Riverlane raises $75 million to meet surging global demand for quantum error correction technology
The funding will enable Riverlane to expand operations, with the goal of achieving one million error-free quantum computer operations by 2026.
Introducing Riverlane’s Quantum Error Correction roadmap
Riverlane’s updated decoder unlocks unlimited quantum memory experiments
Riverlane Partners with Atlantic Quantum to Advance Quantum Error Correction on Fluxonium Architecture
How to develop the Quantum Error Correction Stack for every qubit
Quantum Error Correction is the industry's defining challenge
Quantum computing will be one of this century’s most transformative technologies, broadening the scope of what is computationally possible.
World-changing use cases will require millions of reliable quantum operations or more. Today’s quantum computers are prone to errors, making about 1 error per 1000 operations.
This error rate needs to reduce by millions of times before we can reach capabilities which surpass the supercomputing threshold. This target is far beyond what can be achieved with hardware improvements alone. Real-time decoding is required to identify and correct a vast number of errors at speed.
Building the QEC stack to unlock useful quantum computing
Riverlane is building the Quantum Error Correction Stack: Deltaflow, to reduce logical error rates, enabling quantum computers to scale up and tackle problems that are intractable using any classical supercomputer.
Deltaflow has all the functionalities needed to perform reliable quantum operations at scale, including real-time error decoding, logical orchestration, and a universal control interface.
Our Deltaflow roadmap will reach a MegaQuOp (a million real-time quantum operations). This is the critical milestone when quantum computers reach sufficient scale to execute the first error corrected quantum applications.
Parallel window decoding enables scalable fault tolerant quantum computation
A real-time, scalable, fast and highly resource efficient decoder for a quantum computer
Ambiguity Clustering: an accurate and efficient decoder for qLDPC codes
Leakage Mobility in Superconducting Qubits as a Leakage Reduction Unit
Our partners
Partner with us
We are now at the point where quantum computers cannot move forward without error correction. If you'd like to partner with us to accelerate your QEC solutions, or have any questions, get in touch.
Our team
Building a quantum error correction stack is a complex challenge. Our team is uniquely built for this pioneering task.
They include scientists and engineers who have successfully built the Mars rover, the Large Hadron Supercollider at CERN and the chips in our smartphones. What powers us forward is our open culture and common mission.