India Quantum Vision 2035: The Roadmap aims for 1.2 lakh trained professionals and global leadership by 2040.
India aims to play a prominent role in the global quantum economy by 2035 by ranking among the top three nations for quantum technology patent filings. The long-term goal is to establish India as a world leader in this extremely disruptive industry. The country is at a critical turning point in its technological development, according to the recently published plan created by NITI Aayog, and it has a real chance to build a strong quantum ecosystem that can produce both national impact and worldwide leadership.
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India Quantum Vision 2035
The roadmap outlines a comprehensive plan that calls for swift and decisive action to remove current development and adoption impediments in order to achieve the long-term goal of global quantum leadership. The approach places a strong emphasis on developing indigenous hardware capabilities and human resources.
The strategy places a strong emphasis on developing technical leadership and enhancing hardware engineering capabilities. The plan breaks down the overall purpose into five different visions, carefully examines the significant gaps that now exist, and offers seven practical suggestions that are especially intended to support and strengthen the goals of the current National Quantum Mission (NQM). Overall success will depend on meeting NQM milestones, particularly those related to hardware technology.
If approved, this roadmap provides a clear path from 2035 to 2047, allowing India to build on the groundwork laid over the following ten years and move more quickly towards the goal of Viksit Bharat (Developed India). The nation may be able to compete with the industrialized world by 2047, using its leadership in quantum technology to advance numerous other facets of its own growth. All parties involved, including legislators, business, academics, private funding, and the public sector, must work together and coordinate their efforts in order to realize this objective.
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Massive Workforce Expansion and Talent Retention
A key element of the plan is the substantial growth of India’s professional, deep-engineering, and scientific workforce in quantum technologies by 2027–2028.
The goal is to deploy a sizable workforce of 1.2 lakh (120,000) skilled professionals in a variety of fields by 2040. Quantum information science, materials science, optical engineering, and quantum physics are some of these essential fields. The plan also acknowledges the need for business professionals with expertise in business development, marketing, and sales in the quantum industry.
The government intends to implement competitive compensation packages for those with specialized quantum capabilities in order to draw and keep top talent. These packages, which encompass people in academic institutions, technological incubation centers, and businesses, will be compared to both international and alternative employment options.
There will be more professional development initiatives that integrate business and technological skills unique to quantum technologies. Dedicated multidisciplinary quantum engineering programs at the undergraduate and graduate levels, bolstered by strong ecosystems for vocational training, are among these initiatives. In order to provide researchers and engineers with practical experience in top laboratories across the globe, India will also introduce international training fellowships. This will ensure that the knowledge they obtain directly benefits the country’s developing quantum ecosystem.
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The Transformative Power of Quantum Technology
Quantum technologies have the potential to completely transform a number of important industries.
Logistics and Delivery: Quantum technology can be used by logistics firms to quickly identify the best delivery routes. This feature makes it easier to transport goods the same day, uses a lot less fuel, saves money, and eventually results in cheaper costs for customers.
Drug Discovery: Currently, it takes ten to fifteen years to find new drugs. By accurately modelling molecular behavior, quantum computers provide a means of significantly reducing this time, enabling researchers to find promising compounds well in advance of the start of physical testing.
Traffic Management: Conventional computers control city traffic lights, but they frequently falter in situations of extreme congestion. Millions of traffic scenarios can be evaluated simultaneously by quantum computing, allowing for much more intelligent and effective traffic management.
Stern Warning: The Cost of Inaction
The roadmap warns that India’s ambition to become a developed country by 2047 may suffer greatly if it does not make strategic investments in quantum technologies (Viksit Bharat). Ignoring quantum technology will greatly increase India’s strategic vulnerabilities because it is predicted to be one of the century’s most disruptive forces.
Given the speed at which rivals like China are developing in the quantum space, India may become vulnerable if it continues to rely on foreign technologies in vital areas like advanced communications, cybersecurity, surveillance, and military. In the end, the lack of strong quantum capabilities will jeopardize vital infrastructure, national security, and India’s strategic independence since reliance on outside technologies might be used by enemies and even allies to limit India’s options on the international scene.
The risks are as significant from an economic perspective. The estimated value of the worldwide quantum industry ranges from hundreds of billions to trillions of dollars. If this important opportunity is lost, it would hinder domestic growth, restrict the creation of jobs, and possibly turn India’s substantial demographic dividend into a liability, leaving millions of people of working age unemployed or underemployed.
A technical lag would increase the trade deficit, reduce India’s market share in high-value international industries, and make manufacturing, software services, and semiconductors less competitive. Dependency on foreign quantum solutions would also significantly raise costs, which would impede Indian industry and make the country’s transition to a high-income economy more challenging. As a result, per capita income may fall behind that of nations like the US and China.
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