#exascale

October 18th is...

Chocolate Cupcake Day - Celebrates the sweetness of small chocolate cakes. With a dollop of frosting, one sweet serving satisfies chocolate and cake lovers!

Clean Your Virtual Desktop Day - A clean and organized space offers fewer frustrations. Everything is in its file and you know where to find it. Archive old files. Create short cuts. This will help your computer run faster and help you find them more quickly. Pin favorite apps to the start menu.  Name photos and put them on a thumb drive. Clean out that email, too. Delete unused icons. Make sure your virus protection is up to date and run it. Make sure it runs on a regular schedule. 

Developmental Language Disorder Awareness Day - DLD Day for short was launched to initiate the new terminology that described previous speech disorders. With the campaign ‘DLD 1-2-3’, it promoted awareness of these issues and helped spread knowledge about how common DLD can occur in children’s lives. Developmental Language Disorder is when a child or young adult has difficulty understanding language and speaking.

Exascale Day -  This era in technology will have a profound impact on nearly every aspect of our daily lives. It will impact everything from healthcare and manufacturing to understanding new energy sources and the origins of the universe. Exascale is defined as a quintillion computations per second. For perspective, if all 7.7 billion people on earth each completed one calculation per second, it would take over 4 years. An exascale computer can complete a quintillion computations in 1 second.

International Legging Day - Once a necessity providing an added layer of warmth, the legging is now an iconic style combining comfort and fashion. Leggings truly set a trend in the 1950s and ‘60s as a standard wardrobe piece and workout essential. Over time, breathable materials, textures, designs, and prints ushered in the undeniable era of leggings. Now, modern-day leggings are feats of engineering designed to enhance your workout. While they continue to be a gym essential, legging styles are now so versatile that they’re widely acceptable to wear as pants. In a wide range of looks, comfortable leggings offer something for everyone.

No Beard Day - Whether you have had your beard for years or it is relatively new for you, this is the day to shave it off and go smooth. Achieving a close, kissable shave is a lost art that faded with a generation that had the first color televisions installed. Consider investing in the tools your grandfather or possibly your great-grandfather used – either a safety razor or a straight razor will give you the closest shave along with a natural bristled shaving brush and shaving soap. More care and time may be required, but the results are well worth the effort.

Europe has officially entered the exascale computing arena with JUPITER, a groundbreaking supercomputer poised to reshape research across numerous fields. Nature recently detailed this significant technological achievement, and we’re diving deep into what makes JUPITER so important – especially in the context of the global AI race. What Does Exascale Computing Mean? Before we discuss JUPITER…

Jupiter : Le Supercalculateur Qui Redéfinit le Futur de la Technologie Européenne ⚡ L’Europe entre de plain-pied dans une nouvelle ère de la science et de la technologie. Le coup d’envoi de cette révolution est donné par le supercalculateur Jupiter, une machine dont la puissance colossale n’est rien de moins qu’un milliard de milliards d’opérations par seconde. Ce n’est pas qu’une simple machine…

What is exascale computing?

Supercomputers that execute 1018 operations per second are used in exascale computing. Field specialists predict this milestone around 2022. The explosive growth of big data, the rapid acceleration of digital transformation, and the growing dependence on artificial intelligence have made exascale computing a potential foundation for a global infrastructure that can handle much heavier workloads and demanding performance standards.

Why is Exascale Computing Important?

Exascale computing can help mankind simulate and analyze the globe to solve its most pressing challenges. It has applications in physics, genetics, subatomic structures, and AI, and it might improve weather forecasting, healthcare, and drug development, among other domains. Arm Neoverse is revolutionizing high-performance computing by powering the fastest supercomputer and enabling cloud HPC. Arm provides HPC designers with the design freedom to independently apply the technologies that boost performance in exascale-class CPUs.

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What are the benefits of exascale computing?

The ability to tackle problems at extraordinarily complex levels is the foundation of exascale computing’s main advantages.

Scientific discovery: The field of scientific technology is always evolving. Supercomputing is urgently needed as advancements, validations, and research continue to further scientific understanding. Exascale computing has the capacity to regulate unstable chemicals and materials, answer for the origins of chemical elements, verify natural laws, and investigate particle physics. Without the ability to use supercomputing, scientific discoveries would not have been possible as a result of the research and analysis of these subjects.

Security: The security industry has a high demand for supercomputing. Exascale computing promotes development and efficiency in food production, sustainable urban planning, and natural disaster recovery planning while also assisting us in fending off new physical and cybersecurity to the national, energy, and economic security.

National Security: Exascale computing‘s ability to analyze hostile situations and respond intelligently to threats is advantageous for national security. This amount of processing, which counters many hazards and threats to the nation’s safety, happens at almost unfathomable speeds.

Energy security: Exascale computing makes energy security possible by facilitating the study of stress-resistant crops and aiding in the development of low-emission technology. An essential part of the country’s security initiatives is making sure that food and energy supplies are sustainable.

Economic security: Exascale computing improves economic security in a number of ways. It makes it possible to accurately analyze the danger of natural disasters, including anticipating seismic activity and developing preventative measures. Supercomputing is particularly advantageous for urban planning as it helps with plans for effective building and use of the electricity and electric grid.

Healthcare: Exascale computing has a lot to offer the medical sector, particularly in the area of cancer research. Crucial procedures in cancer research have been transformed and expedited by clever automation capabilities and prediction models for drug responses.

How does exascale computing work?

To simulate the universe’s basic forces, exascale computers solve 1,000,000,000,000,000,000 floating point operations per second.

Built from scratch, these supercomputers address today’s massive demands in analytics, AI, convergence modeling, and simulation. Exascale supercomputers accept a variety of CPUs and GPUs, even from different generations, multisocket nodes, and other processing devices in a single integrated infrastructure, resulting in dependable performance.

Computing design is essential to meeting the demands of your company since workloads change quickly. Supercomputers have a single administration and app development architecture, can be built, and have a variety of silicon processing options.

It require machines that can respond to the most challenging research problems in the world. Despite the enormous amount of hardware and components utilized in their construction, exascale computers are capable of answering these queries by moving data between processors and storage rapidly and without lag.

Exascale computing vs quantum computing

Exascale computing

Systems that use an infrastructure of CPUs and GPUs to handle and analyze data may execute billions of calculations per second, a phenomenon known as exascale computing. Digital systems work in tandem with the world’s most potent hardware to operate this kind of computing.

Quantum computing

Conventional computing techniques do not apply to quantum computing because quantum systems use binary codes to operate simultaneously. The foundation of this process is the simultaneous occurrence of super positioning and entanglement of coding, which is made possible by the principles of quantum theory in physics and efficiently analyzes and solves issues.

Compared to quantum computing, exascale computing can now process and solve issues, inform, and provide technical advancements at a far faster rate. But at this point, quantum computing is poised to significantly outperform exascale computer power. Additionally, quantum computing uses a lot less energy to run workloads comparable to those of exascale supercomputers.

This powerhouse supercomputer just became the FASTEST AI system in the world! It can handle massive amounts of data for scientific discovery at an incredible rate.

Curious what it can do? Check out my post for the details! ➡️