The UK is now facing a huge challenge: after having secured a top spot in the quantum race, retaining the country's status is going to require some serious stepping up.
National quantum programs and decade-long quantum strategies are increasingly being announced by governments around the world. And as countries unlock billions-worth of budgets, it is becoming clear that a furious competition is gradually unrolling. Nations want to make sure that they are the place-to-be when quantum technologies start showing some real-world value and the UK, for one, is keen to prove that it is a quantum hotspot in the making.
"We have a very successful program that is widely admired and emulated around the world," said Peter Knight, who sits on the strategic advisory for the UK's national quantum technology program (NQTP), as he provided a virtual update on the NQTP's performance so far.
Speaking at an online conference last month, Knight seemed confident. The UK, said the expert, in line with the objectives laid out in the program, is on track to become "the go-to place" for new quantum companies to start, and for established businesses to base all manners of innovative quantum activities.
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The UK is just over halfway through the NQTP, which saw its second five-year phase kick off at the end of 2019, and at the same timehit an impressive milestone of 1 billion ($1.37 billion) combined investment. This, the government claims, is letting the UK keep pace with competitors who are also taking interest in quantum namely, the US and China.
There is no doubt that the country has made strides in the field of quantum since the start of the NQTP. New ground-breaking research papers are popping up on a regular basis, and so are news reports of rounds of funding from promising quantum startups.
But with still just under half of the national quantum program to carry out, and despite the huge sums already invested, the UK is now facing a bigger challenge yet: after having chased a top spot in the quantum race, retaining the country's status in the face of ferocious competition is going to require some serious stepping up.
Clearly playing in favor of the UK is the country's early involvement in the field. The NQTP was announced as early as 2013, and started operating in 2014, with an initial 270 million ($370 million) budget. The vision laid out in the program includes creating a "quantum-enabled economy", in which the technology would significantly contribute to the UK's economy and attract both strong investment and global talent.
"The national program was one of the first to kick off," Andrew Fearnside, senior associate specializing in quantum technologies at intellectual property firm Mewburn Ellis, tells ZDNet. "There are increasingly more national programs emerging in other countries, but they are a good few years behind us. The fact that there has been this sustained and productive long-term government initiative is definitely attractive."
The EU's Quantum Technologies Flagship, in effect,only launched in 2018; some countries within the bloc,like France, started their own quantum roadmaps on top of the European initiative even later. Similarly, the National Quantum Initiative Act wassigned into law by the Trump administration but that was also in 2018, years into the UK's national quantum technology program.
Since it launched in 2014, there has been abundant evidence of the academic successes of the initial phase of the NQTP. In Birmingham, the Quantum Sensing Hub is developing new types of quantum-based magnetic sensors that could help diagnose brain and heart conditions, while the Quantum Metrology Institute leads the development of quantum atomic clocks. There are up to 160 research groups and universities registered across the UK withprograms that are linked to quantum technologies, working on projects ranging from the design of quantum algorithms to the creation of new standards and verification methods.
A much harder challenge, however, is to transform this strong scientific foundation into business value and as soon as the UK government announced the second phase of the NQTP at the end of 2019,a clear messageemerged: quantum technology needed to come out of the lab, thanks to increased private sector investment that would accelerate commercialization.
Some key initiatives followed. A national quantum computing center was established for academics to work alongside commercial partners such as financial services company Standard Chartered, "possibly with an eye on financial optimization problems," notes Fearnside, given the business'established interest in leveraging quantum technologies. A 10 million ($13 million) "Discovery" program alsolaunched a few months ago, bringing together five quantum computing companies, three universities and the UK's national physical laboratory all for the purpose of making quantum work for businesses.
The government's efforts have been, to an extent, rewarded. The quantum startup ecosystem is thriving in the UK, with companies like Riverlane or Cambridge Quantum Computing completing strong rounds of private financing. In total, up to 204 quantum-related businesses have been listed so far in the country.
But despite these encouraging results, the UK is still faced with a big problem. Bringing university-born innovation to the real worldhas always been a national challenge, and quantum is no exception. A 2018 report from the Science and Technology committee, in fact,gave an early warning of the stumbling blocksthat the NQTP might run into, and stressed the need for improved awareness across industry of the potential of quantum technologies.
The committee urged the government to start conveying the near-term benefits that quantum could provide to businesses something that according to the report, CEOs and company chairs in North America worryingly seem to realize a whole lot better.
It's been three years since the report was published, and things haven't changed much. Speaking at the same forum as the NQTP's Peter Knight, Ian West, a partner at consultancy firm KPMG, said that there remained a huge barrier to the widespread take-up of quantum technologies in the UK. "Some of our clients feel they don't understand the technology, or feel it's one for the academics only," he argued.
"We need that demand from businesses who will be the ultimate users of quantum technologies, to encourage more investment," West added. "We need to do much more to explain the near-term and medium-term use cases for business applications of quantum technologies."
SEE: BMW explores quantum computing to boost supply chain efficiencies
Without sufficient understanding of the technology, funding problems inevitably come. The difficulty of securing private money for quantum stands in stark contrast to the situation across the Atlantic, where investors have historically done a better job of spotting and growing successful technology companies. Add the deep pockets of tech giants such as Google, IBM or Microsoft, which are all pouring money into quantum research, and it is easy to see why North America might have better prospects when it comes to winning the quantum game.
In the worst of cases, this has led to US technology hubs hoovering up some of the best quantum brains in the UK. In 2019, for example, PsiQ, a promising startup that was founded at the University of Bristol with the objective of producing a commercial quantum computer, re-located to Silicon Valley. The movewas reported to be partly motivated by a lack of access to capital in Europe. It was a smart decision: according to the company's latest update, PsiQ hasnow raised $215 million (156 million) in VC funding.
Pointing to the example of PsiQ, Simon King, partner and deep tech investor at VC firm Octopus Ventures, explains that to compete against the US, the UK needs to up its game when it comes to assessing the startups that show promise, and making sure that they are injected with adequate cash.
"The US remains the biggest competitor, with a big concentration of universities and academics and the pedigree and culture of commercializing university research," King tells ZDNet. "Things are definitely moving in the right direction, but the UK and Europe still lag behind the US, where there is a deeper pool of capital and there are more investors willing to invest in game-changing, but long-term technology like quantum."
US-based private investors are only likely to increase funding for the quantum ecosystem in the coming years, and significant amounts of public money will be backing the technology too. The National Quantum Initiative Act that was signed in 2018 came with $1.2 billion (870 million) to be invested in quantum information science over the next five years; as more quantum companies flourish, the budget can be expected to expand even further.
Competition will be coming from other parts of the world as well. In addition to the European Commission's 1 billion ($1.20 billion) quantum flagship, EU countries are also spending liberally on the technology. Germany, in particular, has launched a 2 billion ($2.4 billion) funding program for the promotion of quantum technologies in the country, surpassing by far many of its competitors; but France, the Netherlands, and Switzerland are all increasingly trying to establish themselves as hubs for quantum startups and researchers.
SEE: Less is more: IBM achieves quantum computing simulation for new materials with fewer qubits
Little data is available to measure the scope of the commercialization of quantum technology in China, but the country has made no secret of its desire to secure a spot in the quantum race, too. The Chinese government has ramped up its spending on research and development, and the impact of that investment has already shown in the countryachieving some significant scientific breakthroughs in the field.
In the midst of this ever-more competitive landscape, whether the UK can effectively distinguish itself as the "go-to place" for quantum technologies remains to be seen. One thing is for certain: the country has laid some very strong groundwork to compete. "The UK has some genuinely world-class universities with some really brilliant academics, so while the objective is certainly ambitious, it's not out of the question," argues King.
But even top-notch researchers and some of the most exciting quantum startups might not cut it. The UK has positioned itself well from an early stage in the quantum race, but becoming a frontrunner was only one part of the job. Preserving the country's position for the coming years might prove to be the hardest challenge yet.
Go here to read the rest:
The global quantum computing race has begun. What will it take to win it? - ZDNet
- The Quantum Computer Revolution Is Closer Than You May Think - National Review - May 3rd, 2017 [May 3rd, 2017]
- Time Crystals Could be the Key to the First Quantum Computer - TrendinTech - May 3rd, 2017 [May 3rd, 2017]
- quantum computing - WIRED UK - May 3rd, 2017 [May 3rd, 2017]
- Chinese scientists build world's first quantum computing machine - India Today - May 3rd, 2017 [May 3rd, 2017]
- Here's How We Can Achieve Mass-Produced Quantum Computers - ScienceAlert - June 6th, 2017 [June 6th, 2017]
- D-Wave partners with U of T to move quantum computing along - Financial Post - June 6th, 2017 [June 6th, 2017]
- Team develops first blockchain that can't be hacked by quantum computer - Siliconrepublic.com - June 6th, 2017 [June 6th, 2017]
- Telstra just wants a quantum computer to offer as-a-service - ZDNet - June 6th, 2017 [June 6th, 2017]
- Research collaborative pursues advanced quantum computing - Phys.Org - June 6th, 2017 [June 6th, 2017]
- Quantum Computing Market Forecast 2017-2022 | Market ... - June 6th, 2017 [June 6th, 2017]
- Quantum Computing Is Real, and D-Wave Just Open ... - WIRED - June 7th, 2017 [June 7th, 2017]
- FinDEVr London: Preparing for the Dark Side of Quantum Computing - GlobeNewswire (press release) - June 9th, 2017 [June 9th, 2017]
- Purdue, Microsoft to Collaborate on Quantum Computer - Photonics.com - June 9th, 2017 [June 9th, 2017]
- Scientists May Have Found a Way to Combat Quantum Computer Blockchain Hacking - Futurism - June 9th, 2017 [June 9th, 2017]
- Microsoft and Purdue work on scalable topological quantum computer - Next Big Future - June 12th, 2017 [June 12th, 2017]
- HYPRES Expands Efforts in Quantum Computing with Launch of European Subsidiary SeeQC - Business Wire (press release) - June 12th, 2017 [June 12th, 2017]
- From the Abacus to Supercomputers to Quantum Computers - Duke Today - June 13th, 2017 [June 13th, 2017]
- Accenture, Biogen, 1QBit Launch Quantum Computing App to ... - HIT Consultant - June 14th, 2017 [June 14th, 2017]
- The US and China "Quantum Computing Arms Race" Will Change Long-Held Dynamics in Commerce, Intelligence ... - PR Newswire (press release) - June 14th, 2017 [June 14th, 2017]
- Quantum Computing Technologies markets will reach $10.7 billion by 2024 - PR Newswire (press release) - June 14th, 2017 [June 14th, 2017]
- A Hybrid of Quantum Computing and Machine Learning Is Spawning New Ventures - IEEE Spectrum - June 14th, 2017 [June 14th, 2017]
- KPN CISO details Quantum computing attack dangers - Mobile World Live - June 16th, 2017 [June 16th, 2017]
- Get ahead in quantum computing AND attract Goldman Sachs - eFinancialCareers - June 16th, 2017 [June 16th, 2017]
- Accenture, 1QBit partner for drug discovery through quantum ... - ZDNet - June 16th, 2017 [June 16th, 2017]
- Toward optical quantum computing - MIT News - June 17th, 2017 [June 17th, 2017]
- Quantum computing, the machines of tomorrow | The Japan Times - The Japan Times - June 17th, 2017 [June 17th, 2017]
- Its time to decide how quantum computing will help your ... - June 18th, 2017 [June 18th, 2017]
- Israel Enters Quantum Computer Race, Placing Encryption at Ever-Greater Risk - Sputnik International - June 20th, 2017 [June 20th, 2017]
- Prototype device enables photon-photon interactions at room ... - Phys.Org - June 20th, 2017 [June 20th, 2017]
- Dow and 1QBit Announce Collaboration Agreement on Quantum Computing - Business Wire (press release) - June 21st, 2017 [June 21st, 2017]
- Imperfect crystals may be perfect storage method for quantum computing - Digital Trends - June 21st, 2017 [June 21st, 2017]
- Dow Chemical, 1QBit Ink Quantum Computing Development Deal - Zacks.com - June 22nd, 2017 [June 22nd, 2017]
- Google on track for quantum computer breakthrough by end of 2017 - New Scientist - June 22nd, 2017 [June 22nd, 2017]
- USC to lead project to build super-speedy quantum computers - USC News - June 24th, 2017 [June 24th, 2017]
- The Quantum Computer Factory That's Taking on Google and IBM ... - WIRED - June 24th, 2017 [June 24th, 2017]
- The weird science of quantum computing, communications and encryption - C4ISR & Networks - June 27th, 2017 [June 27th, 2017]
- Multi-coloured photons in 100 dimensions may make quantum ... - Cosmos - June 30th, 2017 [June 30th, 2017]
- Global Quantum Computing Market Growth at a CAGR of 35.12 ... - PR Newswire (press release) - June 30th, 2017 [June 30th, 2017]
- Qudits: The Real Future of Quantum Computing? - IEEE Spectrum - IEEE Spectrum - June 30th, 2017 [June 30th, 2017]
- New method could enable more stable and scalable quantum ... - Phys.Org - June 30th, 2017 [June 30th, 2017]
- Quantum computers are about to get real | Science News - Science News Magazine - June 30th, 2017 [June 30th, 2017]
- Quantum Computing - Scientific American - June 30th, 2017 [June 30th, 2017]
- Australia's ambitious plan to win the quantum race - ZDNet - July 3rd, 2017 [July 3rd, 2017]
- How quantum mechanics can change computing - The Conversation - The Conversation US - August 24th, 2017 [August 24th, 2017]
- UNSW joins with government and business to keep quantum computing technology in Australia - The Australian Financial Review - August 24th, 2017 [August 24th, 2017]
- UNSW launches Australia's first hardware quantum computing company with investments from federal and NSW ... - OpenGov Asia - August 24th, 2017 [August 24th, 2017]
- Finns chill out quantum computers with qubit refrigerator to cut out errors - ZDNet - August 24th, 2017 [August 24th, 2017]
- Hype and cash are muddying public understanding of quantum ... - The Conversation AU - August 24th, 2017 [August 24th, 2017]
- IEEE Approves Standards Project for Quantum Computing ... - insideHPC - August 24th, 2017 [August 24th, 2017]
- Silicon Quantum Computing launched to commercialise UNSW ... - ZDNet - August 24th, 2017 [August 24th, 2017]
- The Era of Quantum Computing Is Here. Outlook: Cloudy ... - January 30th, 2018 [January 30th, 2018]
- The Era of Quantum Computing Is Here. Outlook: Cloudy | WIRED - February 6th, 2018 [February 6th, 2018]
- Quantum computing in the NISQ era and beyond - February 6th, 2018 [February 6th, 2018]
- What is quantum computing? - Definition from WhatIs.com - February 6th, 2018 [February 6th, 2018]
- Quantum computers - WIRED UK - February 19th, 2018 [February 19th, 2018]
- Is Quantum Computing an Existential Threat to Blockchain ... - February 21st, 2018 [February 21st, 2018]
- What is Quantum Computing? Webopedia Definition - March 25th, 2018 [March 25th, 2018]
- Quantum Computing Explained - WIRED UK - April 15th, 2018 [April 15th, 2018]
- Quantum computing: A simple introduction - Explain that Stuff - June 2nd, 2018 [June 2nd, 2018]
- What are quantum computers and how do they work? WIRED ... - June 22nd, 2018 [June 22nd, 2018]
- How Quantum Computers Work - July 22nd, 2018 [July 22nd, 2018]
- The reality of quantum computing could be just three years ... - September 12th, 2018 [September 12th, 2018]
- The 3 Types of Quantum Computers and Their Applications - November 24th, 2018 [November 24th, 2018]
- Quantum Computing - VLAB - January 27th, 2019 [January 27th, 2019]
- Quantum Computing | Centre for Quantum Computation and ... - January 27th, 2019 [January 27th, 2019]
- Microsofts quantum computing network takes a giant leap ... - March 7th, 2019 [March 7th, 2019]
- IBM hits quantum computing milestone, may see 'Quantum ... - March 7th, 2019 [March 7th, 2019]
- Quantum technology - Wikipedia - March 13th, 2019 [March 13th, 2019]
- Quantum Computing | D-Wave Systems - April 18th, 2019 [April 18th, 2019]
- Microsoft will open-source parts of Q#, the programming ... - May 7th, 2019 [May 7th, 2019]
- What Is Quantum Computing? The Complete WIRED Guide | WIRED - May 8th, 2019 [May 8th, 2019]
- The five pillars of Edge Computing -- and what is Edge computing anyway? - Information Age - October 1st, 2019 [October 1st, 2019]
- Moore's Law Is Dying. This Brain-Inspired Analogue Chip Is a Glimpse of What's Next - Singularity Hub - October 1st, 2019 [October 1st, 2019]
- Experts Gather at Fermilab for International Workshop on Cryogenic Electronics for Quantum Systems - Quantaneo, the Quantum Computing Source - October 1st, 2019 [October 1st, 2019]
- Princeton announces initiative to propel innovations in quantum science and technology - Princeton University - October 1st, 2019 [October 1st, 2019]
- Detecting Environmental 'Noise' That Can Damage The Quantum State of Qubits - In Compliance - October 1st, 2019 [October 1st, 2019]
- Quantum Computing beginning talks with clients on its quantum asset allocation application - Proactive Investors USA & Canada - October 1st, 2019 [October 1st, 2019]
- What is quantum computing? The next era of computational evolution, explained - Digital Trends - October 1st, 2019 [October 1st, 2019]
- IT sees the Emergence of Quantum Computing as a Looming Threat to Keeping Valuable Information Confidential - Quantaneo, the Quantum Computing Source - October 23rd, 2019 [October 23rd, 2019]
- More wrong answers get quantum computers to find the right one - Futurity: Research News - October 23rd, 2019 [October 23rd, 2019]