By Pavan Sharma 
Introduction: The Invisible Force Behind Smart Devices
What makes a phone smart, a computer process millions of commands in seconds, a TV show live reality, or a satellite collect and transmit signals across the world? The answer lies in something incredibly small yet powerful — the semiconductor chip. It’s a tiny component, often smaller than your fingertip, but it powers the modern digital world.
Semiconductors are the building blocks of modern electronics, acting like the hidden brain behind every digital device. These special materials conduct electricity under certain conditions, making them perfect for building smart systems — from smartphones and satellites to electric vehicles and defense systems.
Take India’s Chandrayaan-3 mission as an example. The Vikram lander used advanced AI and Indian-made technology to analyze landing conditions in real time and make critical decisions. Behind this smart behavior were semiconductor chips — the digital brain that processes data and enables machines to make intelligent choices.
What Are Semiconductors and Why Do They Matter?
Semiconductors are materials that fall between conductors and insulators. They behave differently based on their environment, allowing engineers to design chips that control how electricity flows. These chips can store, process, and transfer data, helping devices perform actions like making calls, storing photos, or detecting signals.
Each chip has millions or even billions of tiny transistors, which act like electrical switches, just like how neurons send messages in the human brain. Along with resistors, capacitors, and wires, these components work together to form a complete processing unit.
These tiny chips are used in:
- Mobile phones
- Laptops and desktops
- Televisions and smart appliances
- Satellites
- Cars and electric vehicles
- Defense systems like Akash missile and radar tech
Why the Semiconductor Industry Is So Important
In today’s digital world, semiconductors are critical to national progress. They power:
- Healthcare systems
- Transport infrastructure
- Communications networks
- Aerospace and defense missions
The demand for faster, more efficient devices has skyrocketed — especially after COVID-19 and the Russia-Ukraine conflict, which caused a global chip shortage, disrupting industries from automobiles to smartphones.
This growing dependence on semiconductors highlights how central they’ve become to economic security and strategic independence.
What’s Driving the Growth in Semiconductor Demand?
Several factors are pushing semiconductor growth:
- Rapid digitization across industries
- AI and Machine Learning in data centers and edge computing
- Need for high-performance, energy-efficient chips
- Massive data generation by connected devices
Countries like Taiwan, South Korea, China, Japan, and the U.S. currently dominate the chip market. Taiwan alone produces over 60% of global semiconductors, including 90% of the most advanced chips. This over-reliance on a single region has become a geopolitical risk, prompting many nations to rethink their strategies.
India’s Entry into the Global Chip Race
To tackle global supply chain vulnerabilities, the world is looking to diversify chip manufacturing. India is rising as a reliable and strategic partner.
Under the Make in India initiative, the government has launched bold efforts like:
- India Semiconductor Mission (ISM)
- Semiconductor India Program
- Electronics System Design and Manufacturing (ESDM)
These aim to create a full ecosystem — from design and fabrication to testing and packaging — that can support India’s semiconductor ambitions.
The global semiconductor market is expected to reach $1 trillion by 2030, and India is aiming to claim a major share.
India’s Semiconductor Mission: Building the Future
Launched in December 2021 with a funding outlay of ₹76,000 crore, the India Semiconductor Mission (ISM) aims to support:
- Semiconductor manufacturing
- Display fabrication
- Chip design
It acts as the central body to implement India’s chip-related schemes and make the country a global hub for electronics manufacturing.
Key support pillars include:
- Components – Utilizing India’s strong MSME base to produce semiconductor machinery parts
- Materials – Leveraging India’s rich sources of chemicals, minerals, and gases
- Services – Tapping into talent in AI, Big Data, cloud, and R&D
Strategic Collaborations Under ISM
To build talent and tech capacity, several strategic collaborations are underway:
- Lam Research & IISc – Training 60,000 engineers via the Semiverse simulation platform
- Future Skills Program (Madhya Pradesh) – Training 20,000 engineers
- Micron & IIT Roorkee – Innovation-focused MoU
- IBM – Skill development through labs, internships, and research access
- Purdue University (USA) – R&D and education-industry collaboration
India’s Semiconductor Ecosystem: Key Developments
Here are some of the major investments shaping India’s chip sector:
| Date | Company | Location | Investment | Production Capacity |
|---|---|---|---|---|
| Jun 2023 | Micron Technology | Sanand, Gujarat | ₹22,516 Cr | ATMP facility (phased) |
| Feb 2024 | Tata Electronics + PSMC | Dholera, Gujarat | ₹91,000 Cr | 50,000 wafers/month |
| Feb 2024 | CG Power + Renesas | Sanand, Gujarat | ₹7,600 Cr | 15 million chips/day |
| Feb 2024 | Tata Semiconductor Assembly & Test | Morigaon, Assam | ₹27,000 Cr | 48 million chips/day |
| Sep 2024 | Kaynes Semicon | Sanand, Gujarat | ₹3,307 Cr | 63 million chips/day |
| May 2025 | HCL-Foxconn JV | Jewar, UP | ₹3,700 Cr | 20,000 wafers/month |
SEMICON India: India’s Global Tech Showcase
India also hosts SEMICON India, a global platform organized in collaboration with SEMI (Semiconductor Equipment and Materials International). It brings together:
- Industry leaders
- Policymakers
- Innovators
- Startups
SEMICON India supports the ISM vision by enabling:
- International collaborations
- R&D commercialization
- Workforce development
Past Editions:
- 2022 – Bangalore
- 2023 – Gandhinagar
- 2024 – Greater Noida
Upcoming: SEMICON India 2025
- Date: 2–4 September 2025
- Venue: Yashobhoomi (IICC), New Delhi
Highlights:
- 300+ exhibitors from 18 countries
- Pavilions from Japan, South Korea, Singapore, Malaysia
- International roundtables with 8 countries
- Design startup pavilions
- Workforce development zone for career guidance
- 9 state government pavilions
Recent Developments in 2025
- The government approved a new HCL-Foxconn chip facility for display driver ICs.
- India’s first indigenous semiconductor chip is ready for production.
- 85,000 engineers to be trained under a new national program.
- Madhya Pradesh’s first IT complex launched, aimed at manufacturing components, servers, drones, and robotics.
- NetraSemi, a chip design startup under the government’s scheme, secured ₹107 Cr in VC funding for IoT and smart vision chips.
Conclusion: From Dependence to Dominance
India’s electronics sector is growing rapidly, and semiconductors are at the core of this transformation. With strategic initiatives like India Semiconductor Mission, SEMICON India, and international collaborations, the country is shifting from a chip importer to a global chip powerhouse.
As upcoming fabs start operations and talent pipelines strengthen, India is well-positioned to become a trusted global hub for chip manufacturing — securing its digital future and boosting technological independence.
“The chip revolution is not just coming — it’s already happening in India.”
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