Quantum Computing- The UK and Europe play catch-up with the USA and China. – Electropages
The my Quantum computer is bigger than yours game has played out for many years, and the leading contenders in the Qubits superiority race are the USA and China.
Now Europe wants to get a seat at the big Quantum table, and there are EU consortiums and British led partnerships aiming to not only develop a hyper-fast computer but crucially, one that has many practical applications commercially.
So what are they up against? Well, the machine to beat at present is the Chinese computer called Jiuzhang, which the Chinese claim is just a mere 10billion times faster than Googles current offering. China says this gives them Quantum supremacy, but then they would because thats exactly the term used by Google to describe its Quantum offering.
Is there a difference between the Chinese machine and Googles? Yes, there is. Jiuzhang makes its calculations using optical circuits, whereas Google's uses Sycamore, which is superconducting materials on a chip, a design that resembles classical computers.
But, in the technological chest-thumping world of Quantum computing, there is just one boast that everyone wants to make, and that is, mines the fastest.
In the need-for-speed, Chinas Jiuzhang computer is claimed to be 100 trillion times faster than supercomputers. This means in seconds. It can do what normal computers would take millions of years to achieve. These figures are impressive, but a word of caution here does depend on what test the Quantum computer was given to perform as different tests can produce different computational speed results.
Nevertheless, the speed of true Quantum computing is mind-boggling, to say the least, and the real question is how these speeds are achieved? Qubits are how.
Normal computers can only calculate using bits that have only two working states that of 0 or 1. Quantum machines have bits (Qubits) that can provide numerous different states simultaneously. This is what gives them a tremendous speed boost. Get a load of these Qubits in a synchronised linkage, and they can calculate in seconds what would take a conventional computer millions of years.
Qubits represent atoms, ions, photons or electrons and give Quantum computers their inherent parallelism. This means that whereas a conventional computer will work on a single calculation, a Quantum computer can simultaneously work on millions.
But its not just all about the speed. Quantum computing falls in a big way in three areas, and these are, firstly, exactly what tests were made to achieve certain speed results. Secondly, are Quantum computers reliable and, thirdly, what practical applications can they handle that makes them a commercially viable proposition?
The point about speed tests is that not all speed tests are created equal. Quantum computers have to be set up to perform a specific function. To test Jiuzhang, the computer had to calculate the output of a complex circuit that used light. It detected an average of 40 outputs, and its time to do that was a mere three minutes, whereas one of the worlds fastest supercomputers would have taken two billion years to reach the same conclusion. But this was a specially-tailored test and didnt necessarily have relevance to broader applications in the commercial world.
Googles Sycamore testing also came into scrutiny from rival IBM, and again the discussion came down to how relevant was the testing in terms of real-world practicality.
So given these out-of-this-world performance figures, it makes Hitch Hikers Guide to the Galaxys supercomputer Deep Thought look pretty pedestrian. It took Deep Thought a pedestrian 7.5 million years to decide the answer to the question of life, the universe and everything was 42.
Another operational shortfall with Quantum computing is reliability. By their very nature, Qubits are not durable and can easily be upset and need to be in a perfect, temperature-controlled environment that is totally free of vibrations and ambient atomic structures. This, of course, can be created to keep the Qubits bits happy. Still, the length of time they will operate efficiently and accurately is minimal before they technically slow down and abdicate their Quantum coherence.
So while we are all astonished at examples of their computational speeds, Quantum computers are not anywhere near becoming a commercially viable proposition.
Enter the first European consortium that has ambitions to change all that. Its snappily titled the German Quantum Computer based on Superconducting Qubits (GeQCoS) group. Munich chip-maker Infineon and scientists from five research institutes in Germany aim to drive forward the development and industrialisation of Quantum computing.
According to Infineon, Quantum computers have the potential to replace existing conventional computers in specific applications. They could, for example, calculate simulations of complex molecules for the chemical and pharmaceutical industry, complicated optimisations for the automotive and aviation industry, or new findings from the analysis of complex financial data.
The project is funded by the German Ministry of Education and Research and hopes to create a Quantum processor based on superconducting Qubits and demonstrate its special capabilities on a prototype within four years. Working together to achieve this are scientists at the Walther Meisner Institute of the Bavarian Academy of Sciences and Humanities and the Technical University of Munich, the Karlsruhe Institute of Technology, the Friedrich Alexander University of Erlangen-Nuremberg, the Forschungszentrum Jlich and the Fraunhofer Institute for Applied Solid State Physics and Infineon.
If we in Germany and Europe dont want to be dependent for this future technology solely on American or Asian know-how, we must move forward with the industrialisation now, explained Sebastian Luber, senior director of technology & innovation at Infineon.
Naturally, Germany is not alone in its bid to gain Quantum supremacy. The VTT Technical Research Centre of Finland is also part of a consortium seeking a Quantum technology lead.
It correctly believes superconducting processors could become a key ingredient for creating the next generation of supercomputers. Firstly, they could help tackle the major challenge of scaling up Quantum computers and secondly, they could speed up traditional supercomputers and drastically cut their power consumption.
A multidisciplinary research project led by VTT will tackle one of the main technical challenges to achieve this, the data transfer to and from low temperatures required for superconductivity.
The VTT consortium consists of Tampere University in Finland, KTH Royal Institute of Technology in Sweden, ETH Zrich in Switzerland and PTB, the national metrology institute of Germany, and corporate partners Single Quantum in the Netherlands and Polariton Technologies in Switzerland. It is a three-year project.
We know that a Quantum computer's processing power is based on superconducting Qubits operating at extremely low temperatures, and Qubits are typically controlled by conventional electronics at room temperature and connected through electrical cables. However, when the number of Qubits eventually rises to the required level of hundreds of thousands, the number of control cables to match the number of Qubits will generate an extreme heat-load that considerably inhibits Quantum's speed processors.
One solution is to control the Quantum processor with a nearby classical processor. A promising solution is to use the single flux Quantum (SFQ) technology which emulates traditional computers in logic but uses superconducting technology instead of conventional semiconductors. Because it requires low operational temperatures, SFQ has rarely been used in traditional computers. This disadvantage, however, turns into an advantage when used in combination with superconducting Quantum computers.
But a major challenge remains. Calculation instructions come to the SFQ processor from a conventional supercomputer, and calculation results must be sent back from the SFQ processor to the same machine. This requires data transfer between extremely low temperatures and room temperatures which doesnt suit conventional semiconductors.
The VTT projects vision is to replace electrical cables with optical fibres and suitable converters which convert optical signals to electrical signals and vice versa. Unlike existing solutions, these components must be able to operate at low temperatures. This will require the development of innovative converters that can drive and read out a simple SFQ processor.
Besides Quantum computers, conventional supercomputers could benefit from the development of optical connections for SFQ technology. A major limitation of supercomputers is the extremely high-power consumption of CPUs and GPUs due to the silicon chips' energy dissipation. Replacing silicon chips with superconducting SFQ chips in GPUs could have a notable impact on supercomputers' performance and power consumption.
Here in the United Kingdom, Oxford Instruments Nanoscience announces significant innovation in its Cryofree dilution refrigerator technology. It believes the advancement of its ProteoxLX, a dilution refrigerator, will take the research into Quantum computing to the next level, enabling its commercialisation globally.
Since the launch of Proteox at APS Physics last year, Oxford Instruments has announced its partnership with the University of Glasgow and Rigetti and Oxford Quantum Circuits. Oxford Instruments NanoScience has also secured significant wins outside of Europe, more recently with Proteox selected by SpinQ Technology in China.
NanoScience is committed to driving leadership and innovation to support the development and commercialisation of Quantum computing around the world, explained Stuart Woods, managing director of Oxford Instruments NanoScience.
The ProteoxLX can maximise Qubit counts with large sample space and ample coaxial wiring capacity, low vibration features for reduced noise and support of long Qubit coherence times and full integration of signal conditioning components.
The LX also provides two fully customisable secondary Inserts for an optimised layout of cold electronics and high-capacity input and output lines, fully compatible and interchangeable across the Proteox family. Finally, the ProteoxLX offers 25 W cooling power available at 20 mK, low base temperature at < 7 mK, and twin pulse tubes providing up to 4.0 W cooling power at 4 K.
All these UK and EU corporate and academic consortium driven projects to advance Quantum computing should give the US and Chinese technologists some challenges relative to who stays ahead in the race to develop a commercially viable machine. Still, I dont expect either the US or China will be resting on their Qubit laurels.
More here:
Quantum Computing- The UK and Europe play catch-up with the USA and China. - Electropages
- This Quantum Computing Stock Is Poised for a Sharp Selloff in the Second Half of 2026 - Yahoo Finance - July 11th, 2026 [July 11th, 2026]
- Oratomic raises $300M to build a viable quantum computer that needs only 20K qubits - TechCrunch - July 11th, 2026 [July 11th, 2026]
- Quantum computing wielded to create extremely rare material critical to nuclear fusion - Live Science - July 11th, 2026 [July 11th, 2026]
- Quantum computing is coming. It will deliver extraordinary benefits - Washington Examiner - July 11th, 2026 [July 11th, 2026]
- Quantum computers are coming for crypto. The industry is racing to prepare - CTech - July 11th, 2026 [July 11th, 2026]
- Atom Computings Kristen Pudenz: Error Correction Is Bringing Quantums Future Into Focus - MeriTalk - July 11th, 2026 [July 11th, 2026]
- SEALSQ and Quobly Execute $5M Commercial Accord to Embed Post-Quantum Cryptography in Silicon Quantum Processors - Quantum Computing Report - July 11th, 2026 [July 11th, 2026]
- 1 Incredible Quantum Computing Stock That Could Make Investors a Fortune - The Motley Fool - July 11th, 2026 [July 11th, 2026]
- 'The Quantum Revolution: A Guide for Allied Policymakers' - by CWP alum Eyck Freymann | - Columbia-Harvard China and the World Program - July 11th, 2026 [July 11th, 2026]
- How to pack a problem: Now with 90% less baggage - University of Tennessee at Chattanooga - July 11th, 2026 [July 11th, 2026]
- QUDORA Partners with QAI to Bring Ion-Trap Quantum Computing to South Korea - HPCwire - July 11th, 2026 [July 11th, 2026]
- Peter Shors algorithm could break the internet but he's not worried - New Scientist - July 11th, 2026 [July 11th, 2026]
- Fort Lewis College is making quantum computing and nanotechnology big with use of grant - Front - The Journal - July 11th, 2026 [July 11th, 2026]
- ORNL, IBM, Cleveland Clinic Use Quantum Computing to Advance Tritium Research - ExecutiveGov - July 11th, 2026 [July 11th, 2026]
- Utah's Quantum Initiative Has a Plan: Inside the Third Roundtable's Draft Strategy - TechBuzz News - July 11th, 2026 [July 11th, 2026]
- Quantum Computing Outpaces Sector in a Year: Is the Stock Still a Buy? - TradingView - July 11th, 2026 [July 11th, 2026]
- Heidelberg physicists just united two opposing quantum theories - ScienceDaily - July 11th, 2026 [July 11th, 2026]
- SEALSQ and Quobly Sign $5 Million Commercial Agreement to Integrate Post-Quantum Security into Next-Generation Silicon Quantum Computing Platforms -... - July 11th, 2026 [July 11th, 2026]
- Oak Ridge National Lab, Cleveland Clinic, and IBM Achieve First-Known Computations of Fusion Materials on a Quantum Computer - IBM Newsroom - July 7th, 2026 [July 7th, 2026]
- Oak Ridge National Lab, Cleveland Clinic, and IBM Achieve First-Known Computations of Fusion Materials on a Quantum Computer - PR Newswire - July 7th, 2026 [July 7th, 2026]
- Microsoft's claims over its quantum chip questioned in Nature article - BBC - June 26th, 2026 [June 26th, 2026]
- A new vision for quantum computing takes a big step forward, with new grant - YaleNews - June 26th, 2026 [June 26th, 2026]
- Uncertain quantum future presents existential threat to US military missions, DOD warns - DefenseScoop - June 26th, 2026 [June 26th, 2026]
- University of Maryland Grant Targets Quantum and AI Tools for Cancer Research - The Quantum Insider - June 26th, 2026 [June 26th, 2026]
- A Quantum Leap: The Technology Trying to Reinvent the Computer - marketscreener.com - June 26th, 2026 [June 26th, 2026]
- Meeting Trump's 2030 Quantum Deadline Will be Expensive, Complex - Dark Reading - June 26th, 2026 [June 26th, 2026]
- Trump Executive Orders Home in on Useful Quantum Computing - govtech.com - June 26th, 2026 [June 26th, 2026]
- Will operationalized quantum computing hit the public soon? - IT Brew - June 26th, 2026 [June 26th, 2026]
- Pentagon Sets Hard 2031 Deadline for Quantum-Resistant Encryption, Names Nuclear Command at Risk - Tech Times - June 26th, 2026 [June 26th, 2026]
- New R Street Study Warns U.S. Critical Infrastructure Is Running Out of Time to Prepare for Quantum Threats - R Street Institute - June 26th, 2026 [June 26th, 2026]
- The U.S. Government Is Betting Billions on Quantum Computing. These 3 Stocks Are the Biggest Winners. - The Motley Fool - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - Yahoo... - June 26th, 2026 [June 26th, 2026]
- Trump Wants to Aggressively Fast Track Quantum Computing Projects - Yahoo Finance - June 26th, 2026 [June 26th, 2026]
- Trumps Orders Intended to Advance US Quantum Computing Industry - The Well News - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - The Motley... - June 26th, 2026 [June 26th, 2026]
- The PQC Silicon Is Here Today for Tomorrows Quantum Threats - EE Times - June 26th, 2026 [June 26th, 2026]
- Texas A&M Supercomputer Named Most Powerful Among US Universities - HPCwire - June 26th, 2026 [June 26th, 2026]
- Executive orders lift Colorados quantum stocks and aspirations - Colorado Public Radio - June 24th, 2026 [June 24th, 2026]
- A new quantum computer sets a high watermark for accuracy are we on the verge of a big breakthrough? - The Conversation - June 24th, 2026 [June 24th, 2026]
- Bull and Alice & Bob Partner up to Bring Quantum Computers into HPC - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Why Investors Are Finally Separating Quantum Computing Winners From Losers - 24/7 Wall St. - June 24th, 2026 [June 24th, 2026]
- With major conference in town, Mass. seeks to boost quantum computing efforts - The Boston Globe - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Is Finally Here. But What Is It? - Bloomberg.com - June 24th, 2026 [June 24th, 2026]
- Trump signs executive orders to 'supercharge' quantum computing - ABC News - Breaking News, Latest News and Videos - June 24th, 2026 [June 24th, 2026]
- Trump Fast-Tracks Quantum Computing With New Executive Orders - Barron's - June 24th, 2026 [June 24th, 2026]
- Quantum computer furthers healthcare research at Cleveland Clinic - Spectrum News - June 24th, 2026 [June 24th, 2026]
- Chicago Missed the Tech Boom. Quantum Computing Gives It a Second Chance. - WSJ - June 24th, 2026 [June 24th, 2026]
- Quantum computing is often seen as a risk to bitcoin. Now Trump wants to develop it. - CoinDesk - June 24th, 2026 [June 24th, 2026]
- Trump Seeks to Boost Quantum Computing With New Executive Orders - WSJ - June 24th, 2026 [June 24th, 2026]
- The Mathematical Tools Trailblazing the Quantum Future - Simons Foundation - June 24th, 2026 [June 24th, 2026]
- D-Wave Quantum: Trumps Orders Make This Speculative Buy Worth Watching (NYSE:QBTS) - Seeking Alpha - June 24th, 2026 [June 24th, 2026]
- Executive orders seek to hasten quantum computingand guard against its use - Defense One - June 24th, 2026 [June 24th, 2026]
- Physicist reacts to Trump executive order calling for a quantum computer - NBC News - June 24th, 2026 [June 24th, 2026]
- 3 Quantum Computing Stocks With More Upside Than SpaceX - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Stocks Mixed Amid Trump Executive Orders, 2028 Target - Investor's Business Daily - June 24th, 2026 [June 24th, 2026]
- The US government wants a working quantum computer by 2028 and quantum-resistant encryption by 2031 - TechSpot - June 24th, 2026 [June 24th, 2026]
- Donald Trump Signs Quantum Computing Orders What Could It Mean for Bitcoin and XRP? - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- QuantWare and Maybell Partner to Maximize Compute-Per-Watt Performance of VIO-40K systems - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Quantum computing is finally here. But what is it? - BusinessWorld Online - June 24th, 2026 [June 24th, 2026]
- White House Looks to Speed Up Transition to Quantum Computing with Pair of Executive Orders - PYMNTS.com - June 24th, 2026 [June 24th, 2026]
- The post-quantum EO is an important milestone. Now its time to get to work - The Cloudflare Blog - June 24th, 2026 [June 24th, 2026]
- Quantum Motion and NVIDIA Simplify Molecular Modeling on Quantum Computers - ForkLog - June 24th, 2026 [June 24th, 2026]
- The Path to Quantum Advantage Is Built on Readiness, Not Hype, IBM Report Suggests - The Quantum Insider - June 22nd, 2026 [June 22nd, 2026]
- Is the Dogecoin Burn Address Really Safe from Quantum Threat? - Cryptonews.net - June 22nd, 2026 [June 22nd, 2026]
- GCS highlights exascale, AI factories and hybrid computing at ISC 2026 - Scientific Computing World - June 22nd, 2026 [June 22nd, 2026]
- Amazon Says Commercially Useful Quantum Computers Are Moving Closer To Becoming a Reality - International Business Times - June 22nd, 2026 [June 22nd, 2026]
- QBTS vs. RGTI vs. IONQ: Which Quantum Computing Stock Could Deliver the Biggest Returns? - TipRanks - June 19th, 2026 [June 19th, 2026]
- Xanadu Quantum vs. IonQ: The Better Quantum Computing Stock Buy for 2026 - Yahoo Finance - June 19th, 2026 [June 19th, 2026]
- AMD Advances the Hybrid Future of Quantum Computing - AMD - June 19th, 2026 [June 19th, 2026]
- Algorand Wants to Be Quantum-Proof by 2027, Three Years Before the NSA - International Business Times - June 19th, 2026 [June 19th, 2026]
- Sooner than expected? Useful quantum error correction promised for 2028. - Ars Technica - June 19th, 2026 [June 19th, 2026]
- QuEra targets fault-tolerant quantum computing with new Libra system and expanded AWS partnership - New Electronics - June 19th, 2026 [June 19th, 2026]
- Atom Computing and Nu Quantum Partner to Scale Neutral Atom Quantum Computers - The Quantum Insider - June 19th, 2026 [June 19th, 2026]
- Quantum hyperdimensional computing can work 500 times faster than other methods - Phys.org - June 19th, 2026 [June 19th, 2026]
- Algorand Plans to Be Ready for Quantum Computing Threat by End of 2027 - Decrypt - June 19th, 2026 [June 19th, 2026]
- New Industry Study Finds Quantum Computing Has Entered a Capability Era, With Early Movers Building an Advantage Later Entrants Will Struggle to Close... - June 19th, 2026 [June 19th, 2026]
- Prediction: This Quantum Computing Stock Is Going to Plummet in the Second Half of 2026 - Yahoo Finance - June 19th, 2026 [June 19th, 2026]
- Cleveland Clinic & IBM Forum Charts AI And Quantum Impact On Detection - Quantum Zeitgeist - June 19th, 2026 [June 19th, 2026]
- Diraq Expands U.S. Presence with Palo Alto Office - The Quantum Insider - June 19th, 2026 [June 19th, 2026]
- Xanadu Quantum vs. IonQ: The Better Quantum Computing Stock Buy for 2026 - The Motley Fool - June 19th, 2026 [June 19th, 2026]