Key Specifications
Full Specifications
| Qubit Specs | |
| Physical Qubits | 20 qubits |
| Technology | Superconducting |
| Connectivity | Custom |
| Connectivity Degree | 4 neighbors |
| Gate Performance | |
| 1Q Gate Fidelity | 99.94% |
| 2Q Gate Fidelity | 99.50% |
| Readout Fidelity | 98.50% |
| 1Q Gate Time | 20 ns |
| 2Q Gate Time | 120 ns |
| Coherence | |
| T1 (Relaxation) | 150 µs |
| T2 (Dephasing) | 100 µs |
| Features | |
| Mid-Circuit Measurement | No |
| Classical Feedback | No |
| Dynamic Circuits | No |
| Error Mitigation | Available |
| Max Circuit Depth | 1,000 |
| Max Shots | 100,000 |
| System | |
| Cooling Method | dilution refrigerator |
| Operating Temp | 0.015 K |
| Native Gates | CZ, PRX, MEASURE |
| SDK Compatibility | |
| IQM Client Qiskit Cirq Amazon Braket SDK | |
Cloud Access & Pricing
| Platform | Model | Price | Status | |
|---|---|---|---|---|
| Amazon Braket ...-1::device/qpu/iqm/Garnet | Per Shot | $0.001450/shot Best value
min $0.3000/job
| Available | Run on Amazon |
| qBraid iqm_garnet | Credits | $0.001450/shot
min $0.3000/job
| Available | Run on qBraid |
Free tiers available:
Amazon Braket: Free Simulator usage (SV1, TN1, DM1); no free QPU time
qBraid: 300 qBraid credits on signup; credits can be used across multiple QPU backends
Recommended Use Cases
Combinatorial optimization problems including logistics, scheduling, and portfolio optimization.
Molecular simulation and energy level calculations for drug discovery and materials science.
Fundamental quantum computing research and algorithm development.
About Superconducting Technology
Superconducting qubits are electrical circuits cooled to millikelvin temperatures where quantum effects dominate. They are fabricated using standard semiconductor lithography, making them highly scalable. Qubits are formed from Josephson junctions — non-linear inductors that create discrete energy levels. IBM, Google, and Rigetti lead commercial deployment of this technology.
Fast gate speeds (tens to hundreds of nanoseconds), mature fabrication technology using standard semiconductor processes, and strong industry investment make this the most commercially advanced platform.
Requires dilution refrigerators operating near absolute zero (~15 mK), leading to large physical footprints and high infrastructure costs. Qubits are sensitive to noise, limiting coherence times to microseconds-to-milliseconds range.
99.5–99.9% for 2-qubit gates
10–700 ns per gate
Compare IQM Garnet With Other QPUs
Frequently Asked Questions
How much does it cost to use IQM Garnet?
IQM Garnet is available on 2 cloud platforms. The most accessible pricing starts from $0.001450/shot via Amazon Braket. Pricing models vary by platform and may include per-shot, per-second, or gate-based billing.
What is the gate fidelity of IQM Garnet?
IQM Garnet achieves 99.50% two-qubit gate fidelity and 99.94% single-qubit gate fidelity, with 98.50% readout fidelity. Higher fidelity means fewer errors per gate operation.
Which cloud platforms offer IQM Garnet?
IQM Garnet is available through: Amazon Braket, qBraid.
What qubit technology does IQM Garnet use?
IQM Garnet uses Superconducting qubit technology. Fast gate speeds (tens to hundreds of nanoseconds), mature fabrication technology using standard semiconductor processes, and strong industry investment make this the most commercially advanced platform. Operating temperature: ~15 mK (millikelvin).
What is the Quantum Volume of IQM Garnet?
IQM Garnet has a Quantum Volume of QV 128. 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.
Looking for the right QPU for your project? Browse all comparisons →