GPU Power Capping for Energy-Performance Trade-Offs in Training of Deep Convolutional Neural Networks for Image Recognition

Adam Krzywaniak; Paweł Czarnul; Jerzy Proficz

doi:10.1007/978-3-031-08751-6_48

GPU Power Capping for Energy-Performance Trade-Offs in Training of Deep Convolutional Neural Networks for Image Recognition

Abstrakt

In the paper we present performance-energy trade-off investigation of training Deep Convolutional Neural Networks for image recognition. Several representative and widely adopted network models, such as Alexnet, VGG-19, Inception V3, Inception V4, Resnet50 and Resnet152 were tested using systems with Nvidia Quadro RTX 6000 as well as Nvidia V100 GPUs. Using GPU power capping we found other than default configurations minimizing three various metrics: energy (E), energy-delay product (EDP) as well as energy-delay sum (EDS) which resulted in considerable energy savings, with a low to medium performance loss for EDP and EDS. Specifically, for Quadro 6000 and minimization of E we obtained energy savings of 28.5%–32.5%, for EDP 25%–28% of energy was saved with average 4.5%–15.4% performance loss, for EDS (k = 2) 22%–27% of energy was saved with 4.5%–13.8% performance loss. For V100 we found average energy savings of 24%–33%, for EDP energy savings of 23%–27% with corresponding performance loss of 13%–21% and for EDS (k = 2) 23.5%–27.3% of energy was saved with performance loss of 4.5%–13.8%.

Cytowania

1 3

CrossRef
0

Web of Science
1 5

Scopus

Autorzy (3)

Cytuj jako

Pełna treść

pobierz publikację

pobrano 125 razy

Wersja publikacji: Accepted albo Published Version
Licencja: Copyright (2022 The Author(s), under exclusive license to Springer Nature Switzerland)

Słowa kluczowe

Informacje szczegółowe

Kategoria:

Aktywność konferencyjna

Typ:

publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)

Język:

angielski

Rok wydania:

2022

Opis bibliograficzny:

Krzywaniak A., Czarnul P., Proficz J.: GPU Power Capping for Energy-Performance Trade-Offs in Training of Deep Convolutional Neural Networks for Image Recognition// / : , 2022,

DOI:

10.1007/978-3-031-08751-6_48

Źródła finansowania:

Publikacja bezkosztowa

Weryfikacja:

Politechnika Gdańska

wyświetlono 139 razy

Publikacje, które mogą cię zainteresować

Dynamic GPU power capping with online performance tracing for energy efficient GPU computing using DEPO tool

2023

Machine Learning in Multi-Agent Systems using Associative Arrays

P. Spychalski,
R. Arendt

2018

Considerations of Computational Efficiency in Volunteer and Cluster Computing

2016

Long Distance Geographically Distributed InfiniBand Based Computing

K. Niedzielewski,
M. Semeniuk,
J. Skomiał
+ 4 autorów

2020

Meta Tagi

GPU Power Capping for Energy-Performance Trade-Offs in Training of Deep Convolutional Neural Networks for Image Recognition

Abstrakt

Cytowania

Autorzy (3)

Adam Krzywaniak mgr inż.

Paweł Czarnul dr hab. inż.

Jerzy Proficz dr hab. inż.

Cytuj jako

Pełna treść

Słowa kluczowe

Informacje szczegółowe

Publikacje, które mogą cię zainteresować

Dynamic GPU power capping with online performance tracing for energy efficient GPU computing using DEPO tool

Machine Learning in Multi-Agent Systems using Associative Arrays

Considerations of Computational Efficiency in Volunteer and Cluster Computing

Long Distance Geographically Distributed InfiniBand Based Computing

Wyszukiwarka

GPU Power Capping for Energy-Performance Trade-Offs in Training of Deep Convolutional Neural Networks for Image Recognition

Abstrakt

Cytowania

Autorzy (3)

Adam Krzywaniak mgr inż.

Paweł Czarnul dr hab. inż.

Jerzy Proficz dr hab. inż.

Cytuj jako

Pełna treść

Słowa kluczowe

Informacje szczegółowe

Publikacje, które mogą cię zainteresować

Dynamic GPU power capping with online performance tracing for energy efficient GPU computing using DEPO tool

Machine Learning in Multi-Agent Systems using Associative Arrays

Considerations of Computational Efficiency in Volunteer and Cluster Computing

Long Distance Geographically Distributed InfiniBand Based Computing