Editorial Feature

Orca Computing's Role in the Quantum Ecosystem

This article will briefly explore Orca Computing’s contribution to the field of quantum computing, a highly exciting emerging technological field.

Quantum Ecosystem, Orca Computing

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Who are Orca Computing?

Founded in 2019, Orca Computing is an international actor in the quantum ecosystem, with offices in London, Toronto, Seattle, and Krakow. A spinoff of Oxford University, the company’s headquarters are in London.

Established with the aim of delivering new approaches to quantum computing and providing breakthroughs that will benefit clients in the commercial and military sectors. One of the company’s major clients is the UK Ministry of Defence.

Leveraging over three decades of scientific expertise, technology, and research, Orca is helping several clients begin their quantum journeys, according to the company’s website.

Benefits of the Company’s Technology

Orca’s stated aim on the company’s website is to create both near-term and long-term photonic quantum computing solutions for the market. In the near term, this would add value to a client’s operations, whereas in the long term, the company aims to create error-corrected computing capabilities.

At the heart of the company’s offering is a singular technology: a modular system with an interconnected architecture. The modular nature of the technology is both upgradeable and scalable, meaning that it can consistently be adapted to new challenges and technological requirements, reducing obsolescence, an unfortunate hallmark of modern technology.

Furthermore, the technology’s architecture exploits current telecoms technologies. By doing so, the benefits of standard, extant technologies can be used to provide clients with advantages over other quantum approaches, according to Orca.

In addition, multiplexing reduces the number of components required to build a comprehensive quantum computing solution. Photonic qubits have multiple degrees of freedom. These are exploited by the technology’s novel multiplexing technologies and quantum memory capabilities.

PT Series From Orca

Orca’s flagship product is known as the PT Series. Off-the-shelf optical fiber components are utilized in a room-temperature rack-mounted system to provide clients with real-world photonic quantum computing capabilities.

One of the main advantages of the PT Series is its ability to be integrated into existing infrastructure. It is easy to integrate the technology into classical computing workflows, giving users quantum computing capabilities with ease of use.

In addition to this, machine learning and AI capabilities are supported by the PT Series’ software development kit. Programmed in Python, the SDK is integrated with PyTorch. Thus, productivity is boosted whilst the complexity of developing quantum AI applications is reduced.

Essentially, Orca’s PT Series is a hybrid quantum computing system for critical research and development in industries such as defense, biomedicine, life sciences, telecoms, energy, financial services, and manufacturing.

Orca at Digital Catapult

Orca has been confirmed as the quantum computing provider at QTAP., Digital Catapult’s program to support British companies in their quantum journey. A 20-week program, QTAP includes industry leaders such as Rolls-Royce,  the United Kingdom Atomic Energy Authority, and Airbus.

The company’s SDK and PT Series quantum computer will be available to help participants develop quantum solutions and demonstrate them in a final showcase at the end of the 20-week programme.

The Future

Quantum computing has been touted as one of the next big things, with computers able to solve questions faster, run complex simulations, and transform multiple industries and research fields in ways previously not possible with conventional computing capabilities.

Many experts agree that the advent of useful quantum computers is still at least a decade away. When they do arrive, however, they have the potential to revolutionize humanity’s technological development. By 2033, it is predicted that 75% of companies will be preparing for the advent of quantum computing.

Orca’s PT Series could hasten the development of real-world quantum computing solutions to critical scientific challenges facing key sectors such as aerospace, healthcare, transportation, energy, and finance. Scalable and upgradeable, the technology uses off-the-shelf components to create an innovative hybrid system.

It is in this hybridity and application readiness that the real potential of Orca’s quantum solution lies, giving clients the ability to leverage new developments in the quantum ecosystem.

The market share of the field is only predicted to grow as conventional computing power is surpassed, and Orca may be well-placed to be a part of this new frontier in IT and computing. This is certainly an interesting development in quantum and a company that could be worth keeping an eye on in the coming decade.

What to Know About Silicon Nitride in Quantum Computers

References and Further Reading 

Orca Computing – Homepage [online] Available at:

https://orcacomputing.com/

Digital Catapult (2023) Digital Catapult launches Quantum Technology Access Programme with eleven leading British businesses, to improve the quantum readiness of key UK industries [online] digitalcatapult.org.uk. Available at:

https://www.digicatapult.org.uk/about/press-releases/post/quantum-technology-access-programme-launched/

Disclaimer: The views expressed here are those of the author expressed in their private capacity and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork the owner and operator of this website. This disclaimer forms part of the Terms and conditions of use of this website.

Reginald Davey

Written by

Reginald Davey

Reg Davey is a freelance copywriter and editor based in Nottingham in the United Kingdom. Writing for AZoNetwork represents the coming together of various interests and fields he has been interested and involved in over the years, including Microbiology, Biomedical Sciences, and Environmental Science.

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