419,806 research outputs found
The physics of parallel machines
The idea is considered that architectures for massively parallel computers must be designed to go beyond supporting a particular class of algorithms to supporting the underlying physical processes being modelled. Physical processes modelled by partial differential equations (PDEs) are discussed. Also discussed is the idea that an efficient architecture must go beyond nearest neighbor mesh interconnections and support global and hierarchical communications
Solving Lotsizing Problems on Parallel Identical Machines Using Symmetry Breaking Constraints
Production planning on multiple parallel machines is an interesting problem, both from a theoretical and practical point of view. The parallel machine lotsizing problem consists of finding the optimal timing and level of production and the best allocation of products to machines. In this paper we look at how to incorporate parallel machines in a Mixed Integer Programming model when using commercial optimization software. More specifically, we look at the issue of symmetry. When multiple identical machines are available, many alternative optimal solutions can be created by renumbering the machines. These alternative solutions lead to difficulties in the branch-and-bound algorithm. We propose new constraints to break this symmetry. We tested our approach on the parallel machine lotsizing problem with setup costs and times, using a network reformulation for this problem. Computational tests indicate that several of the proposed symmetry breaking constraints substantially improve the solution time, except when used for solving the very easy problems. The results highlight the importance of creative modeling in solving Mixed Integer Programming problems.Mixed Integer Programming;Formulations;Symmetry;Lotsizing
A Novel Approach to the Common Due-Date Problem on Single and Parallel Machines
This paper presents a novel idea for the general case of the Common Due-Date
(CDD) scheduling problem. The problem is about scheduling a certain number of
jobs on a single or parallel machines where all the jobs possess different
processing times but a common due-date. The objective of the problem is to
minimize the total penalty incurred due to earliness or tardiness of the job
completions. This work presents exact polynomial algorithms for optimizing a
given job sequence for single and identical parallel machines with the run-time
complexities of for both cases, where is the number of jobs.
Besides, we show that our approach for the parallel machine case is also
suitable for non-identical parallel machines. We prove the optimality for the
single machine case and the runtime complexities of both. Henceforth, we extend
our approach to one particular dynamic case of the CDD and conclude the chapter
with our results for the benchmark instances provided in the OR-library.Comment: Book Chapter 22 page
Common Due-Date Problem: Exact Polynomial Algorithms for a Given Job Sequence
This paper considers the problem of scheduling jobs on single and parallel
machines where all the jobs possess different processing times but a common due
date. There is a penalty involved with each job if it is processed earlier or
later than the due date. The objective of the problem is to find the assignment
of jobs to machines, the processing sequence of jobs and the time at which they
are processed, which minimizes the total penalty incurred due to tardiness or
earliness of the jobs. This work presents exact polynomial algorithms for
optimizing a given job sequence or single and parallel machines with the
run-time complexities of and respectively, where
is the number of jobs and the number of machines. The algorithms take a
sequence consisting of all the jobs as input and
distribute the jobs to machines (for ) along with their best completion
times so as to get the least possible total penalty for this sequence. We prove
the optimality for the single machine case and the runtime complexities of
both. Henceforth, we present the results for the benchmark instances and
compare with previous work for single and parallel machine cases, up to
jobs.Comment: 15th International Symposium on Symbolic and Numeric Algorithms for
Scientific Computin
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