Fabian Müller scite author profile

In this paper we investigate algorithmic instruments leading to low power consumption in computing devices. While previous work on energy-efficient algorithms has mostly focused on single processor environments, in this paper we investigate multi-processor settings. We study the basic problem of scheduling a set of jobs, each specified by a release time, a deadline and a processing volume, on variable speed processors so as to minimize the total energy consumption. We first settle the complexity of speed scaling with unit size jobs. More specifically, we devise a polynomial time algorithm for agreeable deadlines and prove NP-hardness results for arbitrary release dates and deadlines. For the latter setting we also develop a polynomial time algorithm achieving a constant factor approximation guarantee that is independent of the number of processors. Additionally, we study speed scaling of jobs with arbitrary processing requirements and, again, develop constant factor approximation algorithms. We finally transform our offline algorithms into constant competitive online strategies.

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Digitization in wood supply – A review on how Industry 4.0 will change the forest value chain

Müller

Jaeger²,

Hanewinkel

2019

Computers and Electronics in Agriculture

137

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High-dose methotrexate combined with procarbazine and CCNU for primary CNS lymphoma in the elderly: results of a prospective pilot and phase II study

Illerhaus¹,

Marks²,

Müller³

et al. 2009

Annals of Oncology

112

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Fabian Müller

Anti-CD19 CAR T cell therapy for refractory systemic lupus erythematosus

High-dose chemotherapy and autologous stem-cell transplantation without consolidating radiotherapy as first-line treatment for primary lymphoma of the central nervous system

Speed Scaling on Parallel Processors

Digitization in wood supply – A review on how Industry 4.0 will change the forest value chain

High-dose methotrexate combined with procarbazine and CCNU for primary CNS lymphoma in the elderly: results of a prospective pilot and phase II study

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