QMill’s quantum algorithms could well outperform supercomputers shortly. The company is cementing its place as a leader in quantum computing, with a new patent-pending verification algorithm. The company is currently closing a critical gap by finding new ways to surpass the limitations imposed by quantum computing. Seasoned physicists, computer scientists, and mathematicians are working together to try and elevate the role of computing in the modern age.
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Algorithms are Already an Integral Part of Our Lives
Algorithms are a huge part of our lives, and often work behind the scenes to deliver tailored experiences. Algorithms are also used to filter spam from important mail in your email inbox, and when suggesting a route via GPS. Netflix also uses complex algorithms to suggest new shows to watch on the platform, using your data to tailor the outcome. Algorithms are also a big part of online gaming. Online roulette games, like Roulette Deluxe and Diamond Bet Roulette, use random number generators to produce a fair outcome. RNGs are, however, driven by algorithms that help to simulate randomness by using complex calculations. They use a seed value, alongside mathematical operations, to ensure the outcome is unpredictable, ensuring that the digital version of the game aligns with the experience of using a traditional wheel. Examples like this help to show just how much algorithms are part of our lives, but with that said, the potential of them is so much greater than what we are seeing right now. The issue is that they have been limited by the capabilities of supercomputers in the past, but right now, it looks like that could be about to change.
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A New Class of Quantum Devices
QMill’s strategy is to try and develop quantum algorithms for NISQ computers. These devices are set to be available soon, but traditionally, they are associated with significant levels of quantum noise. They are also prone to error and feature hundreds of qubits. The devices themselves are not capable of correcting their quantum errors, which is holding them back from their true potential. With QMill’s new algorithm, they can overcome this limitation, rather than having to wait for a new wave of quantum computers to be released. Even though a lot of quantum systems have high error rates, with one in every thousand failing, the new verification algorithm that is in development helps to offer a solution that verifies early-stage computations.
The company is working on a 200-qubit quantum computer, which has a 99.99% accuracy rate. Solutions can be found in under one second, with the machine set to be available on a commercial level by 2029. Accuracy rates like this largely come down to the complex algorithm used, so even though the tech itself is impressive, it’s the algorithm that is helping to unlock whole new levels of potential. Developments like this could change quantum computing as we know it, unlocking whole new benefits while also ensuring that accuracy rates are greatly increased, making them more reliable when used within complex applications.
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