AI Insight
A public-private partnership in the Mountain West has achieved greater than 99.9% fidelity rates for both one-qubit and two-qubit operations on the Helios quantum computer. This advancement represents measurable progress toward the Department of Energy's objective of developing fault-tolerant quantum computing systems with sufficient scale and reliability to address complex computational problems.
Why it matters
High-fidelity quantum operations are essential for building practical quantum computers capable of solving problems beyond the reach of classical computers. Achieving 99.9% fidelity is a critical threshold for implementing quantum error correction, a prerequisite for fault-tolerant quantum computing with real-world applications.
A public-private partnership in the Mountain West announced new results today that mark steady progress toward the Department of Energy’s goal of fault-tolerant quantum computing, systems large and reliable enough to solve complex problems.
Source: Helios quantum computer tops 99.9% fidelity rates for one- and two-qubit operations