Information of quantum devices

This wiki page summarizes useful information on some of quantum devices from different providers, including their physical properties and what benchmarking methods are suitable. This page only serves as a reference and please refer to the official provider websites for detailed information.

Provider	Device	Physical System	Qubit number	Analog/Digital	Topology	Native gate set	suit. for QV	suit. for CLOPS	suit. for BSEQ
IBM	ibm-sherbrooke	Superconducting Qubits (fixed-coupling)	127	Digital	2D lattice	ECR, ID, RZ, SX, X	✅	✅	✅
IBM	ibm-strasbourg	Superconducting Qubits (fixed-coupling)	127	Digital	2D lattice	ECR, ID, RZ, SX, X	✅	✅	✅
IBM	ibm-brussels	Superconducting Qubits (fixed-coupling)	127	Digital	2D lattice	ECR, ID, RZ, SX, X	✅	✅	✅
IBM	ibm-kyiv	Superconducting Qubits (fixed-coupling)	127	Digital	2D lattice	ECR, ID, RZ, SX, X	✅	✅	✅
IBM	ibm-brisbane	Superconducting Qubits (fixed-coupling)	127	Digital	2D lattice	ECR, ID, RZ, SX, X	✅	✅	✅
Rigetti	Ankaa-3	Superconducting Qubits (tunable-coupling)	82	Digital	2D lattice	rx, rz, iswap	✅	❌	✅
IQM	Garnet	Superconducting Qubits (tunable-coupling)	20	Digital	2D lattice	cz, prx	✅	❓	✅
IonQ	Aria-1	Trapped Ions ($^{171}Yb^+$)	25	Digital	fully connected (chain)	gpi, gpi2, ms	✅	❓	❌2
IonQ	Aria-2	Trapped Ions ($^{171}Yb^+$)	25	Digital	fully connected (chain)	gpi, gpi2, ms	✅	❓	❌2
IonQ	Forte	Trapped Ions ($^{171}Yb^+$)	36	Digital	fully connected (chain)	gpi, gpi2, ms	✅	❓	❌2
Quantinuum	H1-1	Trapped Ions ($^{171}Yb^+$)	20	Digital	fully connected (QCCD)	1Q rotation, zz, SU(4)	✅	❓	❌2
Quantinuum	H2	Trapped Ions ($^{171}Yb^+$)	56	Digital	fully connected (QCCD)	1Q rotation, zz, SU(4)	✅	❓	❌2
QuEra	Aquila	Neutral atoms (Rb-87)	256	Analog	fully connected	N/A1	❌	❌	❌

Footnotes

1. The Aquila device supports only analog simulation, which limits its compatibility with certain benchmarking methods.

2. The device architecture corresponds to a fully-connected graph and is not an appropriate topology for this benchmark.