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Top Ten Quantum Computing Trends to Look Out For in 2023

Disha Sinha

Quantum computing trends can boost productivity and unlock several tech mysteries in 2023 and beyond

The world is heading fast toward making quantum computing more sophisticated than ever before. It is quite evident that quantum computer systems developers are working hard with it. The trends identified below, based on various reports, reveal that with a lot of innovations and intensity put together the quantum computing advantage is on its way. What is particularly noticeable is that the quantum computing trends blend research and practical commercial arenas. Multiple quantum computing predictions or quantum computing trends are set to thrive in the global tech market in the coming few months. Tech companies should reap the benefits of quantum computing trends to drive updated information in quantum computers to drive customer engagement in the tech market. Thus, let's look out for the top ten quantum computing trends as well as quantum computing predictions coming up in 2023.

Top ten quantum computing trends in 2023

1. Fault-tolerance: The first and foremost challenge is to build a large fault-tolerant quantum processor before any of the quantum algorithms with proven super-polynomial speed-up. Quantum computers are of course much more powerful especially when it concerns such vital tasks as investigating novel battery designs or even discovering new drugs. But the fact remains that they are not error-free when it comes to the practical domain. The leading tech giants are now involved in developing ways and means to come out with fault-tolerant computers which run on specific superconducting circuits innovated for this purpose in the tech market.

2. Cybersecurity: Quantum computing is expected to bring a revolution in the realm of cybersecurity. It is being predicted by scientists that quantum computing is sure to pose a threat to cybersecurity in the tech market through current forms of encryption. Researchers have been working hard in the last few years to develop "quantum-safe" encryption. The American Scientist Journal reported that the U.S. National Institute of Standards and Technology (NIST) is already evaluating 69 potential new methods for what it calls post-quantum cryptography (PQC).

3. Quantum random number generation: It is one of the top quantum computing predictions of foundational importance to cryptography through companies such as Quantum Dice and IDQuantique are developing quantum random number generators that utilize quantum optics to generate sources of true randomness. It seeks to better the ways of conventional random number generators which rest on algorithms, popularly known as pseudo-random number generators, and which not being truly random are potentially vulnerable to compromise.

4. Quantum-secure communications, specifically quantum key distribution: Quantum key distribution (QKD) is a secure communication method for exchanging encryption keys only known between shared parties. It is technology functionally equivalent to asymmetric key agreement schemes that are used in nearly all secure communication protocols over the Internet or in private networks. The communication method uses properties found in quantum physics to exchange cryptographic keys in such a way that is provable and guarantees security. Researched quantum computing trends reveal an intense focus on this area in the tech market.

5. QC Application: It is one of the popular quantum computing predictions that have the potential to break public-key cryptography, more specifically the RSA algorithm, and it concerns the US$4 trillion eCommerce industry. RSA relies on the fact that the product of two prime numbers is computationally challenging to factor. It would take classical computers trillions of years to break RSA encryption. A quantum computer with around 4,000 error-free qubits could defeat RSA in seconds.

6. Quantum Machine Learning: Quantum computing offers one of the top quantum computing predictions in the specific context of cybersecurity and the threat that it poses to machine learning-based deep models are being examined as data volumes and complexity increase. The emerging field of quantum machine learning may enable exponentially faster, more time- and energy-efficient machine learning algorithms. This, in turn, could yield more effective algorithms for identifying and defeating novel cyberattack methods.

7. Healthcare: The healthcare sector is one of the key sectors to experience top quantum computing trends with more precise and individualized cancer treatments, with therapies that better target radiation application. Quantum computing will also quickly bring the sector to the point of leveraging customized pharmaceuticals based on a person's genomes and other personal health characteristics in the global healthcare and tech market.

8. Weather Forecasting: One of the top quantum computing predictions consists of a long-term weather forecasting set to be improved by quantum computing that can digest and process far more data more efficiently than the use of conventional smart computers. The benefits will be huge and will extend well beyond personal planning and comfort. It can enhance the weather-affected industries, especially farming, transportation, and infrastructure construction to boost productivity. Quantum computers can generate better information to make better decisions in those areas and make better use of resources to thrive in the tech market.

9. Investment portfolios: Finance was one of the earliest domains to embrace big data, even after leveraging blockchain technology. When Goldman Sachs, for example, for price derivatives applies an extremely computing-intensive calculation known as a Monte Carlo simulation, which makes projections based on simulated market movements. Quantum computing speed has long been a source of advantage in financial markets, where hedge funds vie to get millisecond advantages in obtaining price information. Quantum algorithms can offer one of the top quantum computing predictions that can increase the speed of an important set of financial calculations.

10. Quantum Autonomous Transportation: Quantum AI, a lot faster and more powerful than current methods, may help solve this problem in the autonomous sector. The automotive industry has been following these developments since quantum computing provides computational improvements that could boost capabilities across the value chain. Several OEMs and tier-one suppliers have already begun investigating QC's ability to benefit the industry and resolve some existing issues, including those related to route optimization, fuel-cell optimization, and material durability.

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