International Collaboration between VINCI Energies, QuantumBasel and D-Wave Improves Efficiency in HVAC System Design with Quantum Computing

Rhea-AI Summary

D-Wave (NYSE: QBTS) collaborates on a quantum computing project for sustainable building design with VINCI Energies | DIANE and uptownBasel | QuantumBasel, marking a significant shift from traditional computational methods to a more innovative, quantum-classical hybrid approach.

Insights

Environmental Engineer

Quantum computing's application in optimizing HVAC systems for sustainable building design represents a significant advancement in environmental engineering and sustainable technology. The transition from conventional computational methods to a quantum-classical hybrid approach has demonstrated potential for more efficient design processes. Shorter duct lengths and fewer construction elements not only imply reduced material usage and waste but also suggest potential cost savings and a decrease in the carbon footprint associated with the production and transportation of materials.

Moreover, the integration of quantum computing in this sector could lead to broader implications, such as setting new industry standards for environmental impact assessments and sustainable practices. The interdisciplinary team's success also highlights the importance of collaborative efforts across borders, which could become a model for future international projects aiming to tackle environmental challenges.

Technology Analyst

The integration of quantum computing into the field of HVAC design is a noteworthy development in the intersection of technology and construction. This application is an example of how quantum computing can be leveraged beyond theoretical or isolated use cases to solve practical, industry-specific problems. The successful transformation of HVAC network generation into a constrained quadratic model (CQM) and its subsequent solution using D-Wave's hybrid solvers is a strong indicator of the technology's maturation and readiness for commercial use.

For stakeholders, particularly investors in quantum computing and sustainable technologies, this represents a promising diversification of applications for quantum technology, potentially opening up new markets and driving demand for quantum computing services. However, it is essential to monitor the scalability of these solutions and their cost-effectiveness compared to traditional methods to fully gauge their long-term viability in the market.

Financial Analyst

The announcement of the successful application of quantum computing to optimize HVAC systems in building design could have a material impact on the business landscape. Companies like D-Wave could see increased interest from potential clients in the construction and building services sector, looking to adopt cutting-edge solutions for cost and energy efficiency. The reduction in computation time and manual engineering effort translates to direct cost savings and could lead to a competitive advantage for early adopters.

Investors should note that while this project is currently at the proof of concept stage, its scalability and adaptability to diverse building plans could lead to widespread industry adoption, potentially affecting the stock performance of companies involved in quantum computing and sustainable building solutions. The cross-disciplinary collaboration also emphasizes the value of intellectual synergy in driving innovation, which could become a strategic focus for companies seeking to invest in or partner with technology innovators.

PALO ALTO, Calif. & BURNABY, British Columbia--(BUSINESS WIRE)-- A collaborative project leveraging quantum computing has taken an important step in the realm of sustainable building design. This initiative, a quantum proof of concept (qPoC) spearheaded by VINCI Energies | DIANE, uptownBasel | QuantumBasel, and D-Wave (NYSE: QBTS), focused on optimizing the design of heating, ventilation, and air conditioning (HVAC) systems for complex buildings.

The project's first phase successfully transformed the complex HVAC network generation problem into a constrained quadratic model (CQM), potentially efficiently solvable by D-Wave's quantum-classical hybrid solvers. This marked a clear step away from traditional computational methods to a more innovative, quantum-classical hybrid approach.

The implementation and experimentation phase saw the CQM translated into Python code and processed by D-Wave’s hybrid solvers. These solvers, utilizing using both classical and quantum devices, identified superior HVAC network designs, outperforming the existing data-driven method in significant ways. Notably, the new approach yielded solutions more quickly with shorter duct lengths and fewer construction elements, such as elbows. In addition, subject matter experts from VINCI Energies visually and manually inspected these solutions, confirming their superiority in terms of quality. Importantly, these results were based on one representative building plan and diverse HVAC systems, setting the stage for broader application in the industry.

A crucial factor in the project's success was the interdisciplinary team. Team members from Europe (Switzerland, France, Germany) and North America (Canada, USA) brought specialized knowledge and experience, resulting in rapid progress and efficient problem-solving. This global team operated seamlessly through collaboration tools, demonstrating the power of virtual teamwork in achieving cutting-edge innovation.

As the project moves forward, the focus will shift to translating these technical improvements into tangible business impact, such as reduced computation time and less manual engineering effort.

This quantum computing project stands as a testament to the power of collaborative innovation in driving sustainable and efficient solutions in building design. It marks another important step towards a more sustainable future, in which human expertise and technology join forces to create environmentally friendly and cost-effective building solutions.

About VINCI Energies

In a world undergoing constant change, VINCI Energies contributes to the environmental transition by helping bring about major trends in the digital landscape and energy sector. VINCI Energies’ teams roll out technologies and integrate customized multi-technical solutions, from design to implementation, operation, and maintenance. With their strong local roots and agile and innovative structure, VINCI Energies’ 1,900 business units have positioned themselves at the heart of the energy choices of their customers, boosting the reliability, efficiency and sustainability of their infrastructure and processes. VINCI Energies strives for global performance, caring for the planet, usefulness to people and commitment to local communities..

2022: €16.7 billion // 90,000 employees // 1,900 Business Units // 57 countries www.vinci-energies.com

About uptownBasel and QuantumBasel

uptownBasel serves as a global hub for Industry 4.0, seamlessly connected to the world while firmly rooted in Basel, Europe. Situated on the historic Schorenareal site in Arlesheim near Basel, an expansive research and production facility covering approximately 70,000 square meters is being constructed. With the opening of Building 1 and its use by the two European technology groups Bouygues and Vinci (Axians and Actemium), the campus has already created 400 new jobs since 2021. In total, the center will house about 100 companies, generating up to 2500 jobs. The investment volume amounts to over 500 million Swiss francs. uptownBasel is made possible by the private ownership of the Monique and Thomas Stæhelin family and implemented by Fankhauser Arealentwicklungen.

QuantumBasel, a wholly owned subsidiary of the uptownBasel Group, runs “QuantumBasel,” its Center of Competence for Quantum and Artificial Intelligence and the first commercial quantum hub in Switzerland. Seamless access to quantum and high-performance computing is made available to tenants and the eco-system of uptownBasel, including enterprises, research institutes, startups, and universities. Collaborating with esteemed technology partners like IBM, D-Wave, and IonQ, QuantumBasel is also expanding its global network to encompass research institutes and universities. www.quantumbasel.com

About D-Wave Quantum Inc.

D-Wave is a leader in the development and delivery of quantum computing systems, software, and services, and is the world’s first commercial supplier of quantum computers—and the only company building both annealing quantum computers and gate-model quantum computers. Our mission is to unlock the power of quantum computing today to benefit business and society. We do this by delivering customer value with practical quantum applications for problems as diverse as logistics, artificial intelligence, materials sciences, drug discovery, scheduling, cybersecurity, fault detection, and financial modeling. D-Wave’s technology has been used by some of the world’s most advanced organizations including Volkswagen, Mastercard, Deloitte, Davidson Technologies, ArcelorMittal, Siemens Healthineers, Unisys, NEC Corporation, Pattison Food Group Ltd., DENSO, Lockheed Martin, Forschungszentrum Jülich, University of Southern California, and Los Alamos National Laboratory.

Forward-Looking Statements

Certain statements in this press release are forward-looking, as defined in the Private Securities Litigation Reform Act of 1995. These statements involve risks, uncertainties, and other factors that may cause actual results to differ materially from the information expressed or implied by these forward-looking statements and may not be indicative of future results. Forward-looking statements in this press release include, but are not limited to, statements regarding the shift in focus of the project going forward to obtaining tangible business impacts. These forward-looking statements are subject to a number of risks and uncertainties, including, among others, various factors beyond D-Wave management’s control, including the risk that the collaboration or the project could be terminated before the next stage of development; general economic conditions and other risks; our ability to expand our customer base and the customer adoption of our solutions; risks within D-Wave’s industry, including anticipated trends, growth rates, and challenges for companies engaged in the business of quantum computing and the markets in which they operate; the outcome of any legal proceedings that may be instituted against us; risks related to the performance of our business and the timing of expected business or financial milestones; unanticipated technological or project development challenges, including with respect to the cost and/or timing thereof; the performance of our products; the effects of competition on our business; the risk that we will need to raise additional capital to execute our business plan, which may not be available on acceptable terms or at all; the risk that we may never achieve or sustain profitability; the risk that we are unable to secure or protect our intellectual property; volatility in the price of our securities; the risk that our securities will not maintain the listing on the NYSE; and the numerous other factors set forth in D-Wave’s Annual Report on Form 10-K for its fiscal year ended December 31, 2022 and other filings with the Securities and Exchange Commission. Undue reliance should not be placed on the forward-looking statements in this press release in making an investment decision, which are based on information available to us on the date hereof. We undertake no duty to update this information unless required by law.

View source version on businesswire.com: https://www.businesswire.com/news/home/20231219235223/en/

QuantumBasel Camila Galvez camila.galvez@uptownbasel.ch

VINCI Energies in Deutschland Diana Plantade diana.plantade@vinci-energies.com

D-Wave Alex Daigle media@dwavesys.com

Source: D-Wave Quantum Inc.

FAQ

What is the collaborative quantum computing project involving D-Wave (NYSE: QBTS)?

D-Wave (NYSE: QBTS) collaborates with VINCI Energies | DIANE and uptownBasel | QuantumBasel on a quantum computing project focused on optimizing the design of heating, ventilation, and air conditioning (HVAC) systems for complex buildings.

What was the outcome of the project's first phase?

The project's first phase successfully transformed the complex HVAC network generation problem into a constrained quadratic model (CQM), potentially efficiently solvable by D-Wave's quantum-classical hybrid solvers.

How did the quantum-classical hybrid approach outperform traditional methods?

The quantum-classical hybrid approach yielded solutions more quickly with shorter duct lengths and fewer construction elements, such as elbows, outperforming the existing data-driven method significantly.

What was the role of the interdisciplinary team in the project's success?

The interdisciplinary team from Europe and North America brought specialized knowledge and experience, resulting in rapid progress and efficient problem-solving, demonstrating the power of virtual teamwork in achieving cutting-edge innovation.

What is the focus of the project as it moves forward?

The focus will shift to translating technical improvements into tangible business impact, such as reduced computation time and less manual engineering effort, aiming to drive sustainable and efficient solutions in building design.