Welinq offers an end-to-end solution for quantum-augmented data centers
Welinq offers a complete, end-to-end solution for data centers to efficiently network quantum computers and run real-world applications.
Exclusive access to the highest-performance quantum hardware, capable of manipulating entanglement across any type of quantum computer.
Scalable quantum networking for data centers, enabling the integration of powerful quantum capabilities. Discover how our innovative solutions are shaping the future of communication.
QDrive quantum memory
A game-changing technology that enables quantum networks to scale
A revolutionary platform that enables quantum networks to scale with an arbitrary number of quantum computers.
With world-record performance and exclusive access to this breakthrough, Welinq is the only company that can unlock this capability.
Our full-stack multi-platform quantum network
We connect any quantum computers to form homogeneous and heterogeneous clusters, integrated with classical resources.
Synchronizes quantum operations and enables scaling by storing quantum information on demand.
The quantum computer itself. We don’t build them, but connect to any type.
Qubit-photon interfaces are the key link between quantum processors and networks. We convert qubit states into quantum light for reliable communication across all quantum hardware platforms.
Connects quantum processors by routing entanglement with high precision.
Partitions and scales quantum algorithms across multiple QPUs with record-setting efficiency.
QDrive is our unique technology that enables dynamic entanglement routing in quantum networks, delivering world-record performance.
Qubit-photon interfaces are the key link between quantum processors and networks. We convert qubit states into quantum light for reliable communication shared between different quantum computers.
Quantum optical network that stabilizes and routes entanglement for ultra-efficient, high-rate connections between quantum processors.
Our technology is natively compatible with all types of quantum computers
Distributed quantum error correction (QEC)
Ensuring stable, fault-tolerant computing across a network of quantum computers.
QEC: Foundational for Quantum Computing
Realizing the full potential of quantum computing requires robust, error-free operation. Quantum Error Correction (QEC) is the fundamental process ensuring the reliability needed to scale quantum computing.
Single QPU Limits
As single quantum processors (QPUs) become larger, QEC becomes increasingly hard to implement. This complexity severely limits our ability to build larger, truly fault-tolerant machines.
Networks Ease QEC
Networking quantum computers drastically facilitates QEC by distributing the error correction workload. This Distributed QEC approach makes fault-tolerant computing more practical and scalable across multiple processors.
[ measure qubit ]
[ communication qubits ]
[ Data qubit ]
[ data qubit with error ]
[ Quantum entanglement ]
Algorithm partitioning with our world-record compiler, araQne
Our compiler enables efficient partitioning of quantum algorithms across interconnected computers, unlocking large-scale quantum computation.
Use-case deployment for end-users
Adaptable to both distributed quantum and hybrid classical-quantum systems, ensuring real-world applications are integrated and optimized across interconnected resources.
Leading quantum connectivity
Welinq Launches Its World-Record Storage Solution for Quantum Computing Scale-Out
Welinq and QphoX Partner to Create Seamless Connections Between Superconducting Quantum Processors for Scalable Computing
araQne: Welinq's Compiler for Distributed Quantum Computing