Evaluating quantum computing opportunities, developing strategic adoption plans, and guiding investment in emerging technology.
Prepare for the implications of quantum computing, developing post-quantum security and quantum-resistant cryptographic systems.
Bridging the gap between quantum capabilities and domain-specific problems for breakthroughs in science and industry.
Apply quantum computing to financial modeling, risk assessment, portfolio optimization, and trading strategies to gain competitive advantage.
Develop policy and national strategies to advance research, secure critical infrastructure, and maintain international competitiveness.
Identify and evaluate quantum computing investment opportunities, understand technology milestones and market dynamics.
Design quantum algorithms to solve computational problems that are inefficient or intractable in classical computing.
Simulating quantum systems for drug discovery, material design, molecular modeling and chemical reaction optimization.
Deliver quantum computing resources as accessible cloud services without managing complex hardware infrastructure.
Develop and deliver quantum computing education programs, training materials, and research initiatives to build quantum literacy.
Develop the physical components and systems of quantum computation, from qubits and control electronics to system integration.
Develop and deliver quantum computing solutions, services, and products to implement quantum technologies.
An evolving role from classical to quantum computing, developing applications, tools, and interfaces that use quantum hardware and algorithms.
Connect quantum computing systems with classical infrastructure, developing workflows and architectures for practical quantum applications.