedules may alter the speed at which the temperature is reduced depending on the current iteration, so that there are schedules that offer a slower initial decrease, or even inverse signum shaped schedules that intensify rapidly in about the middle of the search. There also exist cooling schedules that swap between a growing and a deteriorating temperature, also called ''reheating'' schedules, and which allow to diversify the search to a greater degree.
* Geometric cooling schedule
* Linear cooling schedule
'''Algorithm Parameters:'''
||= Parameter =||= Description =||
|| Analyzer || The operator used to analyze each generation. ||
|| !AnnealingOperator || The operator used to modify the temperature. ||
|| !EndTemperature || The final temperature which should be reached when iterations reaches maximum iterations. ||
|| !InnerIterations || The amount of inner iterations (number of moves before temperature is adjusted again). ||
|| !MaximumIterations || The maximum number of generations which should be processed. ||
|| !MoveEvaluator || The operator used to evaluate a move. ||
|| !MoveGenerator || The operator used to generate moves to the neighborhood of the current solution. ||
|| !MoveMaker || The operator used to perform a move. ||
|| Seed || The random seed used to initialize the new pseudo random number generator. ||
|| !SetSeedRandomly || True if the random seed should be set to a random value, otherwise false. ||
|| !StartTemperature || The initial temperature. ||
'''Is there a sample/tutorial?'''
Yes. HeuristicLab comes with a simulated annealing algorithm that solves the 2-dimensional Rastrigin test function. Have a look at the description [[UsersSamples#SARastrigin| here]].
'''References:'''
* Kirkpatrick, S., C. D. Gelatt, and M. P. Vecchi. 1983. Optimization by simulated annealing. Science 220:671–680.