Standard Chartered Bank, Universities Space Research Association (USRA) has signed a Collaborative Research Agreement to partner on quantum computing research and developing quantum computing applications.
In finance, the most promising use cases with real-world applications include quantum machine learning models and discriminative models with multiple potential uses such as credit scoring and generating trading signals.
As quantum computing technology matures, clients should benefit from higher quality services such as faster execution, better risk management and the development of new financial products.
Kahina Van Dyke, Global Head of Digital Channels and Client Data Analytics at Standard Chartered, said “Similar to other major technological advancements, quantum computing is set to bring widespread benefits as well as disrupt many existing business processes. This is why it’s important for companies to future-proof themselves by adopting this new technology from an early stage. The partnership with USRA gives us access to world-class academic researchers and provides us with a unique opportunity to explore a wide range of models and algorithms with the potential to establish quantum advantage for the real-world use cases.”
Bernie Seery, Senior VP of Technology at USRA noted that “This partnership with the private sector enables a diversity of research through a portfolio of quantum computing research projects involving academic institutions and non-profits, growing an ecosystem for quantum artificial intelligence that has already involved over 150 researchers from more than 40 organizations that produced over 50 peer-reviewed publications over the last seven years.”
Alex Manson, Global Head of SC Ventures, Standard Chartered’s innovation, fintech investment and ventures arm, stated, “The world is currently in the process of identifying commercial use cases where quantum computer capabilities will surpass classical computers. We have a conviction that some of these use cases will transform the way we manage risks in financial services, for example by simulating portfolios and exponentially speeding up the generation of market data. We will work with USRA to identify such use cases in financial services, with a view to implementing them within our bank, as well as potentially offering this service to other market participants over time.”
D-Wave’s Mark Johnson, Vice President, Processor Design, Development and Quantum Products observed, “Quantum computing research and development are poised to have a profound impact on the industries responsible for solving today’s most complex problems. That’s why researchers and businesses alike are looking to quantum computing today to start demonstrating tangible value. We’re proud to work with USRA and Standard Chartered Bank as they improve global access to quantum systems and undertake essential research and development.”
At USRA’s Research Institute for Advanced Computer Science, Dr. Davide Venturelli, Associate Director for Quantum Computing, notes that quantum annealing is implementing a powerful approach to computing, featuring unique advantages with respect to other traditional and novel approaches that should be studied, theoretically and experimentally, to advance the state of art of computing technologies for the benefit of nearly all disciplines.
Standard Chartered’s team, led by Dr. Alexei Kondratyev, Global Head of Data Science and Innovation, and USRA have collaborated in quantum computing research since 2017. An earlier success in investigating the quantum annealing approach to computational problems in portfolio optimisation use cases led to this strategic partnership, where USRA will continue to support fundamental academic research in quantum physics and artificial intelligence and Standard Chartered will focus on future commercial applications.
Standard Chartered and USRA intend to develop this initial collaboration beyond quantum annealing to all unconventional computing systems that could provide an advantage to applications of interest, such as gate-model noisy-intermediate scale quantum (NISQ) processors and Coherent Ising machines.