Classiq and Hatch Advance Quantum Chemistry in Singapore Running on AWS
Hybrid quantum-classical workflow executed via Amazon Braket and on AWS infrastructure explores binding-energy estimation for Singapore Home Team innovation SINGAPORE, June 25, 2026 — Classiq and Hatch have announced the completion of a quantum-classical computational chemistry proof-of-concept (PoC), executed via Amazon Web Services (AWS) and Braket, that demonstrated a workflow for estimating molecular binding energy, […] The post Classiq and Hatch Advance Quantum Chemistry in Singapore Running on AWS appeared first on HPCwire .
The accelerating pace of quantum computing research coupled with practical applications in fields like chemistry is driving early adoption and proof-of-concept demonstrations. Cloud-based quantum services are lowering barriers to entry for such experiments.
This collaboration demonstrates an early practical application of quantum computing in a critical field (chemistry) and highlights the role of major cloud providers in democratizing access to quantum resources. It also indicates growing investment in quantum capabilities by nations like Singapore for homeland security applications.
The feasibility of deploying hybrid quantum-classical workflows for sophisticated scientific problems, specifically in molecular binding energy estimation, is becoming more concrete, and the role of cloud platforms like AWS in facilitating this is clearer.
- · Classiq
- · Hatch
- · Amazon Web Services
- · Quantum computing companies
Successful proof-of-concept encourages further investment and development in quantum chemistry applications.
Increased adoption of quantum computing for material science and pharmaceutical discovery, potentially accelerating R&D cycles.
The development of sovereign quantum capabilities becomes a strategic imperative for nations, impacting global supply chains for quantum hardware and software.
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