IonQ Aria-1
Live Status: Currently, the IonQ Aria-1 is Direct API (Offline), AWS (Offline), Azure (Offline). Updated real-time for IonQ, Inc. circuit monitoring.
QPUStatus is independent. Data from provider APIs may vary from internal states. Trademarks property of IonQ, Inc.. Not affiliated.
Live Network Load
Direct Cloud Route
*Metric: Average age of jobs currently in queue. This is NOT the wait time for a new job.
AWS Route
*Metric: Total number of tasks pending execution (Queue Depth).
Azure Route
*Metric: Azure's estimated wait time in minutes for a newly submitted job.
System Availability Trends
Detailed Connectivity (Last 7 Days)
Official Provider Status
Because we're still gathering historical data, our telemetry might not show the full picture yet. For official incident reports, past outages, and scheduled maintenance windows, please check the manufacturer's official page.
Note: QPUStatus is an unofficial project and is not affiliated with IonQ.
Unofficial Telemetry Dashboard
This is an independent tracking project. QPUStatus is not affiliated with, endorsed by, or partnered with IonQ, AWS, or Microsoft Azure. Our data is gathered automatically via public API routing endpoints and may not perfectly reflect internal hardware states.
Hardware Deep Dive
The IonQ Aria-1 is a 25-qubit trapped-ion quantum computer. Known for its error mitigation and fully connected topology, it allows researchers to run deep and complex quantum circuits with high fidelity without the need for intensive qubit swapping logic.
IonQ Aria 1
Common Provider Questions
Why is the IonQ Aria-1 offline or unavailable?
If the Aria-1 status shows as OFFLINE, it is usually due to a scheduled daily calibration window or laser tuning sequence rather than a hardware failure. Quantum processors require frequent environmental recalibration to maintain gate fidelity. Check our uptime charts above to see if this is a routine outage.
What does #AQ 25 mean for my workloads?
Algorithmic Qubits (#AQ) measure the real-world utility of a QPU. At #AQ 25, the Aria-1 can successfully execute quantum circuits up to 25 qubits wide and over 600 entangling gates deep — a benchmark that represents a significant amount of useful computational work for near-term algorithms.
Why trapped-ion over superconducting?
Unlike superconducting qubits (used by IBM or Google) which must be physically manufactured and can have slight variations, trapped-ion qubits are identical atomic isotopes (Ytterbium in this case). This naturally leads to longer coherence times and allows for a fully connected "all-to-all" topology, meaning any qubit can interact with any other qubit directly.
Official Resources
IonQ Aria Official Overview
Hardware specifications and whitepapers directly from the manufacturer.
AWS Braket: IonQ Provider Hub
Pricing, regional availability, and specific AWS routing details.
Azure Quantum: IonQ Target
Documentation on submitting jobs and managing Azure Quantum workspaces.