Archive for the ‘Quantum Computing’ Category

Devs: Here’s the real science behind the quantum computing TV show – New Scientist News

In TV series Devs, a tech company has built an extremely powerful quantum computer. The show is both beautiful and captivating, says Rowan Hooper

By Rowan Hooper

BBC/FX Networks

Devs

BBC iPlayer and FX on Hulu

Halfway through episode two of Devs, there is a scene that caused me first to gasp, and then to swear out loud. A genuine WTF moment. If this is what I think it is, I thought, it is breathtakingly audacious. And so it turns out. The show is intelligent, beautiful and ambitious, and to aid in your viewing pleasure, this spoiler-free review introduces some of the cool science it explores.

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Alex Garlands eight-part seriesopens with protagonists Lilyand Sergei, who live in a gorgeous apartment in San Francisco. Like their real-world counterparts, people who work atFacebook orGoogle, the pair take the shuttle bus to work.

They work at Amaya, a powerful but secretive technology company hidden among the redwoods. Looming over the trees is a massive, creepy statue of a girl: the Amaya the company is named for.

We see the company tag line asLily and Sergei get off the bus: Your quantum future. Is it just athrow-away tag, or should we think about what that line means more precisely?

Sergei, we learn, works on artificial intelligence algorithms. At the start of the show, he gets some time with the boss, Forest, todemonstrate the project he has been working on. He has managed to model the behaviour of a nematode worm. His team has simulated the worm by recreating all 302 of its neurons and digitally wiring them up. This is basically the WormBot project, an attempt to recreate a life form completely in digital code. The complete map of the connections between the 302 neurons of the nematode waspublished in 2019.

We dont yet have the processing power to recreate theseconnections dynamically in a computer, but when we do, it will be interesting to consider if the resulting digital worm, a complete replica of an organic creature, should be considered alive.

We dont know if Sergeis simulation is alive, but it is so good, he can accurately predict the behaviour of the organic original, a real worm it is apparently simulating, up to 10 seconds in thefuture. This is what I like about Garlands stuff: the show has only just started and we have already got some really deep questions about scientific research that is actually happening.

Sergei then invokes the many-worlds interpretation of quantum mechanics conceived by Hugh Everett. Although Forest dismisses this idea, it is worth getting yourhead around it because the show comes back to it. Adherents say that the maths of quantum physics means the universe isrepeatedly splitting into different versions, creating a vast multiverse of possible outcomes.

At the core of Amaya is the ultrasecretive section where thedevelopers work. No one outside the devs team knows what it is developing, but we suspect it must be something with quantum computers. I wondered whether the devssection is trying to do with the 86 billion neurons of thehuman brain what Sergei has been doing with the 302 neurons of the nematode.

We start to find out when Sergei is selected for a role in devs. He must first pass a vetting process (he is asked if he is religious, a question that makes sense later) and then he is granted access to the devs compound sealed by alead Faraday cage, gold mesh andan unbroken vacuum.

Inside is a quantum computer more powerful than any currently in existence. How many qubits does it run, asks Sergei, looking inawe at the thing (it is beautiful, abit like the machines being developed by Google and IBM). Anumber that it is meaningless to state, says Forest. As a reference point, the best quantum computers currently manage around 50 qubits, or quantum bits. We can only assume that Forest has solved the problem ofdecoherence when external interference such as heat or electromagnetic fields cause qubits to lose their quantum properties and created a quantum computer with fantasticprocessing power.

So what are the devs using it for? Sergei is asked to guess, and then left to work it out for himself from gazing at the code. He figures it out before we do. Then comes that WTF moment. To say any more will give away the surprise. Yet as someone remarks, the world is deterministic, but with this machine we are gaining magical powers. Devs has its flaws, but it is energising and exciting to see TV this thoughtful: it cast a spell on me.

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Devs: Here's the real science behind the quantum computing TV show - New Scientist News

VTT to acquire Finland’s first quantum computer seeking to bolster Finland’s and Europe’s competitiveness – Quantaneo, the Quantum Computing Source

Quantum technology will revolutionise many industrial sectors, and will already begin spawning new, nationally significant business and research opportunities over the next few years. Advancements in quantum technology and, in particular, the technological leap afforded by quantum computers aka the quantum leap will enable unprecedented computing power and the ability to solve problems that are impossible for todays supercomputers.

Building this quantum computer will provide Finland with an exceptional level of capabilities in both research and technology, and will safeguard Finlands position at the forefront of new technology. The goal is to create a unique ecosystem for the development and application of quantum technology in Finland, in collaboration with companies and universities. VTT hopes to partner with progressive Finnish companies from a variety of sectors during the various phases of implementation and application.

The development and construction of Finlands quantum computer will be carried out as an innovation partnership that VTT will be opening up for international tender. The project will run for several years and its total cost is estimated at about EUR 2025 million.

The project will progress in stages. The first phase will last for about a year and aims to get a minimum five-qubit quantum computer in working order. However, the ultimate goal is a considerably more powerful machine with a larger number of qubits.

In the future, well encounter challenges that cannot be met using current methods. Quantum computing will play an important role in solving these kinds of problems. For example, the quantum computers of the future will be able to accurately model viruses and pharmaceuticals, or design new materials in a way that is impossible with traditional methods, says Antti Vasara, CEO of VTT.

Through this project, VTT is seeking to be a world leader in quantum technology and its application.

The pandemic has shocked not only Finlands economy but also the entire world economy, and it will take us some time to recover from the consequences. To safeguard economic recovery and future competitiveness, its now even more important than ever to make investments in innovation and future technologies that will create demand for Finnish companies products and services, says Vasara.

VTT has lengthy experience and top expertise in both quantum technology research and related fields of science and technology, such as superconductive circuits and cryogenics, microelectronics and photonics. In Otaniemi, VTT and Aalto University jointly run Micronova, a world-class research infrastructure that enables experimental research and development in quantum technologies. This infrastructure will be further developed to meet the requirements of quantum technologies. Micronovas cleanrooms are already equipped to manufacture components and products based on quantum technologies.

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VTT to acquire Finland's first quantum computer seeking to bolster Finland's and Europe's competitiveness - Quantaneo, the Quantum Computing Source

2020 Innovations in Cell Rejuvenation, COVID-19 Diagnostic Kits & Vaccines, Biobased Plastics, Renewable Energy, and Quantum Computing -…

DUBLIN--(BUSINESS WIRE)--The "2020 Innovations in Cell Rejuvenation, COVID-19 Diagnostic Kits and Vaccines, Biobased Plastics, Renewable Energy, and Quantum Computing" report has been added to ResearchAndMarkets.com's offering.

This edition of the Inside R&D Technology Opportunity Engine (TOE) features trends and innovations based on the development of lead vaccines and diagnostic test kits to combat the COVID-19 pandemic outbreak. The TOE also provides intelligence on the use of novel innovations that help in developing numerous antibodies for the COVID-19 virus. The TOE also features innovations in developing anti-aging cells and the use of artificial intelligence and digital platforms for pandemic contact tracking.

The TOE additionally provides insights on using modular thermal energy storage devices and combined heat and power solutions to enhance the positive impact on the environment. Furthermore, the TOE covers enhancing capabilities of robots, efficient hydrogen production, and the use of composites in marine, oil & gas industries. It also focuses on innovations related to the use of carbon-silicon composites, biodegradable insulation material, and cellulose-based polyamides.

Key Topics Covered

For more information about this report visit https://www.researchandmarkets.com/r/v1gekk

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2020 Innovations in Cell Rejuvenation, COVID-19 Diagnostic Kits & Vaccines, Biobased Plastics, Renewable Energy, and Quantum Computing -...

Topological Quantum Computing Market Growth by Top Companies, Trends by Types and Application, Forecast to 2026 – Cole of Duty

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Moreover, the Topological Quantum Computing report offers a detailed analysis of the competitive landscape in terms of regions and the major service providers are also highlighted along with attributes of the market overview, business strategies, financials, developments pertaining as well as the product portfolio of the Topological Quantum Computing market. Likewise, this report comprises significant data about market segmentation on the basis of type, application, and regional landscape. The Topological Quantum Computing market report also provides a brief analysis of the market opportunities and challenges faced by the leading service provides. This report is specially designed to know accurate market insights and market status.

By Regions:

* North America (The US, Canada, and Mexico)

* Europe (Germany, France, the UK, and Rest of the World)

* Asia Pacific (China, Japan, India, and Rest of Asia Pacific)

* Latin America (Brazil and Rest of Latin America.)

* Middle East & Africa (Saudi Arabia, the UAE, , South Africa, and Rest of Middle East & Africa)

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Table of Content

1 Introduction of Topological Quantum Computing Market

1.1 Overview of the Market1.2 Scope of Report1.3 Assumptions

2 Executive Summary

3 Research Methodology

3.1 Data Mining3.2 Validation3.3 Primary Interviews3.4 List of Data Sources

4 Topological 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 Topological Quantum Computing Market, By Deployment Model

5.1 Overview

6 Topological Quantum Computing Market, By Solution

6.1 Overview

7 Topological Quantum Computing Market, By Vertical

7.1 Overview

8 Topological 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 Topological 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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Topological Quantum Computing Market Growth by Top Companies, Trends by Types and Application, Forecast to 2026 - Cole of Duty

Quantum Computing Market with Future Prospects, Key Player SWOT Analysis and Fo – News by aeresearch

The recent study on Quantum Computing Market Share | Industry Segment by Applications (Defense, Healthcare & pharmaceuticals, Chemicals, Banking & finance and Energy & power), by Type (Hardware, Software and Services), Regional Outlook, Market Demand, Latest Trends, Quantum Computing Industry Growth & Revenue by Manufacturers, Company Profiles, Growth Forecasts 2026. Analyzes current market size and upcoming 5 years growth of this industry.

The Global Quantum Computing Market gives us an in-depth overview of the research trends for the Financial Year 2020. This Report studies the Quantum Computing industry on various parameters such as the raw materials, cost, and technology and consumer preference. It also provides with important Quantum Computing market credentials such as the history, various expansions and trends, trade overview, regional markets, trade and also market competitors.

Trade analysis of the market is also the key aspects of the report as it provides information on the import and export of the product across the globe. Analysis tools like SWOT analysis and Porters five force model have been provided to present a perfect in-depth knowledge about Quantum Computing market. The industry is also been analyzed in terms of value chain analysis and analysis of regulatory policies.

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The major market players operating in the industry are:

The study also illustrates the competitive landscape of foremost manufacturers in the industry with their diverse portfolio and geographical expansion activities. The Quantum Computing market also includes participants financial overview which consists of an assessment of revenue outcomes, sales volume, gross margin, cash flow, capital investment, and growth rate which will allow clients to gain intact knowledge of participants financial strengths and position in the global Quantum Computing industry.

By the product type, the market primarily split into:

By the product Applications, the market primarily split into:

Scope and Segmentation of The Report:

Our expert analyst has categorized the market into product type, application/end-user, and geography. All the segments are analyzed based on their market share, growth rate, and growth potential. The growth potential, market share, size, and prospects of each segment and sub-segment are portrayed in the report. This thorough evaluation of the segments would help the players to focus on revenue-generating areas of the global Quantum Computing market.

Highpoints of Quantum Computing Industry:

The study objectives are:

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Quantum Computing Market with Future Prospects, Key Player SWOT Analysis and Fo - News by aeresearch