Category Archives: Quantum Computing
Quantum Internet Workshop Begins Mapping the Future of Quantum Communications – Quantaneo, the Quantum Computing Source
Building on the efforts of the Chicago Quantum Exchange at the University of Chicago, Argonne and Fermi National Laboratories, and LiQuIDNet (Long Island Quantum Distribution Network) at Brookhaven National Laboratory and Stony Brook University, the event was organized by Brookhaven. The technical program committee was co-chaired by Kerstin Kleese Van Dam, director of the Computational Science Initiative at Brookhaven, and Inder Monga, director of ESnet at Lawrence Berkeley National Lab.
The dollars we have put into quantum information science have increased by about fivefold over the last three years, Dabbar told the New York Times on February 10 after the Trump Administration announced a new budget proposal that includes significant funding for quantum information science, including the quantum Internet.
In parallel with the growing interest and investment in creating viable quantum computing technologies, researchers believe that a quantum Internet could have a profound impact on a number of application areas critical to science, national security, and industry. Application areas include upscaling of quantum computing by helping connect distributed quantum computers, quantum sensing through a network of quantum telescopes, quantum metrology, and secure communications.
Toward this end, the workshop explored the specific research and engineering advances needed to build a quantum Internet in the near term, along with what is needed to move from todays limited local network experiments to a viable, secure quantum Internet.
This meeting was a great first step in identifying what will be needed to create a quantum Internet, said Monga, noting that ESnet engineers have been helping Brookhaven and Stony Brook researchers build the fiber infrastructure to test some of the initial devices and techniques that are expected to play a key role in enabling long-distance quantum communications. The group was very engaged and is looking to define a blueprint. They identified a clear research roadmap with many grand challenges and are cautiously optimistic on the timeframe to accomplish that vision.
Berkeley Labs Thomas Schenkel was the Labs point of contact for the workshop, a co-organizer, and co-chair of the quantum networking control hardware breakout session. ESnets Michael Blodgett also attended the workshop.
Excerpt from:
Quantum Internet Workshop Begins Mapping the Future of Quantum Communications - Quantaneo, the Quantum Computing Source
The EU is preparing to invest 2bn in a cloud computing alliance – NS Tech
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The European Commission has set out plans to invest 2bn in a trustworthy and energy efficient cloud computing alliance as part of a drive to unshackle the bloc from US digital infrastructure.
The initiative was included in a package of measures unveiled by senior Commission officials today in a bid to restore the continents technological sovereignty.
The funding, which would form part of a 15bn investment in Europes Digital, Industry and Space cluster, will be funnelled into a High Impact project on European data spaces, according to the Commission.
Details of the plans remain elusive, but its expected that the funding will go towards the Gaia-X programme, a French and German-led initiative aimed at bringing together cloud providers from across the continent. The initiative has attracted criticism from the US tech industry, which, primarily thanks to Amazon Web Services, dominates the global infrastructure-as-a-service market.
Speaking in Brussels on Wednesday, the Commissions industry czar Thierry Breton said that a key plank of the plans would focus on creating shared trusts for industrial data. The battle for industrial data starts now and Europe will be the main battlefield. Europe has the largest industrial base. The winners of today will not be the winners of tomorrow, he told reporters.
The Commission also published proposals on Wednesday to redraft antitrust laws, police online content and create legislation governing artificial intelligence, amid concerns that the EU is failing to keep pace with the US and China on technology and that existing measures to rein in firms such as Facebook, Google, Amazon and Apple have failed to effect long-lasting change.
In a statement issued on Wednesday, new Commission president Ursula von der Leyen (pictured) said: Europes digital transition must protect and empower citizens, businesses and society as a whole. It has to deliver for people so that they feel the benefits of technology in their lives. To make this happen, Europe needs to have its own digital capacities be it quantum computing, 5G, cybersecurity or artificial intelligence (AI).
The Commission plans to consult on the plans over the coming months, before bringing forward legislation later in the year.
Link:
The EU is preparing to invest 2bn in a cloud computing alliance - NS Tech
Govt creates tech group to chart the tech landscape for India – Economic Times
New Delhi: The government has created an empowered Technology Group consisting of 12 members which will be headed the Principal Scientific Adviser to Government of India Professor K Vijay Raghavan. The Union Cabinet, chaired by the Prime Minister Narendra Modi approved the decision today.
"This Group is mandated to render timely policy advice on latest technologies; mapping of technology and technology products; commercialisation of dual use technologies developed in national laboratories and government R&D organisations; developing an indigenisation road map for selected key technologies; and selection of appropriate R&D programs leading to technology development," said the statement issued by the Press Information Bureau.
The Constitution of Technology Group may address the issues of silo-centric approaches to development of technology, technology standards either not developed or applied, leading to sub-optimal industrial development, dual use technologies not being optimally commercialised, R&D programs not aligned to efforts at technology development and need for mapping of technologies important for applications in society and industry.
ET had reported earlier that VijayRaghavan also heads a committee on AI which is tasked with developing a roadmap for AI in the country. The committee also has representation from the secretary in the department of science and technology, the CEO of Niti Aayog and secretary of the ministry of electronics and IT. The government has also announced Rs. 8,000 funding for Quantum Computing in the Budget 2020.
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Govt creates tech group to chart the tech landscape for India - Economic Times
Quantum Computing Market Analysis With Key Players, Applications, Trends and Forecast To 2026 – Instant Tech News
Quantum Computing Market Overview:
Verified Market Research adds new research report Quantum Computing Market Development Overview 2020, The report includes an in-depth analysis of the toggle switch market, taking into account market dynamics, segmentation, geographic expansion, competitive landscape and some other key issues. The market analysts who prepared the report have thoroughly examined the toggle switch market and provided reliable and accurate data. They understand the needs of the industry and customers, which makes it easier for them to focus on the problems that end users have been looking for. The research report provides an analysis of an assessment of existing and future trends in which players can invest. It also includes an assessment of the players financial perspectives and the nature of the competition.
Global Quantum Computing Market was valued at USD 89.35 million in 2016 and is projected to reach USD 948.82 million by 2025, growing at a CAGR of 30.02% from 2017 to 2025.
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Top 10 Companies in the Quantum Computing Market Research Report:
Competitive Landscape
The competitive landscape is a must-have information for the marketplayersto withstand the competition present in theglobal Quantum Computing market. This further helps the market participants to develop effective strategies to optimize their market positions. Moreover, the competitive analysis helps them to determine potential advantages as well as barriers within the global Quantum Computing market. This way, they can monitor how their competitors are implementing various strategies including pricing, marketing, and distribution.
The report analyses thecurrent trends, growth opportunities, competitive pricing, restraining factors, and boosters that may have an impact on the overall dynamics of the global Quantum Computing market. The report analytically studies the microeconomic and macroeconomic factors affecting the global Quantum Computing market growth. New and emerging technologies that may influence the global Quantum Computing market growth are also being studied in the report.
Global Quantum Computing Market: Regional Segmentation
For a deeper understanding, the research report includes geographical segmentation of the global Quantum Computing market. It provides an evaluation of the volatility of the political scenarios and amends likely to be made to the regulatory structures. This assessment gives an accurate analysis of the regional-wise growth of the global Quantum Computing market.
Regions Covered by the global market for Quantum Computing :
Middle East and Africa (GCC countries and Egypt)North America (USA, Mexico and Canada)South America (Brazil, etc.)Europe (Turkey, Germany, Russia, Great Britain, Italy, France etc.)Asia Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia and Australia)
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The study objectives are:
Important Questions Answered in this Report:-
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TAGS: Quantum Computing Market Size, Quantum Computing Market Growth, Quantum Computing Market Forecast, Quantum Computing Market Analysis, Quantum Computing Market Trends, Quantum Computing Market
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Quantum Computing Market Analysis With Key Players, Applications, Trends and Forecast To 2026 - Instant Tech News
Russian Quantum Center and Nissan have launched a project in the field of quantum chemistry – Quantaneo, the Quantum Computing Source
Modeling of complex systems such as materials, batteries, and medicines is extremely difficult for existing computers. The next generation of computing devices, which are quantum computers, will be able to solve such problems more efficiently. As a result, the business will be able to find practical solutions such as modeling of new materials, production of devices of a new class from such materials, and selection of optimal characteristics or reactions inside these materials, which are necessary for increasing the subsequent efficiency. One of the real challenges for the industry and business is the modeling of chemical compounds used in the batteries manufacturing process.
As part of the project, we are developing quantum chemistry methods using machine learning and quantum optimization. We plan to integrate the developed methods into the material design system, which is used today in Nissan. This will allow Nissan to unlock the huge potential of quantum computing for its tasks, and in the future, to achieve technological leadership, said Alexey Fedorov, Head of the Group Quantum Information Technologies RQC, Ph.D. in Theoretical Physics.
Quantum technologies are promising for solving many industrial challenges. The materials that can be created with quantum chemistry will significantly increase the power and capacity of batteries. As a result, we will get the opportunity to create highly efficient and environmentally-friendly transport, as well as new solutions. The future is behind these technologies and, together with our partner, Russian Quantum Center, we are striving to become a pioneer in this industry, said Shigeo Ibuka, Head of Nissan R&D center in Russia, Ph.D. in Physics.
In the long term, the use of quantum technologies will significantly reduce the time for the development of new materials, as well as predict their compliance with the requirements of industry and business. The RQC team will conduct research using both existing quantum computers and their own-developed quantum-inspired algorithms.
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Russian Quantum Center and Nissan have launched a project in the field of quantum chemistry - Quantaneo, the Quantum Computing Source
QUANTUM COMPUTING TECHNOLOGIES Market: Comprehensive study explores Huge Growth in Future | D-Wave Systems Inc., IBM Corporation, Lockheed Martin…
The QUANTUM COMPUTING TECHNOLOGIES market research report added by Report Ocean, is an in-depth analysis of the latest trends, market size, status, upcoming technologies, industry drivers, challenges, regulatory policies, with key company profiles and strategies of players. The research study provides market introduction, QUANTUM COMPUTING TECHNOLOGIES market definition, regional market scope, sales and revenue by region, manufacturing cost analysis, Industrial Chain, market effect factors analysis, QUANTUM COMPUTING TECHNOLOGIES market size forecast, 100+ market data, Tables, Pie Chart, Graphs and Figures, and many more for business intelligence.
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In the QUANTUM COMPUTING TECHNOLOGIES Market, some of the major companies are:
D-Wave Systems Inc.IBM CorporationLockheed Martin CorporationIntel CorporationAnyon Systems Inc.Cambridge Quantum Computing Limited
The report consists of various chapters and company profiling is a major among them. Company profiling garners business intelligence and track key elements of a business, such as:
QUANTUM COMPUTING TECHNOLOGIES Market: Insights
Global Quantum Computing Technologies Market valued approximately USD 75.0 million in 2018 is anticipated to grow with a healthy growth rate of more than 24.0% over the forecast period 2019-2026. The Quantum Computing Technologies Market is continuously growing in the global scenario at significant pace. As it is recognized as a computer technology based on the principles of quantum theory, which explains the nature and behavior of energy and matter on the quantum level. A Quantum computer follows the laws of quantum physics through which it can gain enormous power, have the ability to be in multiple states and perform tasks using all possible permutations simultaneously. Surging implementation of machine learning by quantum computer, escalating application in cryptography and capability in simulating intricate systems are the substantial driving factors of the market during the forecast period. Moreover, rising adoption & utility in cyber security is the factors that likely to create numerous opportunity in the near future. However, lack of skilled professionals is one of the major factors that restraining the growth of the market during the forecast period.
The regional analysis of Global Quantum Computing Technologies Market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. North America is the leading/significant region across the world in terms of market share due to increasing usage of quantum computers by government agencies and aerospace & defense for machine learning in the region. Europe is estimated to grow at second largest region in the global Quantum Computing Technologies market over the upcoming years. Further, Asia-Pacific is anticipated to exhibit higher growth rate / CAGR over the forecast period 2019-2026 due to rising adoption of quantum computers by BFSI sectors in the region.
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The objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players.
The Global QUANTUM COMPUTING TECHNOLOGIES Market is segmented into various sub-groups to understand the market scenario in detail, the market segmentation are as follows:
By Application:OptimizationMachine LearningSimulation
By Vertical:BFSIIT and TelecommunicationHealthcareTransportationGovernmentAerospace & DefenseOthers
Other Report Highlights Competitive Landscape Sales, Market Share, Geographical Presence, Business Segments Product Benchmarking. Market Dynamics Drivers and Restraints. Market Trends. Porter Five Forces Analysis. SWOT Analysis.
Furthermore, the years considered for the study are as follows:
Historical year 2013-2017
Base year 2018
Forecast period** 2019 to 2025 [** unless otherwise stated]
Regional split of the Global QUANTUM COMPUTING TECHNOLOGIES Market research report is as follows:
The market research study offers in-depth regional analysis along with the current market scenarios. The major regions analyzed in the study are:
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Questions answered in the QUANTUM COMPUTING TECHNOLOGIES market research report:
Key highlights and important features of the Report:
Overview and highlights of product and application segments of the global QUANTUM COMPUTING TECHNOLOGIES Market are provided. Highlights of the segmentation study include price, revenue, sales, sales growth rate, and market share by product.
Explore about Sales data of key players of the global QUANTUM COMPUTING TECHNOLOGIES Market as well as some useful information on their business. It talks about the gross margin, price, revenue, products, and their specifications, type, applications, competitors, manufacturing base, and the main business of key players operating in the QUANTUM COMPUTING TECHNOLOGIES Market.
Explore about gross margin, sales, revenue, production, market share, CAGR, and market size by region.
Describe QUANTUM COMPUTING TECHNOLOGIES Market Findings and Conclusion, Appendix, methodology and data source;
Research Methodology:
We identify the major drivers and restraints for every region (North America, Latin America, Europe, Asia Pacific, & Middle East) of any particular market with a weightage value of how it is impacting the market. For each driver and restraint, we provide weightage in short term, medium term, and long term. Here the driver acts as a pull factor and restraint as a push factor.
Primary ResearchKey players in the market are identified through review of secondary sources such as industry whitepapers, annual reports, published reports by credible agencies, financial reports and published interviews of Key Opinion Leaders (KOLs) from leading companies. During the primary interviews, KOLs also suggested some producers that are included under the initial scope of the study. We further refined company profile section by adding suggested producers by KOLs. KOLs include Chief Executive Officer (CEO), general managers, vice presidents, sales directors, market executives, R&D directors, product managers, procurement managers, export managers etc. During the research process, all the major stakeholders across the value chain are contacted for conducting primary interviews.
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There are 15 Chapters to display the Global QUANTUM COMPUTING TECHNOLOGIES Market:
Chapter 1, to describe Definition, Specifications and Classification of Global QUANTUM COMPUTING TECHNOLOGIES, Applications of, Market Segment by Regions;Chapter 2, to analyze the Manufacturing Cost Structure, Raw Material and Suppliers, Manufacturing Process, Industry Chain Structure;Chapter 3, to display the Technical Data and Manufacturing Plants Analysis of , Capacity and Commercial Production Date, Manufacturing Plants Distribution, Export & Import, R&D Status and Technology Source, Raw Materials Sources Analysis;Chapter 4, to show the Overall Market Analysis, Capacity Analysis (Company Segment), Sales Analysis (Company Segment), Sales Price Analysis (Company Segment);Chapter 5 and 6, to show the Regional Market Analysis that includes United States, EU, Japan, China, India & Southeast Asia, Segment Market Analysis (by Type);Chapter 7 and 8, to explore the Market Analysis by Application Major Manufacturers Analysis;Chapter 9, Market Trend Analysis, Regional Market Trend, Market Trend by Product Type, Market Trend by Application;Chapter 10, Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis;Chapter 11, to analyze the Consumers Analysis of Global QUANTUM COMPUTING TECHNOLOGIES by region, type and application;Chapter 12, to describe QUANTUM COMPUTING TECHNOLOGIES Research Findings and Conclusion, Appendix, methodology and data source;Chapter 13, 14 and 15, to describe QUANTUM COMPUTING TECHNOLOGIES sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.
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QUANTUM COMPUTING TECHNOLOGIES Market: Comprehensive study explores Huge Growth in Future | D-Wave Systems Inc., IBM Corporation, Lockheed Martin...
Quantum Internet Workshop Begins Mapping the Future of Quantum Communications – HPCwire
Feb. 12, 2020 The U.S. Department of Energys Office of Science, under the leadership of Under Secretary of Energy Paul Dabbar, sponsored around 70 representatives from multiple government agencies and universities at the firstQuantum Internet Blueprint Workshop, held in New York City Feb. 5-6. The primary goal of the workshop was to begin laying the groundwork for a nationwide entangled quantum Internet.
Building on the efforts of theChicago Quantum Exchangeat the University of Chicago, Argonne and Fermi National Laboratories, andLiQuIDNet(Long Island Quantum Distribution Network) at Brookhaven National Laboratory and Stony Brook University, the event was organized by Brookhaven. The technical program committee was co-chaired by Kerstin Kleese Van Dam, director of the Computational Science Initiative at Brookhaven, and Inder Monga, director of ESnet at Lawrence Berkeley National Lab.
The dollars we have put into quantum information science have increased by about fivefold over the last three years, Dabbartold the New York Timeson February 10 after the Trump Administration announced a new budget proposal that includes significant funding for quantum information science, including the quantum Internet.
In parallel with the growing interest and investment in creating viable quantum computing technologies, researchers believe that a quantum Internet could have a profound impact on a number of application areas critical to science, national security, and industry. Application areas include upscaling of quantum computing by helping connect distributed quantum computers, quantum sensing through a network of quantum telescopes, quantum metrology, and secure communications.
Toward this end, the workshop explored the specific research and engineering advances needed to build a quantum Internet in the near term, along with what is needed to move from todays limited local network experiments to a viable, secure quantum Internet.
This meeting was a great first step in identifying what will be needed to create a quantum Internet, said Monga, noting that ESnet engineers have been helping Brookhaven and Stony Brook researchers build the fiber infrastructure to test some of the initial devices and techniques that are expected to play a key role in enabling long-distance quantum communications. The group was very engaged and is looking to define a blueprint. They identified a clear research roadmap with many grand challenges and are cautiously optimistic on the timeframe to accomplish that vision.
Berkeley Labs Thomas Schenkel was the Labs point of contact for the workshop, a co-organizer, and co-chair of the quantum networking control hardware breakout session. ESnets Michael Blodgett also attended the workshop.
About ESnet
The Energy Sciences Network (ESnet) is a high-performance, unclassified network built to support scientific research. Funded by the U.S. Department of Energys Office of Science (SC) and managed by Lawrence Berkeley National Laboratory, ESnet provides services to more than 50 DOE research sites, including the entire National Laboratory system, its supercomputing facilities, and its major scientific instruments. ESnet also connects to 140 research and commercial networks, permitting DOE-funded scientists to productively collaborate with partners around the world.
Source: ESnet
Link:
Quantum Internet Workshop Begins Mapping the Future of Quantum Communications - HPCwire
Quantum Computing Market 2020 Trends, Market Share, Industry Size, Opportunities, Analysis and Forecast by 2026 – Instant Tech News
Quantum Computing Market Overview:
Global Quantum Computing Market was valued at USD 89.35 million in 2016 and is projected to reach USD 948.82 million by 2025, growing at a CAGR of 30.02% from 2017 to 2025.
In the report, we thoroughly examine and analyze the Global market for Quantum Computing so that market participants can improve their business strategy and ensure long-term success. The reports authors used easy-to-understand language and complex statistical images, but provided detailed information and data on the global Quantum Computing market. This report provides players with useful information and suggests result-based ideas to give them a competitive advantage in the global Quantum Computing market. Show how other players compete in the global Quantum Computing market and explain the strategies you use to differentiate yourself from other participants.
The researchers provided quantitative and qualitative analyzes with evaluations of the absolute dollar opportunity in the report. The report also includes an analysis of Porters Five Forces and PESTLE for more detailed comparisons and other important studies. Each section of the report offers players something to improve their gross margins, sales and marketing strategies, and profit margins. As a tool for insightful market analysis, this report enables players to identify the changes they need to do business and improve their operations. You can also identify key electrical bags and compete with other players in the global Quantum Computing market.
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Top 10 Companies in the Quantum Computing Market Research Report:
QC Ware Corp., D-Wave Systems, Cambridge Quantum Computing, IBM Corporation, Magiq Technologies, Qxbranch, Research at Google Google, Rigetti Computing, Station Q Microsoft Corporation, 1qb Information Technologies
Quantum Computing Market Competition:
Each company evaluated in the report is examined for various factors such as the product and application portfolio, market share, growth potential, future plans and recent developments. Readers gain a comprehensive understanding and knowledge of the competitive environment. Most importantly, this report describes the strategies that key players in the global Quantum Computing market use to maintain their advantage. It shows how market competition will change in the coming years and how players are preparing to anticipate the competition.
Quantum Computing Market Segmentation:
The analysts who wrote the report ranked the global Quantum Computing market by product, application, and region. All sectors were examined in detail, focusing on CAGR, market size, growth potential, market share and other important factors. The segment studies included in the report will help players focus on the lucrative areas of the global Quantum Computing market. Regional analysis will help players strengthen their base in the major regional markets. This shows the opportunities for unexplored growth in local markets and how capital can be used in the forecast period.
Regions Covered by the global market for Smart Camera:
Middle East and Africa (GCC countries and Egypt)North America (USA, Mexico and Canada)South America (Brazil, etc.)Europe (Turkey, Germany, Russia, Great Britain, Italy, France etc.)Asia Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia and Australia)
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Table of Content
1 Introduction of Quantum Computing Market
1.1 Overview of the Market1.2 Scope of Report1.3 Assumptions
2 Executive Summary
3 Research Methodology of Verified Market Research
3.1 Data Mining3.2 Validation3.3 Primary Interviews3.4 List of Data Sources
4 Quantum Computing Market Outlook
4.1 Overview4.2 Market Dynamics4.2.1 Drivers4.2.2 Restraints4.2.3 Opportunities4.3 Porters Five Force Model4.4 Value Chain Analysis
5 Quantum Computing Market, By Deployment Model
5.1 Overview
6 Quantum Computing Market, By Solution
6.1 Overview
7 Quantum Computing Market, By Vertical
7.1 Overview
8 Quantum Computing Market, By Geography
8.1 Overview8.2 North America8.2.1 U.S.8.2.2 Canada8.2.3 Mexico8.3 Europe8.3.1 Germany8.3.2 U.K.8.3.3 France8.3.4 Rest of Europe8.4 Asia Pacific8.4.1 China8.4.2 Japan8.4.3 India8.4.4 Rest of Asia Pacific8.5 Rest of the World8.5.1 Latin America8.5.2 Middle East
9 Quantum Computing Market Competitive Landscape
9.1 Overview9.2 Company Market Ranking9.3 Key Development Strategies
10 Company Profiles
10.1.1 Overview10.1.2 Financial Performance10.1.3 Product Outlook10.1.4 Key Developments
11 Appendix
11.1 Related Research
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TAGS: Quantum Computing Market Size, Quantum Computing Market Growth, Quantum Computing Market Forecast, Quantum Computing Market Analysis, Quantum Computing Market Trends, Quantum Computing Market
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Quantum Computing Market 2020 Trends, Market Share, Industry Size, Opportunities, Analysis and Forecast by 2026 - Instant Tech News
Nobody is behind in science and technology: Serguie Beloussov – Kuensel, Buhutan’s National Newspaper
The CEO of Acronis, a reputed global technology company, talks on the future of computers and opportunities
Ugyen Penjore
Artificial Intelligence, Quantum Computing, Internet of Things, Cloud Computing. Sounds too technically sophisticated and way beyond comprehension?
If that was what most in the audience felt when invited to a talk on Future of Computing, the guest speaker, Serguie Beloussov, left many convinced that the future is in science and technology.
Serguie Beloussov is the Chief Executive Officer of Acronis, a reputed global technology company and the founder of Schaffhausen Institute of Technology (SIT), Switzerland.
Bhutan should take advantage of its smallness and use it as an opportunity to get ahead in the field of science and technology, said Serguie Beloussov, who is also a serial tech entrepreneur. Drawing examples of Switzerland where his company SIT is located and Singapore where he is currently based, he said Switzerland was a small poor farming country before it started precision manufacturing. Singapore, he said, transformed from a small poor country to one of the wealthiest nation based on science and technology.
The smallness is not a threat. It is an opportunity. Science could be the future for Bhutan, he said.
In technology and science, the number of people, he said, was not important. It is about having smart people. Albert Einstein in one year did more to science than all the 30million PhD holders did in 50 years, he said. Bhutan, he added, has the advantage given its culture and ethics. In science and technology, ethics matters.
On the importance of quantum computers, Serguie Beloussov, who is also the first man to bring cyber protection to motorsports, said the world was becoming digital whether we want it or not. The world is transforming from primarily a physical world of the past to the digital world of the future. The world is now about Internet of things, next generations computers, big data, virtual reality and space exploration.
On how and where Bhutan could start, Serguie Beloussov, said IT is an amazing field where everything changes every 10 years. There is no way that you are behind because there are many aspects to IT that are new. You can just start new and will be starting fresh with everyone else, he said.
Serguie Beloussov said real-world problems need computers to solve it. The problems of aging and diseases, environment and global warming, social justice and poverty could be solved with better computers, he said. If we have the right computers, we could predict the problems of the universe. Quantum computers are a reality and there are amazing features to solve once unsolvable problems.
The digital world, however, is fragile and needs security. Therefore, cyber protection has become the basic need in the digital world. Without cyber protection, we cannot continue in the future just like we cannot continue living without immune system. Immune system for the digital world is cyber protection.
The CEO said cybersecurity was a priority for Bhutan too. There is no choice. Whether you wan to be happy or unhappy, you have to have cyber security as you have gone digital, he said. For Bhutan, cyber security is more important given our geographic location.
On the apprehension that supercomputers or building the next generation of computers would require resources, human and material, Serguie Beloussov said science and technology are not really difficult or complicated as many believe although a lot of symbols and technical data are involved. Sixty years ago when people were using information theory and computer science, it was for scientists. Today, it is for everyone. Quantum physics actually simpler than classical physics. In fact, it is not harder to learn it than arithmetic, he said. 300 years ago, only the priests could read and they are considered special people. Today everybody could read, write and count. This is no harder.
GNH and the digital world
Calling himself a believer in knowledge, Serguie Beloussov said that knowledge could make people happier when asked about how the drive for technology featured in the concept of Gross national Happiness. I believe that without knowledge, you will be unhappy. And so, if you are refusing technology, its effectively refusing knowledge.
Bhutanese, he said, were a lot happier than others, but the ranking was not high on the happiness ranking. He pointed out issues related to unemployment. People want employment. In my country, we have 100 percent employment and people are happy. I dont think you can argue that you want to have less jobs, he said.
On GDP, Serguie Beloussov said the world cares about GDP. People want to be having higher levels of life. Everybody wants to have a nice house, live longer lives, they to be sick less, get better education, he said.
In my opinion, if you increase the life of a person, you provide them better education, better schools, better healthcare, better roads, better food, better environment, cleaner forest.
IT hub in Bhutan?
At the talk, the CEO said that SIT was considering establishing a South Asia campus in Bhutan. Although it is at an initial stage, the founder of SIT said that leveraging on IT could create high-end jobs, attract high-end tourists and promote local industries and the government.
He said that just 10,000 IT jobs in the country could add about 30,000 non-IT jobs, develop Bhutanese tech companies and add about Nu 3Billion to the GDP.
He also said that SIT campuses could create leaders. The first approach for a SIT campuses in the country would be approaching Cyber security, Atificial Intelligence and machine learning, software engineering and robotics in the field of computers.
In the field of business, the approach is on digitilising health, new generation business management, digital sports digital learning and education and artificial intelligence in arts and design.
The talk on Tuesday, February 11, was organised by His Majestys secretariat at Taj Hotel, Thimphu.
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Nobody is behind in science and technology: Serguie Beloussov - Kuensel, Buhutan's National Newspaper
Quantum Computing Market Size Outlook 2026: Prime Firms, Trends, Growth Factors Details by Regions, Sorts and Applications – Instant Tech News
The report titled on Quantum Computing Market report offers in-intensity analysis of the worldwide market size (Production, Value and Consumption), splits the breakdown (data status 2014-2019 and 6 Forces forecast 2020 to 2026), by manufacturers, region, type and application. Quantum Computing market competitive landscape provides details by topmost manufactures like (D-Wave Systems, Google, IBM, Intel, Microsoft, 1QB Information Technologies, Anyon Systems, Cambridge Quantum Computing, ID Quantique, IonQ, QbitLogic, QC Ware, Quantum Circuits, Qubitekk, QxBranch, Rigetti Computing), including Company Overview, Company Total Revenue (Financials), Market Potential, Presence, Quantum Computing Sales and Revenue Generated, Market Share, Price, Production Sites And Facilities, SWOT Analysis, Product Launch. In the end, there are 4 key segments covered in this Quantum Computing market report: Competitor Segment, Product Type Segment, End Use/Application Segment and Quantum Computing industry geography segment.
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Quantum Computing Market Report Offers Comprehensive Assessment of:
1) Executive Summary, 2) Quantum Computing Market Overview, 3) Key Market Trends, 4) Key Success Factors, 5) Market Demand/Consumption (Value or Size in US$ Mn) Analysis, 6) Quantum Computing Market Background, 7) Quantum Computing industry Analysis & Forecast 20202026 by Type, Application and Region, 8) Quantum Computing Market Structure Analysis, 9) Competition Landscape, 10) Company Share and Company Profiles, 11) Assumptions and Acronyms and, 12) Research Methodology etc.
Scope of Quantum Computing Market:Quantum computing is a technology that applies the laws of quantum mechanics to computational ability. It includes three states, namely 1, 0 as well as the superposition of 1 and 0. Superposition indicates that two states exist at the same time. These bits are known as quantum bits or qubits. The global quantum computing market consists of the hardware that is required to develop quantum computers and its peripherals.
North America accounted for the largest share of the overall quantum computing market in 2017. On the other hand, Asia Pacific (APAC) would be the fastest growing region for quantum computing during the forecast period. This growth can be attributed to the increasing demand for quantum technology to solve the most tedious and complex problems in the defense and banking & finance industry.
On the basis of product type, this report displays the shipments, revenue (Million USD), price, and market share and growth rate of each type.
Hardware Software Services
On the basis on the end users/applications,this report focuses on the status and outlook for major applications/end users, shipments, revenue (Million USD), price, and market share and growth rate foreach application.
Defense Healthcare & pharmaceuticals Chemicals Banking & finance Energy & power
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The report offers in-depth assessment of the growth and other aspects of the Quantum Computing Market in Important Countries (Regions), including:
Important Key Questions Answered In Quantum Computing Market Report:
What will the Market Growth Rate, Overview, and Analysis by Type of Quantum Computing in 2026?
What are the key factors affecting market dynamics? What are the Drivers, Challenges, and Business Risks in Quantum Computing market?
What is Dynamics, This Overview Includes Analysis of Scope and price analysis of top Manufacturers Profiles?
Who Are Opportunities, Risk and Driving Force of Quantum Computing market? Knows Upstream Raw Materials Sourcing and Downstream Buyers.
Who are the key manufacturers in space? Business Overview by Type, Applications, Gross Margin, and Quantum Computing Market Share
What are the Opportunities and Threats Faced by Manufacturers in the global Quantum Computing market?
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Quantum Computing Market Size Outlook 2026: Prime Firms, Trends, Growth Factors Details by Regions, Sorts and Applications - Instant Tech News