Researchers have made a breakthrough in efficiently scheduling quantum low-density parity check (QLDPC) codes on a tileable spin qubit chip with shuttling, a crucial step towards large-scale quantum computing. The CAbLECAR approach enables nonlocal connectivity between physical qubits, a requirement for QLDPC codes, which promise high encoding rates and efficient logic. By leveraging a shuttling-based architecture, the team overcomes the limitations of traditional quantum computing platforms. This development has significant implications for the field of quantum computing, as QLDPC codes can achieve high encoding rates and efficient logic, making them an attractive option for large-scale quantum computing applications1. The ability to efficiently schedule QLDPC codes on a tileable spin qubit chip brings quantum computing one step closer to realizing its full potential. So what matters to practitioners is that this advancement could lead to the development of more efficient and scalable quantum computing systems, ultimately rewriting assumptions about computation and cryptography.