Luigi Di Tacchio scite author profile

The global data movement over Internet has an estimated energy footprint of 100 terawatt hours per year, costing the world economy billions of dollars. The networking infrastructure together with source and destination nodes involved in the data transfer contribute to overall energy consumption. Although considerable amount of research has rendered power management techniques for the networking infrastructure, there has not been much prior work focusing on energy-aware data transfer solutions for minimizing the power consumed at the end-systems. In this paper, we introduce a novel applicationlayer solution based on historical analysis and real-time tuning called GreenDataFlow, which aims to achieve high data transfer throughput while keeping the energy consumption at the minimal levels. GreenDataFlow supports service level agreements (SLAs) which give the service providers and the consumers the ability to fine tune their goals and priorities in this optimization process. Our experimental results show that GreenDataFlow outperforms the closest competing state-of-the art solution in this area 50% for energy saving and 2.5× for the achieved end-to-end performance.

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Energy-Efficient High-Throughput Data Transfers via Dynamic CPU Frequency and Core Scaling

Tacchio¹,

Nine²,

Kosar³

et al. 2019

Preprint

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GreenDataFlow: Minimizing the Energy Footprint of Global Data Movement

Nine¹,

Tacchio²,

Imran³

et al. 2018

Preprint

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Luigi Di Tacchio

Cross-Layer Optimization of Big Data Transfer Throughput and Energy Consumption

Energy-saving Cross-layer Optimization of Big Data Transfer Based on Historical Log Analysis

GreenDataFlow: Minimizing the Energy Footprint of Global Data Movement

Energy-Efficient High-Throughput Data Transfers via Dynamic CPU Frequency and Core Scaling

GreenDataFlow: Minimizing the Energy Footprint of Global Data Movement

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