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Tag: GPU Computing

HPE FRONTIER - The world's most powerful supercomputer.

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/HPE FRONTIER - The world's most powerful supercomputer.

The Hewlett Packard Enterprise (HPE) Frontier supercomputer is one of the most powerful supercomputers in the world. It was developed in cooperation with the US Department of Energy (DOE) and is located at Oak Ridge National Laboratory in Tennessee, USA. The Frontier supercomputer was designed to help scientists solve the most complex and pressing problems in a variety of fields, including medicine, climate science and energy.

Tech specs

The HPE Frontier supercomputer is built on the HPE Cray EX supercomputer architecture, which consists of a combination of AMD EPYC processors and NVIDIA A100 GPUs. Its peak performance is 1.5 exaflops (one quintillion floating-point operations per second) and can perform more than 50,000 trillion calculations per second. The system has 100 petabytes of storage and can transfer data at up to 4.4 terabytes per second.

Applications

The HPE Frontier supercomputer is used for a wide range of applications, including climate modeling, materials science and astrophysics. It is also being used to develop new drugs and treatments for diseases such as cancer and COVID-19.

Climate modeling

The Frontier supercomputer is being used to improve our understanding of the Earth's climate system and to develop more accurate climate models. This will help scientists predict the impacts of climate change and develop mitigation strategies.

Development of materials

The supercomputer is also being used to model and simulate the behavior of materials at the atomic and molecular levels. This will help scientists develop new materials with unique properties, such as increased strength, durability and conductivity.

Astrophysics

The Frontier supercomputer is being used to simulate the behavior of the universe on a large scale, including the formation of galaxies and the evolution of black holes. This will help scientists better understand the nature of the universe and the forces that govern it.

Medical developments

The supercomputer is being used to simulate the behavior of biological molecules, such as proteins and enzymes, in order to develop new drugs and treatments for diseases. This will help scientists identify new targets for drug development and develop more effective treatments for a wide range of diseases.

Summary

The HPE Frontier supercomputer represents a major step forward in the development of high-performance computing. Its unprecedented computing power and storage capacity make it a valuable tool for researchers in many fields. Its ability to simulate complex systems at a high level of detail helps us better understand the world around us and develop solutions to some of the most pressing challenges facing humanity.

HPE FRONTIER – World’s Most Powerful Supercomputer

Posted on by praktyka Leave a Comment on HPE FRONTIER – World’s Most Powerful Supercomputer


/HPE FRONTIER – World’s Most Powerful Supercomputer

The Hewlett Packard Enterprise (HPE) Frontier supercomputer is one of the most powerful supercomputers in the world. It was developed in collaboration with the US Department of Energy (DOE) and is located at Oak Ridge National Laboratory in Tennessee, US. The Frontier supercomputer is designed to help scientists solve the most complex and pressing problems in a variety of fields, including medicine, climate science and energy.

Technical specifications

The HPE Frontier supercomputer is built on the HPE Cray EX supercomputer architecture, which consists of a combination of AMD EPYC processors and NVIDIA A100 GPUs. It has a peak performance of 1.5 exaflops (one quintillion floating point operations per second) and can perform more than 50,000 trillion calculations per second. The system has 100 petabytes of storage and can transfer data at up to 4.4 terabytes per second.

Applications

The HPE Frontier supercomputer is used for a wide range of applications, including climate modelling, materials science and astrophysics. It is also used to develop new drugs and treatments for diseases such as cancer and COVID-19.

Climate modelling

The Frontier supercomputer is being used to improve our understanding of the Earth’s climate system and to develop more accurate climate models. This will help scientists predict the impacts of climate change and develop mitigation strategies.

Materials science

The supercomputer is also being used to model and simulate the behaviour of materials at the atomic and molecular level. This will help scientists develop new materials with unique properties such as increased strength, durability and conductivity.

Astrophysics

The Frontier supercomputer is being used to simulate the large-scale behaviour of the universe, including the formation of galaxies and the evolution of black holes. This will help scientists better understand the nature of the universe and the forces that govern it.

Drug development

The supercomputer is being used to simulate the behaviour of biological molecules, such as proteins and enzymes, in order to develop new drugs and treatments for diseases. This will help scientists identify new targets for drug development and develop more effective treatments for a wide range of diseases.

Summary

The HPE Frontier supercomputer represents a major step forward in the development of high performance computing. Its unprecedented computing power and storage capacity make it a valuable tool for researchers in many fields. Its ability to simulate complex systems at a high level of detail helps us better understand the world around us and develop solutions to some of the most pressing challenges facing humanity.

NVIDIA H100 - Revolutionary graphics accelerator for high-performance computing

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/NVIDIA H100 - Revolutionary graphics accelerator for high-performance computing

NVIDIA, a leading graphics processing unit (GPU) manufacturer, has unveiled the NVIDIA h100, a revolutionary GPU gas pedal designed for high-performance computing (HPC). This groundbreaking gas pedal is designed to meet the demands of the most demanding workloads in the fields of artificial intelligence (AI), machine learning (ML), data analytics and more.

How it's built

NVIDIA h100 is a powerful GPU accelerator that is based on NVIDIA's Ampere architecture. It is designed to deliver unparalleled performance for HPC workloads and can support a wide range of applications, from deep learning to scientific simulation. The h100 is built on the NVIDIA A100 Tensor Core GPU, which is one of the most powerful GPUs available on the market today.

Unique features

The NVIDIA h100 is equipped with several features that set it apart from other GPU accelerators on the market. Some of the most notable features are:

  • High performance – The NVIDIA h100 is designed to deliver the highest level of performance for HPC workloads. It features 640 Tensor cores that offer up to 1.6 teraflops of performance in double precision mode and up to 3.2 teraflops of performance in single precision mode.
  • Memory bandwidth – The H100 has 320 GB/s of memory bandwidth, allowing it to easily handle large data sets and complex calculations.
  • NVLink – The H100 also supports NVIDIA's NVLink technology, which enables multiple GPUs to work together as a single unit. This enables faster data transfer and processing between GPUs, which can significantly increase performance in HPC workloads.
  • Scalability – NVIDIA h100 is highly scalable and can be used in a wide variety of HPC applications. It can be deployed in both on-premises and cloud environments, making it a flexible solution for organizations of all sizes.

Comparisson

When comparing the NVIDIA h100 to other GPU gas pedals on the market, there are a few key differences to consider. Here is a brief comparison between the NVIDIA h100 gas pedal and some of its top competitors:

  • NVIDIA H100 vs NVIDIA A100 - The NVIDIA H100 is built on the same architecture as the A100, but has twice the memory bandwidth and is optimized for HPC workloads.
  • NVIDIA H100 vs AMD Instinct MI100 - The H100 outperforms the MI100 in terms of single precision performance, memory bandwidth and power efficiency.
  • NVIDIA H100 vs. Intel Flex 170 – The H100 was designed specifically for HPC workloads, where Intel's Flex series is a more versatile gas pedal having weaker performance (80GB vs. 16GB of memory).

Summary

NVIDIA h100 is a powerful and versatile GPU accelerator that is designed for high-performance computing workloads. Its high performance, memory bandwidth and NVLink support make it an excellent choice for organizations that require superior computing power. Compared to top competitors, the h100 outperforms in HPC optimization and scalability, making it an ultimate accelerator.

NVIDIA H100 – Revolutionary Graphics Accelerator for High Performance Computing

Posted on by praktyka Leave a Comment on NVIDIA H100 – Revolutionary Graphics Accelerator for High Performance Computing


/NVIDIA H100 – Revolutionary Graphics Accelerator for High Performance Computing

NVIDIA, a leading graphics processing unit (GPU) manufacturer, has unveiled the NVIDIA h100, a revolutionary GPU gas pedal designed for high-performance computing (HPC). This groundbreaking gas pedal is designed to meet the demands of the most demanding workloads in the fields of artificial intelligence (AI), machine learning (ML), data analytics and more.

Construction

NVIDIA h100 is a powerful GPU gas pedal that is based on NVIDIA’s Ampere architecture. It is designed to deliver unparalleled performance for HPC workloads and can support a wide range of applications, from deep learning to scientific simulation. The h100 is built on the NVIDIA A100 Tensor Core GPU, which is one of the most powerful GPUs available on the market today.

Features

NVIDIA H100 comes with several features that set it apart from other GPU gas pedals on the market. Some of the most notable features are:

  • High performance: the NVIDIA H100 is designed to provide the highest level of performance for HPC workloads. It features 640 Tensor cores that offer up to 1.6 teraflops of performance in double precision mode and up to 3.2 teraflops of performance in single precision mode.
  • Memory bandwidth: the H100 has 320 GB/s of memory bandwidth, allowing it to easily handle large data sets and complex calculations.
  • NVLink: The h100 also supports NVIDIA’s NVLink technology, which allows multiple GPUs to work together as a single unit. This enables faster data transfer and processing between GPUs, which can significantly increase performance in HPC workloads.
  • Scalability: the NVIDIA H100 is highly scalable and can be used in a wide variety of HPC applications. It can be deployed in both on-premises and cloud environments, making it a flexible solution for organizations of all sizes.

Comparison

When comparing the NVIDIA h100 to other GPU gas pedals on the market, there are a few key differences to consider. Here is a brief comparison between the NVIDIA H100 gas pedal and some of its top competitors:

  • NVIDIA H100 vs. NVIDIA A100: The NVIDIA h100 is built on the same architecture as the A100, but has twice the memory bandwidth and is optimized for HPC workloads.
  • NVIDIA H100 vs. AMD Instinct MI100: The h100 outperforms the MI100 in terms of single precision performance, memory bandwidth and power efficiency.
  • NVIDIA H100 vs. Intel Xe-HP: h100 is designed specifically for HPC workloads, while Xe-HP is more versatile and can be used in a wider range of applications.

Summary

Overall, the NVIDIA H100 is a powerful and versatile GPU gas pedal that is designed for high-performance computing workloads. Its high performance, memory bandwidth and NVLink support make it an excellent choice for organizations that require superior computing power. Compared to top competitors, the h100 excels in HPC optimization and scalability, making it an excellent choice for organizations of all sizes.

NVIDIA Hits BIG in Data Center Market

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/NVIDIA Hits BIG in Data Center Market

Nvidia is a company known for producing high-performance graphics cards and gaming hardware, but the company is also making waves in the data centre space with its Nvidia Data Centre platform. The platform offers a set of hardware and software products designed to accelerate data centre workloads, from machine learning and AI to scientific computing and virtual desktop infrastructure.

Hardware offer

At the heart of the Nvidia Data Centre platform is a line of data centre GPUs, including the A100, V100 and T4. These chips are optimised to accelerate a wide range of workloads, from training deep learning models to running virtual desktops. They offer high levels of parallelism and performance, and are designed to be scalable and meet the needs of large data centers. In addition to GPUs, Nvidia also offers a range of data centre hardware products, including the DGX A100 system, which combines eight A100 GPUs with NVLink connectivity technology to deliver high performance computing and storage in a single server.

Software offer

In addition to its hardware products, Nvidia also offers a suite of software products designed to help data centre operators manage and optimise their workloads. This includes the Nvidia GPU Cloud (NGC), which provides a repository of pre-trained deep learning models, as well as tools to deploy and manage GPU-accelerated workloads. Nvidia also offers a range of software tools for managing and optimising GPU performance, including the Nvidia CUDA Toolkit, which provides a set of libraries and APIs for developing GPU-accelerated applications, and the Nvidia GPU Management Toolkit, which provides tools for monitoring and optimising GPU performance in data centre environments.

Use cases

The Nvidia Data Center platform is used across a wide range of industries and applications, from scientific computing and weather forecasting to financial services and healthcare. For example, the platform is used by the National Center for Atmospheric Research to perform high-resolution climate change simulations and by the Centers for Disease Control and Prevention to analyse genomic data to identify disease outbreaks. In the financial services industry, the Nvidia Data Centre platform is used to run complex risk simulations and predictive analytics models, while in healthcare it is used to accelerate medical imaging and drug discovery research.

Summary

The Nvidia Data Centre Platform offers a powerful set of hardware and software products designed to accelerate data centre workloads across a wide range of industries and applications. With a focus on GPU acceleration and high-performance computing, the platform is well suited for machine learning and artificial intelligence workloads, as well as scientific computing and virtual desktop infrastructure. As data centre workloads grow in complexity and scale, the Nvidia Data Centre platform is likely to play an increasingly important role in accelerating data centre performance and enabling new applications and use cases.

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