At SilQ Connect, we are pioneering distributed quantum computing

High-performance microwave-optical interconnects and quantum local area networks (qLAN)

At SilQ Connect, we are pioneering distributed quantum computing

High-performance microwave-optical interconnects and quantum local area networks (qLAN)

Why Modular Distributed Quantum Computing?

Standalone Quantum Computer

Monolithic Quantum Supercomputer

Quantum computing holds massive potential, from drug discovery to logistics and cryptography. But delivering on this promise requires far more computational power than today’s standalone QPUs can offer.

Even basic applications demand millions of gates and thousands of logical qubits. Achieving this means building fault-tolerant systems usi

Even basic applications demand millions of gates and thousands of logical qubits. Achieving this means building fault-tolerant systems using large networks of error-corrected physical qubits, an approach that comes with major hardware overhead and scalability limits.

Without new architectures, quantum computing may never reach its full impact.

Show Less

Monolithic Quantum Supercomputer

To scale quantum computing and unlock far greater computational power, we need to connect processors together. Combining more QPUs into a single monolithic quantum supercomputer, with cryogenic microwave couplers, can increase computational capacity but it also creates a single point of failure. These large, tightly integrated systems are harder to maintain, more sensitive to faults, and risk complete shutdown from localized issues. The result: reduced uptime, lower reliability, and limited scalability.

Show Less

Modular Quantum Supercomputer

Monolithic Quantum Supercomputer

Modular Quantum Supercomputer

Our high-performance microwave-optical interconnect hardware and advanced orchestration software will enable distributed architectures that outperform monolithic systems, unlocking unprecedented computational power and real-world applications at scale across industries. Modularity also improves system uptime by allowing individual compon

Show Less

At SilQ Connect, we are pioneering distributed quantum computing

At SilQ Connect, we are pioneering distributed quantum computing

About Us

Our Mission

Why Modular Distributed Quantum Computing?

Standalone Quantum Computer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Modular Quantum Supercomputer

Monolithic Quantum Supercomputer

Modular Quantum Supercomputer

Just as interconnections underpin today’s data centers, SilQ Connect is building the foundation for tomorrow’s quantum infrastructure.

News

Get in touch

SilQ Connect

At SilQ Connect, we are pioneering distributed quantum computing

At SilQ Connect, we are pioneering distributed quantum computing

About Us

Our Mission

Why Modular Distributed Quantum Computing?

Standalone Quantum Computer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Monolithic Quantum Supercomputer

Modular Quantum Supercomputer

Monolithic Quantum Supercomputer

Modular Quantum Supercomputer

Just as interconnections underpin today’s data centers, SilQ Connect is building the foundation for tomorrow’s quantum infrastructure.

News

Get in touch

SilQ Connect

This website uses cookies.