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Engineering Reliable Quantum Architecture
Fault-Tolerant Quantum Computing is designed to enable reliable computations by actively correcting errors within quantum systems.
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FTQC 인포그래픽
The Logical Qubit Evolution
Transitioning to FTQC requires evolving from a physical qubit architecture to a logical qubit paradigm on the same neutral-atom hardware platform.
물리적 큐비트
Raw quantum systems are highly sensitive to environmental noise, which can introduce decoherence and calculation errors.
논리적 큐비트
By entangling an array of physical qubits, systems can encode a single, highly stable logical qubit capable of executing complex fault-tolerant gates.
보조 큐비트
These physical qubits are measured to detect syndrome errors dynamically, allowing the system to correct faults without destroying the quantum state of the logical qubit.
논리적 큐비트 솔루션
Scaling Logical Architecture
Generating high-fidelity logical qubits requires significant physical qubit overhead. Pasqal’s scalable neutral-atom architecture aims to yield 200+ logical qubits by 2029, targeting this fundamental trade-off.
Discover Pasqal’s Roadmap
Pasqal is a quantum computing company scaling its neutral-atom technology to deliver broad-scale commercial impact, targeting the Fault-Tolerant era by the early 2030s.