Riverlane unveils breakthrough in quantum error correction
Article by Glenn Manoff
Riverlane, the world’s first quantum engineering company, today announced a world first in ‘decoding’ the errors that will power the first generation of error corrected quantum computers.
This breakthrough in decoding technology – the first of its kind due to the scalability of the decoding hardware to support far larger numbers of qubits than currently possible – was demonstrated live at National Quantum Technology Showcase (NQTS) in London on 11 November. The demo was a prototype of what will become a decoding chip that can sit in all future quantum computers.
Today’s quantum computers have limited usefulness due to the inherent instability of qubits – the processors that enable the quantum techanical computation. This instability leads to floods of data errors that overwhelm all current quantum computers. We are now entering the first generation of error corrected quantum computing where such errors can be detected, diagnosed and corrected in real time. Riverlane’s scalable, high-speed decoder is a critical component enabling the transition to this new era.
In front of a live audience at the NQTS, Riverlane demonstrated the full cycle of operations to precisely detect specific quantum data errors in fractions of a second on a simulated quantum computer. Riverlane’s quantum decoder is the first designed to support very large numbers of qubits.
To effectively tackle currently unsolvable human problems in fields like clean energy and new drug design, we need to transition to a new generation of error corrected quantum computers that can perform millions of high-speed operations without disruption. Today’s quantum computers can still only perform around 100 operations before they fail. That transition will take time but starts now. Our decoder is a critical component and a leap forward
said Steve Brierley, Riverlane’s founder and CEO
The UK National Quantum Technologies Showcase is an annual initiative hosted by the UK government-backed National Quantum Technologies Programme (NQTP), where the UK’s most exciting projects from across the quantum landscape are exhibited.
Earlier this year, Riverlane published a Technical White Paper detailing the speed and scalability of their decoder software solution known as ‘Deltaflow.Decode’. Riverlane is now using this research to develop the current and subsequent ‘chip’ based version of their quantum error decoder.