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BEIJING, Jan. 21, 2020 The 2020 ASC Student Supercomputer Challenge (ASC20) announced the tasks for the new season: using supercomputers to simulate Quantum circuit and training AI models to take English test. These tasks can be unprecedented challenges for the 300+ ASC teams from around the world. From April 25 to 29, 2020, top 20 finalists will fiercely compete at SUSTech in Shenzhen, China.

ASC20 set up Quantum Computing tasks for the first time. Teams are going to use the QuEST (Quantum Exact Simulation Toolkit) running on supercomputers to simulate 30 qubits in two cases: quantum random circuits (random.c), and quantum fast Fourier transform circuits (GHZ_QFT.c). Quantum computing is a disruptive technology, considered to be the next generation high performance computing. However the R&D of quantum computers is lagging behind due to the unique properties of quantum. It adds extra difficulties for scientists to use real quantum computers to solve some of the most pressing problems such as particle physics modeling, cryptography, genetic engineering, and quantum machine learning. From this perspective, the quantum computing task presented in the ASC20 challenge, hopefully, will inspire new algorithms and architectures in this field.

The other task revealed is Language Exam Challenge. Teams will take on the challenge to train AI models on an English Cloze Test dataset, vying to achieve the highest test scores. The dataset covers multiple levels of English language tests in China, including the college entrance examination, College English Test Band 4 and Band 6, and others. Teaching the machines to understand human language is one of the most elusive and long-standing challenges in the field of AI. The ASC20 AI task signifies such a challenge, by using human-oriented problems to evaluate the performance of neural networks.

Wang Endong, ASC Challenge initiator, member of the Chinese Academy of Engineering and Chief Scientist at Inspur Group, said that through these tasks, students from all over the world get to access and learn the most cutting-edge computing technologies. ASC strives to foster supercomputing & AI talents of global vision, inspiring technical innovation.

Dr. Lu Chun, Vice President of SUSTech host of the ASC20 Finals, commented that supercomputers are important infrastructure for scientific innovation and economic development. SUSTech makes focused efforts on developing supercomputing and hosting ASC20, hoping to drive the training of supercomputing talent, international exchange and cooperation, as well as inter discipline development at SUSTech.

Furthermore, during January 15-16, 2020, the ASC20 organizing committee held a competition training camp in Beijing to help student teams prepare for the ongoing competition. HPC and AI experts from the State Key Laboratory of High-end Server and Storage Technology, Inspur, Intel, NVIDIA, Mellanox, Peng Cheng Laboratory and the Institute of Acoustics of the Chinese Academy of Sciences gathered to provide on-site coaching and guidance. Previous ASC winning teams also shared their successful experiences.

About ASC

The ASC Student Supercomputer Challenge is the worlds largest student supercomputer competition, sponsored and organized by Asia Supercomputer Community in China and supported by Asian, European, and American experts and institutions. The main objectives of ASC are to encourage exchange and training of young supercomputing talent from different countries, improve supercomputing applications and R&D capacity, boost the development of supercomputing, and promote technical and industrial innovation. The annual ASC Supercomputer Challenge was first held in 2012 and has since attracted over 8,500 undergraduates from all over the world. Learn more ASC athttps://www.asc-events.org/.

Source: ASC

The rest is here:
ASC20 Finals to be Held in Shenzhen, Tasks Include Quantum Computing Simulation and AI Language Exam - HPCwire

The world of quantum is the world of the very, very small. At sizes near those of atoms and smaller, the rules of physics start morphing into something unrecognizableat least to us in the regular world. While quantum physics seems bizarre, it offers huge opportunities.

Quantum physics may hold the key to vast technological improvements in computing, sensing, and communication. Quantum computing may be able to solve problems in minutes that would take lifetimes on todays computers. Quantum sensors could act as extremely high-powered antennas for the military. Quantum communication systems could be nearly unhackable. But we dont have the knowledge or capacity to take advantage of these benefitsyet.

The Department of Energy (DOE) recently announced that it will establish Quantum Information Science Centers to help lay the foundation for these technologies. As Congress put forth in the National Quantum Initiative Act, the DOEs Office of Science will make awards for at least two and up to five centers.

These centers will draw on both quantum physics and information theory to give us a soup-to-nuts understanding of quantum systems. Teams of researchers from universities, DOE national laboratories, and private companies will run them. Their expertise in quantum theory, technology development, and engineering will help each center undertake major, cross-cutting challenges. The centers work will range from discovery research up to developing prototypes. Theyll also address a number of different technical areas. Each center must tackle at least two of these subjects: quantum communication, quantum computing and emulation, quantum devices and sensors, materials and chemistry for quantum systems, and quantum foundries for synthesis, fabrication, and integration.

The impacts wont stop at the centers themselves. Each center will have a plan in place to transfer technologies to industry or other research partners. Theyll also work to leverage DOEs existing facilities and collaborate with non-DOE projects.

As the nations largest supporter of basic research in the physical sciences, the Office of Science is thrilled to head this initiative. Although quantum physics depends on the behavior of very small things, the Quantum Information Science Centers will be a very big deal.

The Office of Science is the single largest supporter of basic research in the physical sciences in the United States and is working to address some of the most pressing challenges of our time. For more information, please visit https://www.energy.gov/science.

Read more:
New Centers Lead the Way towards a Quantum Future - Energy.gov

Something to look forward to: Some of the biggest problems that need solving in the enterprise world require sifting through vast amounts of data and finding the best possible solution given a number of factors and requirements, some of which are at times unknown. For years, quantum computing has been touted as the most promising jump in computational speed for certain kind of problems, but Toshiba says revisiting classical algorithms helped it develop a new one that can leverage existing silicon-based hardware to get a faster result.

Toshiba's announcement this week claims a new algorithm it's been perfecting for years is capable of analyzing market data much more quickly and efficiently than those used in some of the world's fastest supercomputers.

The algorithm is called the "Simulated Bifurcation Algorithm," and is supposedly good enough to be used in finding accurate approximate solutions for large-scale combinatorial optimization problems. In simpler terms, it can come up with a solution out of many possible ones for a particularly complex problem.

According to its inventor, Hayato Goto, it draws inspiration from the way quantum computers can efficiently comb through many possibilities. Work on SBA started in 2015, and Goto noticed that adding new inputs to a complex system with 100,000 variables makes it easy to solve it in a matter of seconds with a relatively small computational cost.

This essentially means that Toshiba's new algorithm could be used on standard desktop computers. To give you an idea how important this development is, Toshiba demonstrated last year that SBA can get highly accurate solutions for an optimization problem with 2,000 connected variables in 50 microseconds, or 10 times faster than laser-based quantum computers.

SBA is also highly scalable, meaning it can be made to work on clusters of CPUs or FPGAs, all thanks to the contributions of Kosuke Tatsumura, another one of Toshiba's senior researchers that specializes in semiconductors.

Companies like Microsoft, Google, IBM, and many others are racing to be the first with a truly viable quantum commercial system, but so far their approaches have produced limited results that live inside their labs.

Meanwhile, scientists like Goto and Kosuke are going back to the roots by exploring ways to improve on classical algorithms. Toshiba hopes to use SBA to optimize financial operations like currency trading and rapid-fire portfolio adjustments, but this could very well be used to calculate efficient routes for delivery services and molecular precision drug development.

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Toshiba says it created an algorithm that beats quantum computers using standard hardware - TechSpot

The Topological Quantum Computing market has been changing all over the world and we have been seeing a great growth In the Topological Quantum Computing market and this growth is expected to be huge by 2026 and in this report, we provide a comprehensive valuation of the marketplace. The growth of the market is driven by key factors such as manufacturing activity, risks of the market, acquisitions, new trends, assessment of the new technologies and their implementation. This report covers all of the aspects required to gain a complete understanding of the pre-market conditions, current conditions as well as a well-measured forecast.

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Top Companies are covering This Report:- Microsoft, IBM, Google, D-Wave Systems, Airbus, Raytheon, Intel, Hewlett Packard, Alibaba Quantum Computing Laboratory, IonQ.

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Detailed Analysis and Report on Topological Quantum Computing Market By Microsoft, IBM, Google. - New Day Live

UncategorizedByJohn Breaux|January 22, 2020

Some say that we are in the midst of a new technological revolution, with emerging technologies taking shape to transform the world we live in. As we step into a new decade, expect to see a handful of amazing advancements in technology that will dramatically shape our society at large.

Weve been told for years that self-driving cars are the future, but this decade will bring us the greatest advancements in this field as of yet. Companies have been researching and testing autonomous fleets of cars for years now, and some are finally gearing up to deploy them in the real world. Tesla has already released a self-driving feature in its popular electric vehicles, while Google-owned Waymo has completed a trial of autonomous taxi systems in California where it successfully transported more than 6000 people.

This radically powerful form of computing will continue to reach more practical applications throughout the decade. Quantum computers are capable of performing exponentially more powerful calculations when compared to traditional computing, but the size and power required to run them makes them difficult to use in a more practical sense. Further research in quantum, computing will allow greater application for solving real-world problems.

Augmenting our bodies with technology will become more common as wearable devices will allow us to improve everything from hearing to sight. Examples include devices and implants that will be able to enhance sensory capabilities, improve health, and contribute to a heightened quality of life and functional performance.

The advent of 5G will perhaps be one of the most impactful technologies for the many starting this year and proceeding onwards. 5G networks will have the capability of connecting us to the digital world in ways weve never had before, affording us blazing fast speeds of nearly 10 Gb/s. The speed of 5G will allow for seamless control of vast autonomous car fleets, precise robotic surgery, or streaming of 4K video with no buffering.

Drones are already a pivotal piece of technology in areas including transportation, surveillance, and logistics. Swarm robotics will be a new multi-robot system inspired by nature that will have major potential in completing tasks with unparalleled efficiency. Applications could include providing post-disaster relief, geological surveying, and even farming. Swarm robotics will be able to accomplish tasks through cooperative behavior while adapting to situations in ways that would not be possible with a single drone.

Excerpt from:
5 Emerging Technologies That Will Shape this Decade - San Diego Entertainer Magazine