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China is on the brink of releasing the world’s first exascale supercomputer, a machine that is capable of a billion, billion calculations per second.
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What is Exascale Computing?
Exascale computing is a term used to describe a computer system that is capable of carrying out at least one exaflops-worth of operations. This is the equivalent of a million billion calculations per second.
Definition of Exascale
According to Andres, exascale computing is defined as a system that is capable of calculations at 10^18 floating-point operations per second. This is a significant increase from the petascale computing systems which are only capable of 10^15 floating-point operations per second. Exascale computing systems would be used for a variety of tasks such as weather prediction, large scale simulations, and data analysis.
Andres goes on to say that China is working on their own exascale system which they hope to have operational by 2020. He argues that China’s development of this technology puts them ahead of the united states in the race to develop exascale computing systems.
Exascale Computing in China
The era of exascale computing is upon us, and China is leading the way. In June 2016, Chinese scientists announced they had pilot tested the world’s first exascale supercomputer, the Sunway TaihuLight. This machine is capable of a mind-boggling 93 petaflops–meaning it can perform over 93 quadrillion calculations per second. To put that in perspective, if every person on Earth used just one Sunway TaihuLight supercomputer, we would be able to complete all of humanity’s current computational needs in just over an hour.
While the United States is still working on getting its own exascale supercomputers up and running (with a projected completion date of 2021), China is already planning to move beyond exascale. At the 2018 International Supercomputing Conference, Chinese researchers announced their plans to build a “next-generation” computer that would be able to perform at one billion billion calculations per second–or one zettaflop. This would make it nearly 100 times more powerful than the Sunway TaihuLight.
There are many potential applications for this kind of computing power, ranging from faster weather forecasting and climate modeling to more accurate predictions of earthquake damage and improved drug development. As we enter this new era of supercomputing, it is clear that China is leading the way–and setting the pace for the rest of the world.
China’s Exascale Computing Plans
China has plans to operationalize an exascale computer by the end of 2020. This would be a remarkable achievement, as no country has yet achieved this goal. Exascale tech is still in its infancy, and China’s plans could make it the world leader in this area of computing.
China’s Exascale Computing Roadmap
China has been working towards deploying exascale computing technology for a number of years, and was on track to deploy its first system by 2020. However, recent reports suggest that the country may have hit a snag in its plans.
China’s exascale roadmap was first revealed in a report by the China Academy of Sciences back in 2011. The country has been working towards three key goals: to deploy an exascale supercomputer by 2020, to develop a prototype system by 2018, and to carry out research and development on exascale technology.
While China was originally on track to meet its 2020 deadline, it is now unclear if the country will be able to achieve this goal. In 2017, it was reported that China’s first exascale supercomputer would not be ready until 2021 or 2022. This delay is due to a number of factors, including the complexity of the systems, difficulties in obtaining sufficient power, and challenges in developing the required software.
Despite these setbacks, China remains committed to its exascale plans and is still aiming to deploy its first system by 2022. If successful, this would make China the first country in the world to deploy exascale computing technology.
China’s First Exascale Supercomputer
China’s first exascale supercomputer is expected to be operational by the end of 2020, according to an update from the country’s state-run Xinhua news agency.
The computer, which is being developed by the Chinese Academy of Sciences (CAS), will reportedly be able to perform a quintillion calculations per second. This speed is necessary to meet the demands of artificial intelligence (AI), big data, and other computationally intensive applications.
The machine will use a combination of processors and graphics processing units (GPUs) from Chinese tech companies such as Lenovo and Sugon. It will be housed at the National Supercomputing Center in Wuxi, Jiangsu Province.
Once operational, the supercomputer will greatly improve China’s ability to process large amounts of data and could give the country an edge in AI research. It also represents a significant achievement for CAS, which has been working on exascale computing for several years.
How Exascale Computing Will Impact the World
At a recent conference in China, a representative from the country’s National Supercomputing Center announced that the center had achieved “exascale” computing. This is a significant achievement, as China is now the first country to reach this level of computing power. Exascale computing is a hot topic in the tech industry as it has the potential to change the way we live and work. Let’s take a closer look at what exascale computing is and how it will impact the world.
Exascale Computing’s Potential Applications
Exascale computing is a term for computing systems that can perform at least one exaFLOPS and can handle approximately one billion-billion (10^18) calculations per second. The first exascale system is expected to be operational by 2020.
Exascale computing has the potential to revolutionize many fields, including Big Data analytics, AI, climate modeling, and medical research. For example, exascale systems could be used to create more realistic simulations of Earth’s climate, which would help scientists better understand climate change and develop more effective mitigation strategies. Additionally, exascale systems could be used to process large amounts of data from medical imaging devices, such as MRI machines, and derive new insights into diseases.
While the potential applications of exascale computing are vast, the development of these systems is challenging due to their size and complexity. Exascale systems will require unprecedented levels of power efficiency in order to be practical, as well as novel approaches to system design and software development.
The Impact of China’s Exascale Computing Plans
In recent years, China has made massive strides in the field of exascale computing. Chinese companies have developed prototype systems that are capable of performing a million trillion calculations per second, and the Chinese government has plans to deploy a fully operational exascale system by 2020. Exascale computing is a thousand times more powerful than current petascale system and could revolutionize fields like AI and big data analytics.
The impact of China’s exascale plans goes beyond simply increasing the country’s computational power. China’s development of exascale technology is also a major geopolitical challenge to the United States, which has been the dominant player in the field of high-performance computing (HPC) for decades. In addition to its economic implications, exascale also has important national security implications; whoever controls this technology will have a significant advantage in fields like predictive analytics and cyber warfare.
The United States is currently working on its own exascale plans, but is lagging behind China. If America does not catch up soon, it could lose its position as the global leader in HPC – with far-reaching consequences for both the economy and national security.
