The Gemini-Class gate-model quantum computers from QuEra are built on our innovative neutral atom technology platform designed to empower researchers and enterprises as they prepare for the quantum computing era. These systems provide an unparalleled environment for exploring algorithm development, testing quantum concepts, and advancing the frontiers of computational science.
With Dynamic Qubit Array (DQA™) architecture, Gemini-Class gate-model computers offer exceptional flexibility, allowing precise qubit manipulation and shuttling while maintaining quantum coherence.
All-to-All Connectivity:
Enable the development of more efficient algorithms by allowing any qubit to interact with any other qubit directly. This flexibility also supports exploration of advanced quantum error correction techniques that go beyond the limitations of fixed connectivity systems.
Parallel Quantum Operations:
The Gemini architecture supports transversal gates and parallel operations, which are crucial for implementing quantum error correction protocols and creating more efficient algorithms, reducing execution times, and enhancing scalability.
Room-Temperature Operation:
Simplify deployment and operation without the need for cryogenics.
Dual-Zone Architecture:
Dedicated areas for storage and entanglement ensure long coherence times and robust quantum operations.
While quantum computers are, broadley speaking, not yet capable of solving practical problems that cannot be solved classically, the Gemini-Class gate-model computer is designed to help users:
Experiment with optimization, simulation,
and machine learning applications to prepare
for the quantum era.
Leverage advanced features like all-to-all connectivity and parallel operations to explore novel QEC protocols and accelerate the discovery of scalable error correction solutions.
Explore cutting-edge research and contribute
to the global quantum ecosystem.
Work with a versatile platform that supports hybrid quantum-classical workflows.
Whether deployed in HPC centers, research institutions, or accessed via the cloud, the Gemini-Class Quantum Computers provide a pathway for users to engage with and shape the future of quantum computing.
Quantum Modality
Neutral atoms
Architecture
Qubit Type
87Rubidium
Number of Qubits
260 physical qubits
Architecture
Dynamic qubit array (DQA™) that allows flexible qubit positioning
and shuttling of qubits while maintaining their quantum state
Qubit Connectivity
All-to-all
Number of Zones
Two zones:
Performance
Global 1-Qubit
Gate Fidelity
99.9%
Local 1-Qubit
Gate Fidelity
99.7%
Global 2-Qubit
Gate Fidelity
99.2%
Parallel 2-qubit gate pairs
20
SPAM Fidelity
99%
Shuttling Fidelity
99.7%
Repetition Rate
1 shot/second
Operation Mode
Digital Gate-Mode
Yes
Bloqade™ Digital-Mode
Emulator
Yes, GPU-accelerated
Circuit-level Interface
QASM
Hardware-level interface
Contract us
Hosting Requirements
Contact us
QuEra is committed to fostering innovation and collaboration in quantum computing. Supporting the Gemini-Class hardware is a robust suite of software tools, designed to simplify the development, testing, and debugging of quantum algorithms.
These tools empower users to explore the potential of quantum technology while
addressing todays computational challenges.
Join us in advancing the quantum frontier—explore the Gemini-Class Quantum Computers today.
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