Simulated annealing for VLSI design
Simulated annealing for VLSI design
Simulated annealing and Boltzmann machines: a stochastic approach to combinatorial optimization and neural computing
Simulated Annealing: use of new tool in bin packing
Annals of Operations Research
Parallel simulated annealing techniques
CNLS '89 Proceedings of the ninth annual international conference of the Center for Nonlinear Studies on Self-organizing, Collective, and Cooperative Phenomena in Natural and Artificial Computing Networks on Emergent computation
A genetic algorithm for packing in three dimensions
SAC '92 Proceedings of the 1992 ACM/SIGAPP symposium on Applied computing: technological challenges of the 1990's
Synchronous and Asynchronous Parallel Simulated Annealing with Multiple Markov Chains
IEEE Transactions on Parallel and Distributed Systems
Parallel Simulated Annealing Algorithms for Cell Placement on Hypercube Multiprocessors
IEEE Transactions on Parallel and Distributed Systems
Parallel Simulated Annealing using Speculative Computation
IEEE Transactions on Parallel and Distributed Systems
Parallel simulated annealing for the vehicle routing problem with time windows
EUROMICRO-PDP'02 Proceedings of the 10th Euromicro conference on Parallel, distributed and network-based processing
A problem independent parallel implementation of simulated annealing: models and experiments
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Placement by Simulated Annealing on a Multiprocessor
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
A simulated annealing method based on a specialised evolutionary algorithm
Applied Soft Computing
Solving the team orienteering problem using effective multi-start simulated annealing
Applied Soft Computing
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Computation complexity and modeling complexity are primary clog in 3D engineering layout design. In this paper, a parallel simulated annealing based on multiple Markov chains is employed to deal with the computation complexity. The algorithm increases computing efficiency by allocating computation burden to networked computers. To cope with the modeling complexity, machine components and space limitation are modeled by a hierarchical, feature-based modeling method-the functional feature tree modeling method. And multiple complex design constraints can be described by the representation. In order to support whole layout design solving process, a Computer Aided Layout Design System is introduced briefly. This system not only implements the algorithm and the components representation, but also integrates some other subsystems as evaluation system, constrains editor etc. The methods are demonstrated through a real engineering application, a vehicle engine compartment layout design.