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ETtech In-Depth: Is India Catching Up with China and the US in Quantum Computing?

Published: 8.2.2024

Quantum computing stands as the next big leap in technology, promising to transform sectors like pharmaceuticals, finance, and cybersecurity. As global superpowers China and the United States race ahead, India is also striving to secure its position in this groundbreaking field. But the question remains: Is India still trailing behind China and the US in quantum computing? 



China and the United States are undeniably at the forefront of quantum computing advancements. The US boasts a strong ecosystem, with tech giants like IBM, Google, and Microsoft driving innovation. In 2019, Google's Sycamore processor achieved a milestone by demonstrating quantum supremacy, performing a calculation in seconds that would take classical supercomputers thousands of years. 


Meanwhile, China has surged ahead with substantial government investment and strategic initiatives. China has achieved remarkable milestones, such as launching the world's first quantum satellite, Micius, and developing quantum computers that challenge the capabilities of classical supercomputers. 



India has recently begun to significantly ramp up its efforts in the quantum computing arena. The Indian government's launch of the National Mission on Quantum Technologies and Applications (NM-QTA) in 2020 marked a pivotal step. With an investment of INR 8,000 crore (around $1 billion) over five years, this mission aims to boost research, development, and application of quantum technologies in India. 


Leading institutions like the Indian Institute of Science (IISc), Tata Institute of Fundamental Research (TIFR), and the Indian Institutes of Technology (IITs) are spearheading India's quantum research efforts. Furthermore, collaborations with global organizations and the creation of quantum research hubs are essential components of India's strategy to enhance its quantum capabilities. 



Despite these initiatives, India faces several challenges in keeping pace with China and the US in quantum computing. A primary hurdle is the need for extensive investment in both infrastructure and human resources. While India's funding for quantum research is substantial, it is still dwarfed by the investments seen in the US and China. 


Moreover, developing quantum technologies requires a skilled workforce proficient in quantum mechanics, computer science, and engineering. Building this talent pool is crucial, and while educational initiatives are underway, it will take time to cultivate a robust and skilled workforce. 


To accelerate progress, India is increasingly pursuing international collaborations. Partnerships with leading global institutions and companies can offer Indian researchers access to advanced technologies and expertise. Additionally, fostering innovation within the quantum startup ecosystem can drive the commercialization of quantum technologies. 


The establishment of the National Quantum Mission is a significant step forward. However, sustaining this momentum will require ongoing policy support, funding, and industry engagement. Promisingly, Indian startups like QNu Labs and BosonQ Psi are already making strides with quantum encryption solutions and quantum-driven optimization software. 

Conclusion 


India has made impressive progress in the realm of quantum computing, yet it continues to play catch-up with China and the US. The path to quantum supremacy is a long-term endeavor, requiring sustained investment, talent development, and international cooperation. By addressing these challenges, India can transition from being a follower to a key player in the global quantum landscape. 


As the race for quantum dominance heats up, India's strategic initiatives and collaborative efforts may propel it into a leading position, significantly contributing to the worldwide quantum revolution. With the right focus and resources, India has the potential to not only catch up but also to lead in this transformative field.