In contrast to superconducting systems, ion-trap-based quantum technologies have already demonstrated full 24-qubit entanglement [pog21] without error mitigation or post-selection, and the first universal and fault-tolerant gate set for logical qubits [pos22] within the AQTION device, as well as implemented quantum simulations with up to 51 qubits [jos21]. Recent use-cases demonstrated by members of the consortium include finance applications and risk assessment [san22, gui21], and random number generation [for21]. Other entities focusing on ion-trap quantum computing, such as Quantinuum (formerly Honeywell) and IonQ, have released data with about 10 qubits [rya21, rya22] achieving only logical gates within the Clifford group [rya22] already shown in the universal gate set of [pos22]. This demonstrates the opportunity for Europe to remain in the lead, retaining the sovereignty in trapped-ion approaches for scalable quantum computing. Quantinuum has demonstrated a quantum volume of 8192, the largest volume reported so far, which highlights the competitiveness of the ion-trap platform.
MILLENION addresses these competitive challenges with a clear development path and introduces a step-change in scalability for the full stack of a trapped ion QC, thereby demonstrating the ambition to reach excellence in order to maintain the European leadership in ion-trap-based quantum technologies and push them towards the final technological readiness levels.
Ion arrangement: 2D arrays of traps used for quantum information processing (QIP) with more than 100 qubits
Vacuum: Cryogenic XHV system in a rack; vacuum-tight packaging solutions
Control electronics for shuttling: Integrated and scalable electronics for DC shuttling control that can operate at cryogenic temperature (4 K) and XHV
Light delivery: Integrated solutions for ion addressing in 2D arrays
Trap socket: De facto European-standard for electrical and thermal connections
Lasery supply system: Scalable laser supply system with hands-free 24/7 operation
Quantum gate compiler: Noise-aware approximate compiler which supports gate and transport operations on a 2D array; and includes fault-tolerant circuit design
Execution environment: Automated tune-up of all quantum functionalities, including scalable multi-qubit gate tune-up and in-sequence measurements, targeting 24/7 operation of a quantum processor at fault-tolerant performance levels, and directly supporting a quantum-processor firmware interface
Quantum advantage demonstration: Scalable extension of quantum verification and validation routines and applications aiming at 100 qubits that are executable in a HPC environment.
Quantum device resource management: Parallel execution of small circuits on larger quantum registers, e.g. for scalable and parallel operation of firmware protocols for quantum error suppression and correction
Cloud/HPC interface: Cloud access via quantum software development kits, and interfacing with a HPC infrastructure via system software-level interfaces, creation of an offload environment