collaboration - RISC2 Project https://www.risc2-project.eu Wed, 22 Nov 2023 08:23:24 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 Three years of building bridges in HPC research between Europe and Latin America: RISC2 project comes to an end https://www.risc2-project.eu/2023/11/16/three-years-of-building-bridges-in-hpc-research-between-europe-and-latin-america-risc2-project-comes-to-an-end/ Thu, 16 Nov 2023 15:56:54 +0000 https://www.risc2-project.eu/?p=3066 Artificial intelligence, personalised medicine, the development of new drugs or the fight against climate change. These are just a few examples of areas where high performance computing has an impact and could prove to be essential. With the aim of fostering cooperation between Europe and Latin America in this field, 16 organisations from the two […]

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Artificial intelligence, personalised medicine, the development of new drugs or the fight against climate change. These are just a few examples of areas where high performance computing has an impact and could prove to be essential. With the aim of fostering cooperation between Europe and Latin America in this field, 16 organisations from the two continents have launched the RISC2 project.

“The RISC2 project has proven to be a team effort in which European and Latin American partners worked together to drive HPC collaboration forward. We have been able to create a lively and active community across the Atlantic to stimulate dialogue and boost cooperation that won’t die with RISC2’s formal end”, says Fabrizio Gagliardi, manager director of RISC2.

Since 2021, this knowledge-sharing network has organised webinars, summer schools, meetings with policymakers and participated in conferences and dissemination events on both sides of the Atlantic. The project also resulted in the HPC Observatory Repository — a collection of documents and training materials produced as part of the project – and the White Paper on HPC R&I Collaboration Opportunities, a document that reviews the key socio-economic and environmental factors and trends that influence HPC needs.

These were two of the issues highlighted by European Commission officials and experts during the final evaluation of the project, which could provide continuity to the work carried out by the consortium over the last three years, in line with the wishes of the partners and the advice of the evaluators. “Beyond RISC2, we should keep the momentum and leverage the importance of Latin America in the frame of the Green Deal actions: HPC stakeholders should encourage policymakers to build bilateral agreements and offer open calls focused on HPC collaboration“, reflects Fabrizio Gagliardi.

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RISC2’s partners join efforts to push forward HPC collaboration between EU and LATAM https://www.risc2-project.eu/2023/10/10/risc2s-partners-join-efforts-to-push-forward-hpc-collaboration-between-eu-and-latam/ Tue, 10 Oct 2023 15:10:29 +0000 https://www.risc2-project.eu/?p=3045 CARLA 2023: RISC2 Results Presented at Largest HPC Conference in Latin America https://www.risc2-project.eu/2023/09/28/carla-2023-risc2-results-presented-at-largest-hpc-conference-in-latin-america/ Thu, 28 Sep 2023 10:21:06 +0000 https://www.risc2-project.eu/?p=3033 From September 18 to 22, Cartagena de Indias, Colombia, hosted the Latin America High-Performance Computing Conference (CARLA), which brought together around 300 researchers in the field from around the world — with particular emphasis on the presence of young and female researchers . With a varied program, the event aimed to provide a discussion forum to […]

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From September 18 to 22, Cartagena de Indias, Colombia, hosted the Latin America High-Performance Computing Conference (CARLA), which brought together around 300 researchers in the field from around the world — with particular emphasis on the presence of young and female researchers . With a varied program, the event aimed to provide a discussion forum to encourage the growth and strengthening of the High-Performance Computing community in Latin America, focusing on the exchange and dissemination of ideas, techniques, and research, as well as their application.

Given the nature of the project, RISC2 could not fail to be represented through its partners and with a strong presence in the event’s program. Carlos J. Barrios, researcher from the Universidad Industrial de Santander and RISC2 partner was responsible for opening CARLA, with his address setting the tone for the conference, emphasizing the importance of collaborative efforts and knowledge sharing in furthering the frontiers of HPC.

Fabrizio Gagliardi, the coordinator of RISC2, also took center stage with a special talk that introduced the audience to the mission and objectives of the RISC2 project. The presentation shed light on the pivotal role that RISC2 plays in advancing HPC research and development of the cooperation between the two continents in this field. Gagliardi participated in the EuroHPCLatam panel: Policy and Global Actions, which included representatives from Red Clara, CAF and the Ministry of CyT Colombia. This panel explored the policies and global actions required to propel HPC forward in Latin America, emphasizing collaboration between key stakeholders.

Another highlight of CARLA 2023 was the tribute to Mateo Valero, one of the promoters of RISC2. Valero’s dedication and contributions to the field were celebrated through an award with his name and one he was the first recepient, underscoring the lasting impact of his work on the entire HPC community.

This event was particularly important as it coincided with the end of the RISC2 project and the presentation of its results. Over the course of three years, the initiative has strengthened contacts and promoted the exchange of knowledge between researchers from Latin America and Europe through the organization of nine webinars, the support of several schools, workshops, and other training events in the field for young students and researchers. During this period, RISC2 partners also participated in several conferences and ceremonies with policymakers to raise awareness of the importance of continuing to support and prioritize this area of research in the future.

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RISC2 Project Reveals Achievements in EU-LATAM HPC Collaboration at Brussels Meet https://www.risc2-project.eu/2023/07/27/risc2-project-reveals-achievements-in-eu-latam-hpc-collaboration-at-brussels-meet/ Thu, 27 Jul 2023 09:14:53 +0000 https://www.risc2-project.eu/?p=2998 RISC2’s partners gather in Brussels to reflect on three years of collaboration between EU and Latin America https://www.risc2-project.eu/2023/07/26/risc2s-partners-gather-in-brussels-to-reflect-on-three-years-of-collaboration-between-eu-and-latin-america/ Wed, 26 Jul 2023 12:03:56 +0000 https://www.risc2-project.eu/?p=2992 Over the past three years, the RISC2 project has established a network for the exchange of knowledge and experience that has enabled its European and Latin American partners to strengthen relations in HPC and take significant steps forward in this area. With the project quickly coming to an end, it was time to meet face-to-face […]

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Over the past three years, the RISC2 project has established a network for the exchange of knowledge and experience that has enabled its European and Latin American partners to strengthen relations in HPC and take significant steps forward in this area. With the project quickly coming to an end, it was time to meet face-to-face in Brussels to reflect on the progress and achievements, the goals set, the difficulties faced, and, above all, what can be expected for the future.

The session began with a welcome and introduction by Mateo Valero (BSC), one of the main drivers of this cooperation and a leading name in the field of HPC. This intervention was later complemented by Fabrizio Gagliardi (BSC). Afterward, Elsa Carvalho (INESC TEC) presented the work done in terms of communication by the RISC2 team, an important segment for all the news and achievements to reach all the partners and countries involved.

Carlos J. Barrios Hernandez then presented the work done within the HPC Observatory, a relevant source of information that European and Latin American research organizations can address with HPC and/or AI issues.

The session closed with an important and pertinent debate on how to strengthen cooperation in HPC between the European Union and Latin America, in which all participants contributed and gave their opinion, committing to efforts so that the work developed within the framework of RISC2 is continued.

What our partners had to say about the meeting?

Rafael Mayo Garcia, CIEMAT:

“The policy event organized by RISC2 in Brussels was of utmost importance for the development of HPC and digital capabilities for a shared infrastructure between EU and LAC. Even more, it has had crucial contributions to international entities such as CYTED, the Ibero-American Programme for the Development of Science and Technology. On the CIEMAT side, it has been a new step beyond for building and participating in a HPC shared ecosystem.”

Esteban Meneses, CeNAT:

“In Costa Rica, CeNAT plays a critical role in fostering technological change. To achieve that goal, it is fundamental to synchronize our efforts with other key players, particularly government institutions. The event policy in Brussels was a great opportunity to get closer to our science and technology ministry and start a dialogue on the importance of HPC, data science, and artificial intelligence for bringing about the societal changes we aim for.”

Esteban Mocskos, UBA:

“The Policy Event recently held in Brussels and organized by the RISC2 project had several remarkable points. The gathering of experts in HPC research and management in Latin America and Europe served to plan the next steps in the joint endeavor to deepen the collaboration in this field. The advance in management policies, application optimization, and user engagement are fundamental topics treated during the main sessions and also during the point-to-point talks in every corner of the meeting room.
I can say that this meeting will also spawn different paths in these collaboration efforts that we’ll surely see their results during the following years with a positive impact on both sides of this fruitful relationship: Latin America and Europe.”

Sergio Nesmachnow, Universidad de la República:

“The National Supercomputing Center (Uruguay) and Universidad de la República have led the development of HPC strategies and technologies and their application to relevant problems in Uruguay. Specific meetings such as the policy event organized by RISC2 in Brussels are key to present and disseminate the current developments and achievements to relevant political and technological leaders in our country, so that they gain knowledge about the usefulness of HPC technologies and infrastructure to foster the development of national scientific research in capital areas such as sustainability, energy, and social development. It was very important to present the network of collaborators in Latin America and Europe and to show the involvement of institutional and government agencies.

Within the contacts and talks during the organization of the meeting, we introduced the projecto to national authorities, including the National Director of Science and Technology, Ministry of Education and Culture, and the President of the National Agency for Research and Innovation, as well as the Uruguayan Agency for International Cooperation and academic authorities from all institutions involved in the National Supercomputing Center initiative. We hope the established contacts can result in productive joint efforts to foster the development of HPC and related scientific areas in our country and the region.”

Carla Osthoff, LNCC:

“In Brazil, LNCC is critical in providing High Performance Computing Resources for the Research Community and training Human Resources and fostering new technologies. The policy event organized by RISC2 in Brussels was fundamental to synchronizing LNCC efforts with other government institutions and international  entities. On the LNCC side, it has been a new step beyond building and participating in an HPC-shared ecosystem.

Specific meetings such as the policy event organized by RISC2 in Brussels  were very important to present the network of collaborators in Latin America and Europe and to show the involvement of institutional and government agencies.

As a result of joint activities in research and development in the areas of information and communication technologies (ICT), artificial intelligence, applied mathematics, and computational modelling, with emphasis on the areas of scientific computing and data science, a Memorandum of Understanding (MoU) have been signed between LNCC and Inria/France. As a  result of new joint activities, LNCC and INESC TEC/Portugal are starting  collaboration through INESC TEC International Visiting Researcher Programme 2023.”

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Future of EU-LATAM collaboration on HPC https://www.risc2-project.eu/events/future-of-eu-latam-collaboration-on-hpc/ Wed, 14 Jun 2023 15:21:48 +0000 https://www.risc2-project.eu/?post_type=mec-events&p=2943 The project RISC2 aims to strengthen collaboration between Latin America and the European Union in High-Performance Computing (HPC). One of the project’s main goals is to raise awareness among policymakers about the potential of international collaboration in HPC to tackle global challenges, such as climate change, health threats, and energy transition, and promote the exchange […]

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The project RISC2 aims to strengthen collaboration between Latin America and the European Union in High-Performance Computing (HPC). One of the project’s main goals is to raise awareness among policymakers about the potential of international collaboration in HPC to tackle global challenges, such as climate change, health threats, and energy transition, and promote the exchange of best practices between research communities in both regions. Throughout the project lifecycle, the RISC2 Consortium has participated in policy dialogues, supported international training events, established an HPC Observatory and produced up-to-date reports that describe the HPC ecosystem in Latin America. The RISC2 partners are organizing an event in Brussels on 18 July 2023 to present these results to policymakers and foster a conversation about the roadmap for future bi-regional collaboration in the field of HPC.

Read more here.

Check the agenda:

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Subsequent Progress And Challenges Concerning The México-UE Project ENERXICO: Supercomputing And Energy For México https://www.risc2-project.eu/2023/05/24/subsequent-progress-and-challenges-concerning-the-mexico-ue-project-enerxico-supercomputing-and-energy-for-mexico/ Wed, 24 May 2023 09:38:01 +0000 https://www.risc2-project.eu/?p=2824 In this short notice, we briefly describe some afterward advances and challenges with respect to two work packages developed in the ENERXICO Project. This opened the possibility of collaborating with colleagues from institutions that did not participate in the project, for example from the University of Santander in Colombia and from the University of Vigo […]

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In this short notice, we briefly describe some afterward advances and challenges with respect to two work packages developed in the ENERXICO Project. This opened the possibility of collaborating with colleagues from institutions that did not participate in the project, for example from the University of Santander in Colombia and from the University of Vigo in Spain. This exemplifies the importance of the RISC2 project in the sense that strengthening collaboration and finding joint research areas and HPC applied ventures is of great benefit for both: our Latin American Countries and the EU. We are now initiating talks to target several Energy related topics with some of the RISC2 partners. 

The ENERXICO Project focused on developing advanced simulation software solutions for oil & gas, wind energy and transportation powertrain industries.  The institutions that collaborated in the project are for México: ININ (Institution responsible for México), Centro de Investigación y de Estudios Avanzados del IPN (Cinvestav), Universidad Nacional Autónoma de México (UNAM IINGEN, FCUNAM), Universidad Autónoma Metropolitana-Azcapotzalco, Instituto Mexicano del Petróleo, Instituto Politécnico Nacional (IPN) and Pemex, and for the European Union: Centro de Supercómputo de Barcelona (Institution responsible for the EU), Technische Universitäts München, Alemania (TUM), Universidad de Grenoble Alpes, Francia (UGA), CIEMAT, España, Repsol, Iberdrola, Bull, Francia e Universidad Politécnica de Valencia, España.  

The Project contemplated four working packages (WP): 

WP1 Exascale Enabling: This was a cross-cutting work package that focused on assessing performance bottlenecks and improving the efficiency of the HPC codes proposed in vertical WP (UE Coordinator: BULL, MEX Coordinator: CINVESTAV-COMPUTACIÓN); 

WP2 Renewable energies:  This WP deployed new applications required to design, optimize and forecast the production of wind farms (UE Coordinator: IBR, MEX Coordinator: ININ); 

WP3 Oil and gas energies: This WP addressed the impact of HPC on the entire oil industry chain (UE Coordinator: REPSOL, MEX Coordinator: ININ); 

WP4 Biofuels for transport: This WP displayed advanced numerical simulations of biofuels under conditions similar to those of an engine (UE Coordinator: UPV-CMT, MEX Coordinator: UNAM); 

For WP1 the following codes were optimized for exascale computers: Alya, Bsit, DualSPHysics, ExaHyPE, Seossol, SEM46 and WRF.   

As an example, we present some of the results for the DualPHYysics code. We evaluated two architectures: The first set of hardware used were identical nodes, each equipped with 2 ”Intel Xeon Gold 6248 Processors”, clocking at 2.5 GHz with about 192 GB of system memory. Each node contained 4 Nvidia V100 Tesla GPUs with 32 GB of main memory each. The second set of hardware used were identical nodes, each equipped with 2 ”AMD Milan 7763 Processors”, clocking at 2.45 GHz with about 512 GB of system memory. Each node contained 4 Nvidia V100 Ampere GPUs with 40 GB of main memory each. The code was compiled and linked with CUDA 10.2 and OpenMPI 4. The application was executed using one GPU per MPI rank. 

In Figures 1 and 2 we show the scalability of the code for the strong and weak scaling tests that indicate that the scaling is very good. Motivated by these excellent results, we are in the process of performing in the LUMI supercomputer new SPH simulations with up to 26,834 million particles that will be run with up to 500 GPUs, which is 53.7 million particles per GPU. These simulations will be done initially for a Wave Energy Converter (WEC) Farm (see Figure 3), and later for turbulent models. 

Figure 1. Strong scaling test with a fix number of particles but increasing number of GPUs.

 

Figure 2. Weak scaling test with increasing number of particles and GPUs.

 

Figure 3. Wave Energy Converter (WEC) Farm (taken from https://corpowerocean.com/)

 

As part of WP3, ENERXICO developed a first version of a computer code called Black Hole (or BH code) for the numerical simulation of oil reservoirs, based on the numerical technique known as Smoothed Particle Hydrodynamics or SPH. This new code is an extension of the DualSPHysics code (https://dual.sphysics.org/) and is the first SPH based code that has been developed for the numerical simulation of oil reservoirs and has important benefits versus commercial codes based on other numerical techniques.  

The BH code is a large-scale massively parallel reservoir simulator capable of performing simulations with billions of “particles” or fluid elements that represent the system under study. It contains improved multi-physics modules that automatically combine the effects of interrelated physical and chemical phenomena to accurately simulate in-situ recovery processes. This has led to the development of a graphical user interface, considered as a multiple-platform application for code execution and visualization, and for carrying out simulations with data provided by industrial partners and performing comparisons with available commercial packages.  

Furthermore, a considerable effort is presently being made to simplify the process of setting up the input for reservoir simulations from exploration data by means of a workflow fully integrated in our industrial partners’ software environment.  A crucial part of the numerical simulations is the equation of state.  We have developed an equation of state based on crude oil data (the so-called PVT) in two forms, the first as a subroutine that is integrated into the code, and the second as an interpolation subroutine of properties’ tables that are generated from the equation of state subroutine.  

An oil reservoir is composed of a porous medium with a multiphase fluid made of oil, gas, rock and other solids. The aim of the code is to simulate fluid flow in a porous medium, as well as the behaviour of the system at different pressures and temperatures.  The tool should allow the reduction of uncertainties in the predictions that are carried out. For example, it may answer questions about the benefits of injecting a solvent, which could be CO2, nitrogen, combustion gases, methane, etc. into a reservoir, and the times of eruption of the gases in the production wells. With these estimates, it can take the necessary measures to mitigate their presence, calculate the expense, the pressure to be injected, the injection volumes and most importantly, where and for how long. The same happens with more complex processes such as those where fluids, air or steam are injected, which interact with the rock, oil, water and gas present in the reservoir. The simulator should be capable of monitoring and preparing measurement plans. 

In order to be able to perform a simulation of a reservoir oil field, an initial model needs to be created.  Using geophysical forward and inverse numerical techniques, the ENERXICO project evaluated novel, high-performance simulation packages for challenging seismic exploration cases that are characterized by extreme geometric complexity. Now, we are undergoing an exploration of high-order methods based upon fully unstructured tetrahedral meshes and also tree-structured Cartesian meshes with adaptive mesh refinement (AMR) for better spatial resolution. Using this methodology, our packages (and some commercial packages) together with seismic and geophysical data of naturally fractured reservoir oil fields, are able to create the geometry (see Figure 4), and exhibit basic properties of the oil reservoir field we want to study.  A number of numerical simulations are performed and from these oil fields exploitation scenarios are generated.

 

Figure 4. A detail of the initial model for a SPH simulation of a porous medium.

 

More information about the ENERXICO Project can be found in: https://enerxico-project.eu/

By: Jaime Klapp (ININ, México) and Isidoro Gitler (Cinvestav, México)

 

 

 

 

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More than 100 students participated in the HPC, Data & Architecture Week https://www.risc2-project.eu/2023/03/21/more-than-100-students-participated-in-the-hpc-data-architecture-week/ Tue, 21 Mar 2023 10:18:44 +0000 https://www.risc2-project.eu/?p=2790 RISC2 supported the ‘HPC, Data & Architecture Week’, which took place between March 13 and 17, 2023, in Buenos Aires. This initiative aimed to recover and deepen the training of human resources for the development of scientific applications and their efficient use in parallel computing environments. This event had four main courses: “Foundations of Parallel […]

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RISC2 supported the ‘HPC, Data & Architecture Week’, which took place between March 13 and 17, 2023, in Buenos Aires. This initiative aimed to recover and deepen the training of human resources for the development of scientific applications and their efficient use in parallel computing environments.

This event had four main courses: “Foundations of Parallel Programming”, “Large scale data processing and machine learning”, “New architectures and specific computing platforms”, and “Administrations techniques for large-scale computing facilities”.

More than 100 students actively participated in the event who traveled from different part of the country. 30 students received financial support to participate (traveling and living) provided by the National HPC System (SNCAD) dependent of the Argentina’s Ministry of Science.

Esteban Mocskos, one of the organizers of the event, believes “this kind of events should be organized regularly to sustain the flux of students in the area of HPC”. In his opinion, “a lot of students from Argentina get their first contact with HPC topics. As such a large country, impacting a distant region also means impacting the neighboring countries. Those students will bring their experience to other students in their places”. According to Mocskos, initiatives like the “HPC, Data & Architecture Week” spark a lot of collaborations.

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EU, Latin America and Caribbean partners launch in Colombia the EU-LAC Digital Alliance https://www.risc2-project.eu/2023/03/17/eu-latin-america-and-caribbean-partners-launch-in-colombia-the-eu-lac-digital-alliance/ Fri, 17 Mar 2023 10:22:24 +0000 https://www.risc2-project.eu/?p=2785 On 14 March Bogotá, Colombia, the European Union-Latin America and Caribbean Digital Alliance was launched, a joint initiative to champion a human-centric approach to digital transformation. It is supported by an initial contribution of €145 million from Team Europe, including €50 million from the EU budget to boost digital cooperation between both regions. The Alliance’s […]

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On 14 March Bogotá, Colombia, the European Union-Latin America and Caribbean Digital Alliance was launched, a joint initiative to champion a human-centric approach to digital transformation. It is supported by an initial contribution of €145 million from Team Europe, including €50 million from the EU budget to boost digital cooperation between both regions.

The Alliance’s aim is to foster the development of secure, resilient and human-centric digital infrastructures on the basis of a values-based framework, ensuring a democratic and transparent enabling environment and putting a strong emphasis on privacy and digital rights. It is the first intercontinental digital partnership agreed between both regions under Global Gateway investment strategy, the EU’s offer for trusted and sustainable connections with partner countries.

More information here.

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Towards a greater HPC capacity in Latin America https://www.risc2-project.eu/2023/02/24/towards-a-greater-hpc-capacity-in-latin-america/ Fri, 24 Feb 2023 15:36:39 +0000 https://www.risc2-project.eu/?p=2739 High-Performance Computing (HPC) has proven to be a strong driver for science and technology development, and is increasingly considered indispensable for most scientific disciplines. HPC is making a difference in key topics of great interest such as climate change, personalised medicine, engineering, astronomy, education, economics, industry and public policy, becoming a pillar for the development […]

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High-Performance Computing (HPC) has proven to be a strong driver for science and technology development, and is increasingly considered indispensable for most scientific disciplines. HPC is making a difference in key topics of great interest such as climate change, personalised medicine, engineering, astronomy, education, economics, industry and public policy, becoming a pillar for the development of any country, and to which the great powers are giving strategic importance and investing billions of dollars, in competition without limits where data is the new gold.

A country that does not have the computational capacity to solve its own problems will have no alternative but to try to acquire solutions provided by others. One of the most important aspects of sovereignty in the 21st century is the ability to produce mathematical models and to have the capacity to solve them. Today, the availability of computing power commensurate with one’s wealth exponentially increases a country’s capacity to produce knowledge. in the developed world, it is estimated that for every dollar invested in supercomputing, the return to society is of the order of US$ 44(1) and to the academic world US$ 30(2). For these reasons, HPC occupies an important place on the political and diplomatic agendas of developed countries. 

In Latin America, investment in HPC is very low compared to what’s the US, Asia and Europe are doing. In order to quantify this difference, we present the tables below, which show the accumulated computing capacity in the ranking of the 500 most powerful supercomputers in the world – the TOP500(3) – (Table 1), and the local reality (Table 2). Other data are also included, such as the population (in millions), the number of researchers per 1,000 inhabitants (Res/1000), the computing capacity per researcher (Gflops/Res) and the computing capacity per US$ million of GPD. In Table 1, we have grouped the countries by geographical area. America appears as the area with the highest computing capacity, essentially due to the USA, which has almost 45% of the world’s computing capacity in the TOP500. It if followed by Asia and then Europe. Tis TOP500 list includes mainly academic research centres, but also industry ones, typically those used in applied research (many private ones do not wish to publish such information for obvious reasons). For example, in Brazil – which shows good computing capacity with 88,175 TFlops – the vast majority is in the hands of the oil industry and only about 3,000 TFlops are used for basic research. Countries listed in the TOP500 invest in HPC from a few TFlops per million GDP (Belgium 5, Spain 7, Bulgaria 8), through countries investing in the order of hundreds (Italy 176, Japan 151, USA 138), to even thousands, as is the case in Finland with 1,478. For those countries where we were able to find data on the number of researchers, these range from a few Gflops per researcher (Belgium 19, Spain 24, Hungary 52) to close to 1,000 GFlops, i.e. 1 TFlop (USA 970, Italy 966), with Finland surpassing this barrier with 4,647. Note that, unlike what happens locally, countries with a certain degree of development invest every 3-4 years in supercomputing, so the data we are showing will soon be updated and there will be variations in the list. For example, this year a new supercomputer will come into operation in Spain(4), which, with an investment of some 150 million euros, will give Spain one of the most powerful supercomputers in Europe – and the world.

Country Rpeak 

(TFlops)

Population

(millions)

Res/1000 GFlops/Res Tflops/M US$
United States 3.216.124 335 9.9 969.7 138.0
Canada 71.911 39 8.8 209.5 40.0
Brazil 88.175 216 1.1 371.1  51.9
AMERICA 3.376.211 590      
           
China 1.132.071 1400     67.4
Japan 815.667 124 10.0 657.8 151.0
South Korea 128.264 52 16.6 148.6 71.3
Saudi Arabia 98.982 35     141.4
Taiwan 19.562 23     21.7
Singapore 15.785 6     52.6
Thailand 13.773 70     27.5
United Arab Emirates 12.164 10     15.2
India 12.082 1380     4.0
ASIA 2.248.353 3100      
           
Finland 443.391 6 15.9 4647.7 1478.0
Italy 370.262 59 6.5 965.5 176.3
Germany 331.231 85 10.1 385.8 78.9
France 251.166 65 11.4 339.0 83.7
Russia 101.737 145     59.8
United Kingdom 92.563 68 9.6 141.8 29.9
Netherlands 56.740 18 10.6 297.4 56.7
Switzerland 38.600 9 9.4 456.3 48.3
Sweden 32.727 10 15.8 207.1 54.5
Ireland 26.320 5 10.6 496.6 65.8
Luxembourg 18.291 0.6     365.8
Poland 17.099 38 7.6 59.2 28.5
Norway 17.031 6 13.0 218.3 34.1
Czech Republic 12.914 10 8.3 155.6 43.0
Spain 10.296 47 7.4 29.6 7.4
Slovenia 10.047 2 9.9 507.4 167.5
Austria 6.809 9 11.6 65.2 13.6
Bulgaria 5.942 6     8.5
Hungary 4.669 10 9.0 51.9 23.3
Belgium 3.094 12 13.6 19.0 5.2
EUROPA 1.850.934 610.6      
OTHER          
Australia 60.177 26     40.1
Morocco 5.014 39     50.1

Table 1. HPC availability per researcher and relative to GDP in the TOP500 countries (includes HPC in industry).

The local reality is far from this data. Table 2 shows data from Argentina, Brazil, Chile and Mexico. In Chile, the availability of computing power is 2-3 times less per researcher than in countries with less computing power in the OECD and up to 100 times less than a researcher in the US. In Chile, our investment measured in TFlops per million US$ of GDP is 166 times less than in the US; with respect to European countries that invest less in HPC it is 9 times less, and with respect to the European average (including Finland) it is 80 times less, i.e. the difference is considerable. It is clear that we need to close this gap. An investment go about 5 million dollars in HPC infrastructure in the next 5 years would close this gap by a factor of almost 20 times our computational capacity. However, returning to the example of Spain, the supercomputer it will have this year will offer 23 times more computing power than at present and, therefore, we will only maintain our relative distance. If we do not invest, the dap will increase by at least 23 times and will end up being huge. Therefore, we do not only need a one-time investment, but we need to ensure a regular investment. Some neighbouring countries are already investing significantly in supercomputing. This is the case in Argentina, where they are investing 7 million dollars (2 million for the datacenter and 5 million to buy a new supercomputer), which will increase their current capacities by almost 40 times(5).

Country Rpeak 

(TFlops)

Population (millions) Res/1000 GFlops/Res Tflops/M US$
Brazil* 3.000 216 1.1  12.6 1.8
Mexico 2.200 130 1.2 14.1 1.8
Argentina 400 45 1.2 7.4  0.8
Chile 250 20 1.3 9.6 0.8

Table 2. HPC availability per researcher and relative to GDP in the region (*only HPC capacity in academia is considered in this table).

For the above reasons, we are working to convince the Chilean authorities that we must have greater funding and, more crucially, permanent state funding in HPC. In relation to this, on July 6 we signed a collaboration agreement between 44 institutions with the support of the Ministry of Science to work on the creation of the National Supercomputing Laboratory(6). The agreement recognised that supercomputers are a critical infrastructure for Chile’s development, that it is necessary to centralise the requirements/resources at the national level, obtain permanent funding from the State and create a new institutional framework to provide governance. In an unprecedented inter-institutional collaboration in Chile, the competition for HPC resources at the national level is eliminated ad the possibility of direct funding from the State is opened up without generating controversy.

Undoubtedly, supercomputing is a fundamental pillar for the development of any country, where increasing investment provides a strategic advantage, and in Latin America we should not be left behind.

By NLHPC

 

References

(1) Hyperion Research HPC Investments Bring High Returns

(2) EESI-2 Special Study To Measure And Model How Investments In HPC Can Create Financial ROI And Scientific Innovation In Europe 

(3) https://top500.org/ 

(4) https://www.lavanguardia.com/ciencia/20230129/8713515/llega-superordenador-marenostrum-5-bsc-barcelona.html

(5) https://www.hpcwire.com/2022/12/15/argentina-announces-new-supercomputer-for-national-science/

(6) https://uchile.cl/noticias/187955/44-instituciones-crearan-el-laboratorio-nacional-de-supercomputacion

 

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