Foundation for QC Innovation (FQCI) is an Indian Institute of Science, Bangalore, promoted Section-8 company (not-for-profit) under the National Quantum Mission (NQM, implemented by the Department of Science and Technology (DST), Government of India. The Quantum Computing Thematic Hub (T-Hub) is a transformative initiative designed to advance quantum computing technology while building a robust national ecosystem. This initiative aligns with the National Quantum Mission (NQM), launched by the Government of India, which aims to position the country as a global leader in quantum technologies by fostering innovation, developing infrastructure, and cultivating a skilled workforce. The T-Hub focuses on innovation, research, and development across four key quantum computing platforms: superconducting qubits, semiconducting qubits, ion/atom traps, and photonics. It represents a significant step forward in addressing both technical and societal challenges through comprehensive solutions, directly contributing to the objectives of the National Quantum Mission.
The T-Hub’s primary goal is to enable scalable quantum computing systems by developing indigenous quantum processors and the associated infrastructure. It aims to create a quantum computing system accessible via the cloud. For superconducting qubits, the plan includes achieving millisecond coherence times and building processors with capacities ranging from 24 to 1,000 qubits. These systems will meet the demand for high-fidelity quantum computations and cloud-accessible services while ensuring seamless integration with existing computational frameworks. The semiconducting qubit program focuses on spin-based qubits fabricated on silicon platforms, aiming to develop processors with cryo-CMOS control systems for efficient scaling and thermal management. Similarly, hybrid quantum systems combining neutral atoms and ion traps will be developed to leverage the advantages of both analog and digital computing approaches, addressing diverse quantum problem-solving needs. Meanwhile, photonic quantum processors will utilize the unique resilience of photons to environmental decoherence, aiming to create room-temperature, scalable systems that achieve quantum advantage through resource-efficient architectures.
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