PALM-SIZED QUANTUM CHIPS Spark Boundless Dreams

Those interested in quantum computing know that there is constant activity in the space—research and development, government policies, investment, and more. However, when there is a wave of announcements from big tech companies, everyone notices—even the non-techies. The unveiling of quantum chips by Google, Microsoft, and Amazon, in quick succession, has garnered a lot of media traction, suddenly making quantum computing a coffee table topic. This buzz has made people more aware of what quantum computing can do—and awareness has the potential to accelerate a technology’s journey to the mainstream.

Why are companies so keen on developing fault-tolerant large quantum computers? Is it because they can outperform classical computers? Yes, they can. But more than that, quantum computers have massive parallel processing ability far beyond the reach of classical supercomputers because their basic building block—a qubit—can hold multiple states, unlike a traditional bit confined to 0 or 1 (that is, on or off). This gives them a unique edge in solving problems with multiple potential outcomes.

Problems like this abound in fields like optimisation, materials science, cryptography, artificial intelligence (AI), machine learning, sensing, telecommunications, and finance. Since the fundamental building blocks of the universe, at the atomic and subatomic level, are governed by the principles of quantum mechanics, quantum computing helps simulate natural processes like protein folding, molecular formations, photosynthesis, and superconductivity. This helps in disease profiling, drug discovery, clinical trials, crop management, weather modelling, and more such essential activities.