Quantum Computing Strategy: AWS Braket approach, according to its GM
In the exciting field of quantum computing, it is crucial to not only focus on the technical aspects but also on developing the right strategies to overcome the challenges that the industry faces. While there is an abundance of technical literature on quantum computing, there is a lack of attention given to identifying strategic options and setting strategic priorities. Innovative strategic thinking will help to pave the way for advancements in quantum computing that will revolutionize various industries.
Here is an approach from one of the leaders in quantum computing, AWS Braket. Richard Moulds, the general manager of AWS Braket, highlights several key issues and strategic priorities in the field of quantum computing, shedding light on the challenges and opportunities that lie ahead.
Key Issues in Quantum Computing:
- Fragmentation: The quantum computing industry is fragmented, with each quantum machine having its own developer environment and toolkits. This fragmentation can make it challenging for customers to work with different quantum architectures.
- Lack of Practical Use Cases: As of now, quantum computers cannot outperform classical machines for most practical purposes. Many businesses are exploring quantum computing to find useful problems that can be solved faster or more cost-effectively than classical computing.
- Access and Security: Quantum machines are often in research labs and may require private access. Ensuring secure connections and optimizing network communications for applications that use quantum computing resources are challenges.
- Quantum Supremacy: Achieving quantum supremacy, where a quantum computer can outperform classical computers on practical problems, is a critical milestone that the industry is working towards.
To successfully deal with these issues, AWS Braket adopts the following strategic priorities:
- Hardware Agnosticism: AWS Braket’s strategic priority is to remain hardware-agnostic, allowing customers access to various quantum computing technologies. This approach enables customers to experiment with different quantum devices and architectures.
- Education and Experimentation: AWS Braket aims to educate customers and encourage experimentation with quantum hardware. It provides a platform for customers to gain hands-on experience with quantum computing technology to understand its capabilities and limitations.
- Simplifying Development: AWS Braket is working on simplifying the development process for quantum computing by enabling customers to design quantum algorithms and run them on different types of quantum machines. This simplification is intended to make quantum computing more accessible.
- Use Case Exploration: AWS Braket is actively exploring potential use cases for quantum computing. Molecular simulation, in particular, is seen as a promising application due to quantum computers’ ability to accurately model complex chemical reactions.
- Security and Optimization: Ensuring secure connections to external quantum machines and optimizing network communications are strategic priorities for AWS Braket to facilitate the use of quantum computing resources through its platform.
While challenges exist, AWS Braket is focused on helping customers explore the potential of quantum computing and its practical applications.