In addition to that news, the company has also said that it will make a 20-qubit processor available for "client use and expanded developer tools" as a cloud computing solution for businesses and science later this year. The 20-qubit processor will power IBM Q when it becomes available by the end of 2017, while the more powerful 50-qubit chip is expected to be integrated with the quantum platform sometime next year. This new processor expands upon the 20 qubit architecture and will be made available in the next generation IBM Q systems.
For Volkswagen, the intention behind quantum computer is to have a development on traffic optimisation to explore structures of new materials, especially for high performance batteries for electric vehicles and to work on artificial intelligence with machine learning processes. Eventually, the 50-qubit system will be used to help empower future IBM Q experiences.
"We are, and always have been, focused on building technology with the potential to create value for our clients and the world", said Dario Gil, vice president of AI and IBM Q with IBM Research.
IBM on Friday announced a significant upgrade for clients using its quantum computing-based cloud services. "These latest advances show that we are quickly making quantum systems and tools available that could offer an advantage for tackling problems outside the realm of classical machines". IBM Q, which was announced in March, is a followup to that effort. Through the IBM Q experience, over 60,000 users have run over 1.7M quantum experiments and generated over 35 third-party research publications.
The announcement does not mean quantum computing is ready for common use.
Image: Volkswagen and Google to quantum computing for practical use. This drives home the point that this is a real technology, not just a pipe dream. The company describes it as an initiative to build commercially available universal quantum computing systems accessible through the IBM Cloud platform. "The holy grail is fault-tolerant universal quantum computing".
Google has also taken a keen interest in quantum computing in recent years. That may sound like a lot but really, we've barely scratched the surface of what's possible with quantum computers as our understanding of them is still quite rudimentary. "Simulators don't now capture the nuances of the actual quantum hardware platforms, and nothing is more convincing for a proof-of-concept than results obtained from an actual quantum processor". IBM pointed out that quantum computing will have the ability to solve complex problems including chemical simulations and types of optimization. He says that IBM researchers have managed to achieve the higher qubit number with low error rates, making them highly useful to researchers. Its researchers have made significant progress with superconducting systems in particular, heightening competition with IBM. It's not going to happen overnight, but companies, governments, universities and interested parties are undertaking research to see how this can work in practical application.
VW Group Information Technologies (IT) personnel in San Francisco and Munich will develop the algorithms, simulations, and optimizations in concert with experts from Google and feed that information into Google's quantum computers. Founding members include Samsung, JSR, Honda, Hitachi Metals, Canon, and Nagase. He unveiled the breakthrough at the IEEE Industry Summit on the Future of Computing in Washington, D.C., on Friday morning.