Quantum Motion raises $160 million to build quantum computers from standard silicon chips
Quantum Motion's Funding and Approach to Quantum Computing
By Stephen Nellis
Funding Announcement
SAN FRANCISCO, May 7 (Reuters) - Quantum Motion on Thursday said it raised $160 million to fund its effort to build a quantum computer that is smaller, cheaper and more energy efficient than rivals using standard silicon chipmaking techniques.
The Promise of Quantum Computing
What is a Qubit?
Quantum computers hold the promise of solving problems that regular computing machines cannot. At the heart of that ability is what is known as a qubit.
How Qubits Differ from Classical Bits
Unlike the transistors in an everyday computer that can only represent a zero or a one at any given time, a qubit can represent both at once. There are a variety of ways to make qubits, like the superconductors used by IBM or Alphabet's Google, or hitting neutral atoms with lasers.
Quantum Motion's Unique Approach
Scaling Challenges in Quantum Computing
The challenge with each of them is scaling up to the thousands or millions of qubits needed to make a working quantum computer. London-based Quantum Motion took a different approach: Take something that is easy to make in the millions, such as the transistors used in chips in phones and laptops, and figure out how to make qubits from them.
CEO's Perspective
"We just kind of started the company in reverse," said James Palles-Dimmock, Quantum Motion's CEO. "What are the minimum adaptations that we can make to transistors to turn them into high-quality qubits?"
Technical Details of Quantum Motion's Method
In a classical computing chip, a transistor is either on or off and electrons flow across a gap when the transistor is on. Quantum Motion suspends a single electron in the gap and manipulates it with a magnetic field.
Electron Spin Concept and Manufacturing
This so-called "electron spin" concept is not entirely new - several other startups, as well as Intel, are using it. Quantum Motion believes it has found a way to make it work in practice with chips made by manufacturing partner GlobalFoundries. Palles-Dimmock said this could allow Quantum Motion to make useful quantum computers for as little as $10 million to $20 million.
"We've got a very clear path to delivering the world's most powerful computer at a reasonable cost," Palles-Dimmock said.
Investors and Funding Details
The funding round was co-led by DCVC and Kembara, with participation from British Business Bank and Firgun. Also joining the round were existing investors Oxford Science Enterprises, Inkef, Bosch Ventures, Porsche Automobil Holding and Parkwalk Advisors.
(Reporting by Stephen Nellis in San Francisco; Editing by Thomas Derpinghaus)
