A survey conducted by Wakefield Research in collaboration with D-Wave Quantum Inc. (NYSE: QBTS) reveals a strong belief among business leaders in the financial potential of quantum optimization technologies. With 27% of executives expecting a return on investment (ROI) exceeding $5 million and 46% anticipating between $1 million to $5 million within the first year of implementation, the findings underscore the high expectations surrounding quantum computing's ability to address optimization challenges beyond classical computing's reach.
The survey, which engaged 400 decision-makers from various industries across North America, Europe, and the Asia-Pacific region in May 2025, found that 81% believe classical computing has reached its optimization limits. Industries such as logistics, supply chain, manufacturing, planning and inventory, and R&D were pinpointed as areas where quantum optimization could offer significant benefits. An overwhelming 88% of participants stated their organizations would aggressively pursue even a modest 5% improvement in optimization.
With 53% of respondents planning to integrate quantum computing into their workflows and an additional 27% considering it, the survey indicates a significant shift towards quantum computing adoption in the business sector. This transition reflects a broader recognition of quantum computing's evolution from a theoretical concept to a practical tool capable of tackling real-world operational challenges. For more details on the survey, visit https://ibn.fm/YPAsc.
D-Wave Quantum Inc., a leader in the quantum computing industry, is at the forefront of making quantum computing accessible and practical for businesses. The company's development of both annealing and gate-model quantum computers demonstrates its commitment to innovation, offering solutions that meet a wide range of computational needs. As the business world increasingly acknowledges quantum computing's potential, D-Wave's role in enabling this transition is becoming increasingly vital. For further information on D-Wave's contributions to the field, visit https://www.dwavequantum.com.
