Horizon’s Strategy For Bringing Quantum Computing Out Of The Dark.
Key Sentence:
- There are always breakthroughs in quantum computing – the latest quantum processors developed by Google solve complex mathematical calculations in less than four minutes.
Modern conventional Horizon’s Strategy computers will take 10,000 years to find the answer. But here’s the thing: even when scientists perfect quantum computing hardware, not many experienced people can use it, especially in real life.
Fitzsimons left science in 2018 after years of research Horizon’s Strategy at Oxford University. And the Quantum Information and Theory Group in Singapore and finding opportunities. “We are developing tools that will help people use these achievements in the real world,” he explains.
You don’t need a crash course in quantum computing to understand Horizon’s unique selling proposition. The point is that while conventional computing uses binary processing techniques. The world is reduced to 0 or 1 – quantum computing works on many combinations of these numbers simultaneously.
This means you can get results faster.
The problem for anyone looking to take advantage of this speed and performance is that conventional computer programs don’t run on quantum computers. But the program has to be able to work in the best way for the machine to get a particular result; not every possible route offers an advantage.
An additional difficulty is that quantum computer programmers are scarce. And no quantum computer programmer understands the intricacies of the trade problems that need to be solved. For example, in financial services, pharmaceuticals, or energy.
Horizon wants to close this gap. “Our role is to make quantum computers accessible by developing tools that people can use in the real world,” he explained. “If there’s a problem that quantum computers can solve, we have to make it easier.”
Think of Horizon as a translation service.
When you have written a program to get a particular result on a traditional computer. Horizon’s translation tool turns it into a program that can produce the same effect from a quantum processor.
In the absence of such tools, real quantum computing applications are slowly evolving. An alternative is to use one of the existing quantum computing program libraries, provided one for your particular application. Hiring a team of experts – or buying expertise from a consultant – to build your app is a different matter, but it takes time and money, even if talent with the right skills is there for your results.