With the advancements in technology, we are entering the age of quantum artificial intelligence (AI). More efficient and more powerful, this new type of AI could transform the way we learn and think, and you don’t want to miss out on it!
How does quantum AI work? What can it do? Here’s everything you need to know about how quantum AI works and what it can do for your business.
The Origin Of Quantum AI
The idea of quantum AI dates back to the 1950s when prominent computer scientist John McCarthy used a hypothetical question: can machines do what we now accept as exclusively human – thinking? He noted that if there were a machine that could reproduce human intelligence, it would be able to use quantum computing to solve problems which are too complex for conventional computers.
McCarthy also theorized that quantum computing could advance Artificial Intelligence in unpredictable ways. In 2001, this was followed by physicist Scott Aaronson who proposed Quantum Computing and the Foundations of Quantum Mechanics where he argued quantum mechanics may make computations easier for quantum computers than for classical ones.
It has since been argued by some physicists that quantum technology will allow quantum AI to become more powerful than traditional computation because of its ability to take advantage of superpositioning
Quantum Computing Overview
As quantum computers evolve, many experts predict that quantum AI will replace or outperform current forms of artificial intelligence. What does that mean for humans? It could dramatically change how we learn, think, and interact with our environment.
For example, while today’s technology can produce predictions about a person’s behavior in certain situations (like what they might buy at a store), quantum computing would be able to accurately predict how they might behave in any situation (including things they have not yet experienced). Some experts even say this could lead to personalized education on a mass scale.
Artificial Neural Network Overview
Neural networks are artificial intelligence (AI) systems made up of interconnected nodes, or units. Each node is a simple mathematical operation that takes in one set of values (i.e., input) and gives out another set of values (i.e., output). The network as a whole learns by training on large sets of data to find patterns and extract insights from that data.
Why We May Need Quantum Computing For AI
We may need quantum computing for AI because of Moore’s Law, which states that computing power doubles every 18 months. Unlike traditional computers, which use binary bits to store information, quantum computers use qubits. This means they can process information much more efficiently.
Where Quantum Can Enhance Current Artificial Neural Networks
Current neural networks are limited by their reliance on classical mechanics. Quantum computers leverage quantum mechanics, which will allow them to process information in a fundamentally different way.
They can solve problems that are currently unsolvable for classical computers, such as estimating the ground state energy of more complex molecules than ever before. These new capabilities also offer promising advances for machine learning, including algorithms that could significantly reduce the training time for neural networks.
Where It Falls Short
The potential of quantum computing is huge, but there are also a lot of unknowns. Beyond scientific research, it’s not clear what other applications quantum computers could have. It’s possible that they’ll be used to help tackle intractable problems in everything from artificial intelligence to cryptography.
But while they’re expected to become commercially available within a decade or so, there are still plenty of unanswered questions about how they’ll work. And many experts fear that the power of these machines might be too much for humans to control.
What We Can Expect From Quantum In The Future
The future of quantum computing will continue to push the boundaries of what is possible in artificial intelligence. The idea that we can make machines more human, or humans more like machines, is an exciting prospect for a lot of people. But there are also those who are less enthusiastic about the idea.
