High Performance Computing 

High-performance computing (HPC) is the ability to process data and perform complex calculations at high speeds. To put it into perspective, a laptop or desktop with a 3 GHz processor can perform around 3 billion calculations per second. While that is much faster than any human can achieve, it pales in comparison to HPC solutions that can perform quadrillions of calculations per second. 

 

One of the best-known types of HPC solutions is the supercomputer. A supercomputer contains thousands of compute nodes that work together to complete one or more tasks. This is called parallel processing. It’s similar to having thousands of PCs networked together, combining compute power to complete tasks faster.

Here you can find worldwide supercomputer ranking 

WHY HPC IS IMPORTANT

t is through data that groundbreaking scientific discoveries are made, game-changing innovations are fueled, and quality of life is improved for billions of people around the globe. HPC is the foundation for scientific, industrial, and societal advancements. 

 

As technologies like the Internet of Things (IoT), artificial intelligence (AI), and 3-D imaging evolve, the size and amount of data that organizations have to work with is growing exponentially. For many purposes, such as streaming a live sporting event, tracking a developing storm, testing new products, or analyzing stock trends, the ability to process data in real time is crucial.  

 

To keep a step ahead of the competition, organizations need lightning-fast, highly reliable IT infrastructure to process, store, and analyze massive amounts of data.

HOW DOES HPC WORKS 

HPC solutions have three main components:

 

  • Compute

  • Network

  • Storage

To build a high-performance computing architecture, compute servers are networked together into a cluster. Software programs and algorithms are run simultaneously on the servers in the cluster. The cluster is networked to the data storage to capture the output. Together, these components operate seamlessly to complete a diverse set of tasks. 

 

To operate at maximum performance, each component must keep pace with the others. For example, the storage component must be able to feed and ingest data to and from the compute servers as quickly as it is processed. Likewise, the networking components must be able to support the high-speed transportation of data between compute servers and the data storage. If one component cannot keep up with the rest, the performance of the entire HPC infrastructure suffers.

WHAT IS AN HPC CLUSTER 

An HPC cluster consists of hundreds or thousands of compute servers that are networked together. Each server is called a node. The nodes in each cluster work in parallel with each other, boosting processing speed to deliver high-performance computing.

HPC USE-CASES

Deployed on premises, at the edge, or in the cloud, HPC solutions are used for a variety of purposes across multiple industries. Examples include:

 

  • Research labs. HPC is used to help scientists find sources of renewable energy, understand the evolution of our universe, predict and track storms, create new materials, accelerate discover of new drugs.

  • Media and entertainment. HPC is used to edit feature films, render mind-blowing special effects, and stream live events around the world.

  • Oil and gas. HPC is used to more accurately identify where to drill for new wells and to help boost production from existing wells.

  • Artificial intelligence and machine learning. HPC is used to detect credit card fraud, provide self-guided technical support, teach self-driving vehicles, and improve cancer screening techniques.

  • Financial services. HPC is used to track real-time stock trends and automate trading.

  • HPC is used to design new products, simulate test scenarios, and make sure that parts are kept in stock so that production lines aren’t held up.

  • HPC is used to help develop cures for diseases like diabetes and cancer and to enable faster, more accurate patient diagnosis.

CHELONIA and HPC

 

Projects:

Through above projects, Chelonia is partnering CINECA, Barcelona Supercomputing Center, ENI, Jülich Forshungszentrum