A fast and scalable multidimensional multiple-choice knapsack heuristic

Shojaei, Hamid; Basten, Twan; Geilen, Marc; Davoodi, Azadeh

doi:10.1145/2541012.2541014

Cited by 30 publications

(44 citation statements)

References 25 publications

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“…The approaches from [23,27,30] deal with spatial isolation by assignment of exclusive budgets of the MPSoC's compute tiles, however, ignoring communication details. The approaches in [19,24] consider dedicated point-to-point communication between compute tiles via a circuit-switched interconnect.…”

Section: Methodology Overviewmentioning

confidence: 99%

Invasive computing for timing-predictable stream processing on MPSoCs

Wildermann

Bäder

Bauer

et al. 2016

It - Information Technology

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Multi-Processor Systems-on-a-Chip (MPSoCs) provide sufficient computing power for many applications in scientific as well as embedded applications. Unfortunately, when real-time requirements need to be guaranteed, applications suffer from the interference with other applications, uncertainty of dynamic workload and state of the hardware. Composable application/architecture design and timing analysis is therefore a must for guaranteeing real-time applications to satisfy their timing requirements independent from dynamic workload. Here, Invasive Computing is used as the key enabler for compositional timing analysis on MPSoCs, as it provides the required isolation of resources allocated to each application. On the basis of this paradigm, this work proposes a hybrid application mapping methodology that combines designtime analysis of application mappings with run-time management. Design space exploration delivers several resource reservation configurations with verified real-time guarantees for individual applications. These timing properties can then be guaranteed at run-time, as long as dynamic resource allocations comply with the offline analyzed resource configurations. This article describes our methodology and presents programming, optimization, analysis, and hardware techniques for enforcing timing predictability. A case study illustrates the timing-predictable management of real-time computer vision applications in dynamic robot system scenarios.

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Section: Methodology Overviewmentioning

confidence: 99%

Invasive computing for timing-predictable stream processing on MPSoCs

Wildermann

Bäder

Bauer

et al. 2016

It - Information Technology

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“…FOR MULTI-OBJECTIVE GENERALIZED TSP CPH has been successfully applied to MMKP [3], a multiobjective, multiple-choice problem like MO-GTSP. CPH is based on Pareto Algebra [10] and the idea that partial solutions can be computed incrementally; i.e.…”

Section: A Compositional Pareto-algebraic Heuristicmentioning

confidence: 99%

“…The reduction mechanism in CPH is used to control the size of the search space, and therefore the execution time. As described in [3], this can be done in several ways. For two-objective problems, we use a selection mechanism that slices the 2-D space into equal parts and selects one solution per slice.…”

Section: B Cph Applied To Mo-gtspmentioning

confidence: 99%

“…We can remove all dominated solutions from the solution set by applying Pareto minimization. This minimization process removes all dominated solutions and is typically implemented by the simple cull algorithm as described extensively in [3] and [11].…”

Section: B Cph Applied To Mo-gtspmentioning

confidence: 99%

“…CPH has been applied successfully to the Multi-dimensional Multiple-choice Knapsack Problem (MMKP) [3]. Such problems are found in e.g.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Online Heuristic for the Multi-objective Generalized Traveling Salesman Problem

Pinxten

Geilen

Basten

et al. 2016

Proceedings of the 2016 Design, Automation &Amp; Test in Europe Conference &Amp; Exhibition (DATE)

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Abstract-Today's manufacturing systems are typically complex cyber-physical systems where the physical and control aspects interact with the scheduling decisions. Optimizing such facilities requires ordering jobs and configuring the manufacturing system for each job. This optimization problem can be described as a Multi-Objective Generalized TSP where conflicting objectives lead to a trade-off space. This is the first work to address this TSP variant, introducing a compositional heuristic suitable to online application.

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A Stochastic Local Search Heuristic for the Multidimensional Multiple-choice Knapsack Problem

Xia

Gao

2015

Communications in Computer and Information Science

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A fast and scalable multidimensional multiple-choice knapsack heuristic

Cited by 30 publications

References 25 publications

Invasive computing for timing-predictable stream processing on MPSoCs

Invasive computing for timing-predictable stream processing on MPSoCs

Online Heuristic for the Multi-objective Generalized Traveling Salesman Problem

A Stochastic Local Search Heuristic for the Multidimensional Multiple-choice Knapsack Problem

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