Quantinuum

Quantinuum H1-1

Name: Quantinuum Quantinuum H1-1
Brand: Quantinuum
Availability: InStock

Trapped Ion Active 20 qubits QV 524,288

Released November 1, 2022

Cloud Access 3 platforms available

From

$120.00/HQC

Key Specifications

Physical Qubits

20

All-to-All

2Q Gate Fidelity

99.80%

Two-qubit gate

Quantum Volume

524,288

IBM QV metric

CLOPS

40

Circuit layers/sec

Full Specifications

Qubit Specs
Physical Qubits	20 qubits
Technology	Trapped Ion
Connectivity	All-to-All
Connectivity Degree	19 neighbors
Gate Performance
1Q Gate Fidelity	99.99%
2Q Gate Fidelity	99.80%
Readout Fidelity	99.93%
1Q Gate Time	10 µs
2Q Gate Time	1000 µs
Coherence
T1 (Relaxation)	5000 ms
T2 (Dephasing)	30 ms
Features
Mid-Circuit Measurement	Yes
Classical Feedback	Yes
Dynamic Circuits	Yes
Error Mitigation	Available
Max Circuit Depth	1,000
Max Shots	10,000
System
Cooling Method	laser cooling
Native Gates	U1q, ZZ, RZZ, MEASURE
SDK Compatibility
Tket Qiskit Cirq Azure Quantum SDK Quantinuum SDK

Cloud Access & Pricing

Platform	Model	Price	Status
Azure Quantum quantinuum.qpu.h1-1	HQC (Gate-based)	$120.00/HQC Best value min $2.40/job	Available	Run on Azure
Strangeworks quantinuum.h1-1	HQC (Gate-based)	$135.00/HQC min $2.70/job	Available	Run on Strangeworks
qBraid quantinuum_h1-1	Credits	$120.00/HQC min $2.40/job	Available	Run on qBraid

Free tiers available:

Azure Quantum: $500 USD free credits for new accounts; valid for IonQ, Quantinuum, and Rigetti

Strangeworks: Free tier with limited credits; access to multiple QPU providers

qBraid: 300 qBraid credits on signup; credits can be used across multiple QPU backends

Recommended Use Cases

Quantum Chemistry

Molecular simulation and energy level calculations for drug discovery and materials science.

Optimization

Combinatorial optimization problems including logistics, scheduling, and portfolio optimization.

Error Correction

Research into fault-tolerant quantum computation and quantum error correction codes.

About Trapped Ion Technology

Trapped-ion quantum computers use individual ionized atoms (typically ytterbium or barium) suspended in electromagnetic fields as qubits. Quantum information is encoded in the electronic states of the ions. Laser pulses or microwave fields implement gate operations. Ions naturally interact with each other through Coulomb repulsion, enabling all-to-all connectivity without physical wiring.

Key Advantage

Exceptional gate fidelities (99.9%+), long coherence times (seconds to hours), and native all-to-all qubit connectivity eliminate the need for SWAP routing that limits other architectures.

Key Challenge

Gate operations are slow (microseconds to milliseconds), limiting circuit throughput. Scaling to many ions in a single trap is difficult due to spectral crowding; modular trap architectures are being developed to address this.

Typical Fidelity

99.7–99.99% for 2-qubit gates

Gate Speed

1 µs – 1 ms per gate

Learn more about Trapped Ion qubits →

Compare Quantinuum H1-1 With Other QPUs

Quantinuum H1-1 vs IBM Heron r2 IBM

Superconducting 156 qubits

Quantinuum H1-1 vs IBM Nighthawk IBM

Superconducting 120 qubits

Quantinuum H1-1 vs IBM Eagle r3 IBM

Superconducting 127 qubits

Quantinuum H1-1 vs Google Willow Google Quantum AI

Superconducting 105 qubits

Quantinuum H1-1 vs Rigetti Ankaa-3 Rigetti Computing

Superconducting 84 qubits

Quantinuum H1-1 vs IonQ Forte Enterprise 1 IonQ

Trapped Ion 36 qubits

Frequently Asked Questions

How much does it cost to use Quantinuum H1-1?

Quantinuum H1-1 is available on 3 cloud platforms. The most accessible pricing starts from $120.00/HQC via Azure Quantum. Pricing models vary by platform and may include per-shot, per-second, or gate-based billing.

What is the gate fidelity of Quantinuum H1-1?

Quantinuum H1-1 achieves 99.80% two-qubit gate fidelity and 99.99% single-qubit gate fidelity, with 99.93% readout fidelity. Higher fidelity means fewer errors per gate operation.

Which cloud platforms offer Quantinuum H1-1?

Quantinuum H1-1 is available through: Azure Quantum, Strangeworks, qBraid.

What qubit technology does Quantinuum H1-1 use?

Quantinuum H1-1 uses Trapped Ion qubit technology. Exceptional gate fidelities (99.9%+), long coherence times (seconds to hours), and native all-to-all qubit connectivity eliminate the need for SWAP routing that limits other architectures. Operating temperature: Room temperature (laser-cooled ions ~mK).

What is the Quantum Volume of Quantinuum H1-1?

Quantinuum H1-1 has a Quantum Volume of QV 524,288. Quantum Volume is a single-number benchmark that measures the overall capability of a quantum computer, accounting for qubit count, connectivity, gate fidelity, and crosstalk.