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Main Authors: Benhari, Abdessalam, Trystram, Denis, Dufossé, Fanny, Denneulin, Yves, Desprez, Frédéric
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.17466
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author Benhari, Abdessalam
Trystram, Denis
Dufossé, Fanny
Denneulin, Yves
Desprez, Frédéric
author_facet Benhari, Abdessalam
Trystram, Denis
Dufossé, Fanny
Denneulin, Yves
Desprez, Frédéric
contents The demand in computing power has never stopped growing over the years. Today, the performance of the most powerful systems exceeds the exascale and the number of petascale systems continues to grow. Unfortunately, this growth also goes hand in hand with ever-increasing energy costs, which in turn means a significant carbon footprint. In view of the environmental crisis, this paper intents to look at the often hidden issue of energy consumption of HPC systems. As it is not easy to access the data of the constructors, we then consider the Top500 as the tip of the iceberg to identify the trends of the whole domain.The objective of this work is to analyze Top500 and Green500 data from several perspectives in order to identify the dynamic of the domain regarding its environmental impact. The contributions are to take stock of the empirical laws governing the evolution of HPC computing systems both from the performance and energy perspectives, to analyze the most relevant data for developing the performance and energy efficiency of large-scale computing systems, to put these analyses into perspective with effects and impacts (lifespan of the HPC systems) and finally to derive a predictive model for the weight of HPC sector within the horizon 2030.
format Preprint
id arxiv_https___arxiv_org_abs_2403_17466
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Green HPC: An analysis of the domain based on Top500
Benhari, Abdessalam
Trystram, Denis
Dufossé, Fanny
Denneulin, Yves
Desprez, Frédéric
Computers and Society
The demand in computing power has never stopped growing over the years. Today, the performance of the most powerful systems exceeds the exascale and the number of petascale systems continues to grow. Unfortunately, this growth also goes hand in hand with ever-increasing energy costs, which in turn means a significant carbon footprint. In view of the environmental crisis, this paper intents to look at the often hidden issue of energy consumption of HPC systems. As it is not easy to access the data of the constructors, we then consider the Top500 as the tip of the iceberg to identify the trends of the whole domain.The objective of this work is to analyze Top500 and Green500 data from several perspectives in order to identify the dynamic of the domain regarding its environmental impact. The contributions are to take stock of the empirical laws governing the evolution of HPC computing systems both from the performance and energy perspectives, to analyze the most relevant data for developing the performance and energy efficiency of large-scale computing systems, to put these analyses into perspective with effects and impacts (lifespan of the HPC systems) and finally to derive a predictive model for the weight of HPC sector within the horizon 2030.
title Green HPC: An analysis of the domain based on Top500
topic Computers and Society
url https://arxiv.org/abs/2403.17466