Document ID: chunk:federal_register_of_legislation:F2024L01024:front:0:p163
Version: federal_register_of_legislation:F2024L01024
Segment Type: other
Provision Reference: 
Character Range: 473632–476750

controlled', 'connected' and 'working' 'physical qubits', and having a 'C-NOT error' of less than or equal to 4x10-3;
6. Quantum computers supporting 700 or more, but fewer than 1,100, 'fully controlled', 'connected' and 'working' 'physical qubits', and having a 'C-NOT error' of less than or equal to 5x10-3;
7. Quantum computers supporting 1,100 or more, but fewer than 2,000, 'fully controlled', 'connected' and 'working' 'physical qubits', and having a 'C-NOT error' of less than or equal to 6x10-3;
8. Quantum computers supporting 2,000 or more 'fully controlled', 'connected' and 'working' 'physical qubits';
b. Qubit devices and qubit circuits, containing or supporting arrays of' physical qubits', and specially designed for items specified in 4A901.a.;
c. Quantum control components and quantum measurement devices, specially designed for items specified in 4A901.a.;
Note 1: 4A901. applies to circuit model (or gate-based) and one-way (or measurement-based) quantum computers. This entry does not apply to adiabatic (or annealing) quantum computers.
Note 2: Items specified by 4A901. may not necessarily physically contain any qubits. For example, quantum computers based on photonic schemes do not permanently contain a physical item that can be identified as a qubit. Instead, the photonic qubits are generated while the computer is operating and then later discarded.
Note 3: Items specified by 4A901.b. include semiconductor, superconducting, and photonic qubit chips and chip arrays; surface ion trap arrays; other qubit confinement technologies; and coherent interconnects between such items.
Note 4: 4A901.c. applies to items designed for calibrating, initialising, manipulating or measuring the resident qubits of a quantum computer.
Technical Notes:
For the purposes of 4A901:
1. A 'physical qubit' is a two-level quantum system used to represent the elementary unit of quantum logic by means of manipulations and measurements that are not error corrected. 'Physical qubits' are distinguished from logical qubits, in that logical qubits are error-corrected qubits comprised of many 'physical qubits'.
2. 'Fully controlled' means the 'physical qubit' can be calibrated, initialised, gated, and read out, as necessary.
3. 'Connected' means that two-qubit gate operations can be performed between any arbitrary pair of the available 'working' 'physical qubits'. This does not necessarily entail all-to-all connectivity.
4. 'Working' means that the 'physical qubit' performs universal quantum computational work according to the system specifications for qubit operational fidelity.
5. Supporting 34 or more 'fully controlled', 'connected', 'working' 'physical qubits' refers to the capability of a quantum computer to confine, control, measure and process the quantum information embodied in 34 or more 'physical qubits'.
6. 'C-NOT error' is the average physical gate error for the nearest-neighbour two-'physical qubit' Controlled-NOT (C-NOT) gates.
4. B.  Test, Inspection and Production Equipment
None.
4. C.  Materials
None.
4. D.  Software
Note: The status of "software" for equipment described in