Distributed quantum computing has taken a significant step forward with the introduction of a new error correction approach by Nu Quantum, which disperses logical qubits across a network of processors to enhance fault tolerance and minimize correlated errors. This method has shown promise in simulations, achieving lower logical error rates than traditional monolithic systems while utilizing fewer physical qubits. By distributing quantum information across separate nodes, the approach enables more efficient use of resources. The potential impact of this development is substantial, as it could make large-scale quantum computing more practical and cost-effective. This matters to practitioners because it could pave the way for more resilient and elastic quantum systems, allowing for greater scalability and reliability in quantum computing applications1.