Helios is noteworthy for its qubits’ precision, says Rajibul Islam, a physicist on the College of Waterloo in Canada, who isn’t affiliated with Quantinuum. The pc’s qubit error charges are low to start with, which suggests it doesn’t must dedicate as a lot of its {hardware} to error correction. Quantinuum had pairs of qubits work together in an operation often known as entanglement and located that they behaved as anticipated 99.921% of the time. “To the perfect of my data, no different platform is at this stage,” says Islam.
This benefit comes from a design property of ions. In contrast to superconducting circuits, that are affixed to the floor of a quantum computing chip, ions on Quantinuum’s Helios chip may be shuffled round. As a result of the ions can transfer, they’ll work together with each different ion within the laptop, a capability often known as “all-to-all connectivity.” This connectivity permits for error correction approaches that use fewer bodily qubits. In distinction, superconducting qubits can solely work together with their direct neighbors, so a computation between two non-adjacent qubits requires a number of intermediate steps involving the qubits in between. “It’s changing into more and more extra obvious how vital all-to-all-connectivity is for these high-performing techniques,” says Strabley.
Nonetheless, it’s not clear what sort of qubit will win in the long term. Every sort has design advantages that would finally make it simpler to scale. Ions (that are utilized by the US-based startup IonQ in addition to Quantinuum) supply a bonus as a result of they produce comparatively few errors, says Islam: “Even with fewer bodily qubits, you are able to do extra.” Nonetheless, it’s simpler to fabricate superconducting qubits. And qubits manufactured from impartial atoms, such because the quantum computer systems constructed by the Boston-based startup QuEra, are “simpler to lure” than ions, he says.
Apart from rising the variety of qubits on its chip, one other notable achievement for Quantinuum is that it demonstrated error correction “on the fly,” says David Hayes, the corporate’s director of computational principle and design, That’s a brand new functionality for its machines. Nvidia GPUs have been used to establish errors within the qubits in parallel. Hayes thinks that GPUs are more practical for error correction than chips often known as FPGAs, additionally used within the business.
Quantinuum has used its computer systems to analyze the fundamental physics of magnetism and superconductivity. Earlier this yr, it reported simulating a magnet on H2, Quantinuum’s predecessor, with the declare that it “rivals the perfect classical approaches in increasing our understanding of magnetism.” Together with saying the introduction of Helios, the corporate has used the machine to simulate the habits of electrons in a high-temperature superconductor.
“These aren’t contrived issues,” says Hayes. “These are issues that the Division of Power, for instance, could be very all in favour of.”
Quantinuum plans to construct one other model of Helios in its facility in Minnesota. It has already begun to construct a prototype for a fourth-generation laptop, Sol, which it plans to ship in 2027, with 192 bodily qubits. Then, in 2029, the corporate hopes to launch Apollo, which it says may have 1000’s of bodily qubits and must be “absolutely fault tolerant,” or in a position to implement error correction at a big scale.
