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Transforming Industries through Quantum Computing

A foray into quantum computing can seem daunting and out of reach. Yet companies that have leaped have experienced remarkable business transformation.

The exhibit begins with Badger, a five-foot-tall, dull-metal cylinder that can cool to almost absolute zero. It is a relic from the quantum revolution when German physicist Werner Heisenberg revealed that deterministic cause-and-effect physics failed for atoms.

1. Weather Forecasting

The meteorology industry is one of the most impacted industries by quantum computing, as it requires processing huge amounts of data and simulating complex atmospheric phenomena. These processes are often hindered by the limited computational power of classical computers.

These complex calculations can take a lot of time to run on a regular computer, but with the advent of quantum computing, scientists are hoping to speed up these calculations and optimize weather forecasting models in real time. Quantum AI could lead to improved warning systems, potentially saving thousands of lives yearly threatened by severe weather events.

2. Discovery of Drugs and Chemical Modelling

The chemical industry is among the first to benefit from quantum computing, which can help solve complex molecular models and reactions that are essential for new product development. Its ability to simulate real systems, based on the laws of quantum physics, will also advance work on alloys and catalysts that could help reduce energy consumption and carbon emissions.

In pharmaceuticals, QCs’ ability to model at a subatomic level may significantly speed up drug discovery efforts, with campaign claims of target-to-lead and lead-to-clinical candidates in under 1 year already being made by many established and emerging biotech companies.

Manufacturing is another sector where QCs are poised to deliver significant advantages. A virtuous cycle of demand creation and supply will be critical for driving early adoption of these solutions.

3. Energy

For energy firms, quantum computing’s enhanced modeling capabilities are proving to be game-changing. Enhanced weather and climate models are helping optimize power grids, whereas quantum chemistry simulations can advance the design of alloys, catalysts, and energy storage materials.

Other companies are focusing on hybrid systems that combine the advantages of quantum computers for complex problems and classical computing for speed and accessibility. This approach requires the courage to embrace uncertainty, as well as a willingness to shift course when necessary.

4. Artificial Intelligence

In machine learning and AI, quantum computing is expected to be the next big leap. The reason is that it can process huge amounts of data extremely quickly.

Unlike classical transistors that can be in only one of two states — either a 1 or a 0, quantum computers use qubits that can be in a state of both a 0 and a 1. These qubits also link with each other, which makes it possible to perform calculations at the same time that would require multiple conventional computer chips to work on separately.

Quantum computing powers the algorithms that make it possible to optimize investment portfolios, determine optimal delivery routes for medical patients, and identify affinities between chemicals to discover new drugs faster. It’s a powerful combination that could save lives and transform industries.