
Segment by Type
• Microprocessors (MPUs) • Graphic Processing Units (GPUs) • Programmable Logic Devices (PLDs) • OthersSegment by Applications
• Automotive Electronics • Consumer Electronics • Industrial Automation • Healthcare • Military • IT & Telecommunication • OthersKey Companies covered in this report:• Intel India • AMD India • Qualcomm India • Texas Instruments India • Samsung India Electronics • Broadcom India • Micron Technology India • NVIDIA India • IBM India • Xilinx India Fill out the download sample Report form to access the complete list of key players.Competitor Analysis
The report also provides analysis of leading market participants including: • Key companies Chiplets revenues in Indian market, 2019-2024 (Estimated), ($ millions) • Key companies Chiplets revenues share in Indian market, 2023 (%) • Key companies Chiplets sales in Indian market, 2019-2024 (Estimated), • Key companies Chiplets sales share in Indian market, 2023 (%)Drivers:
- Government Initiatives for Semiconductor Manufacturing: India’s government has been pushing for domestic semiconductor manufacturing with policies like the Production-Linked Incentive (PLI) Scheme and the establishment of semiconductor manufacturing facilities. These initiatives aim to reduce dependence on imports and promote local production, thereby accelerating the demand for chiplets in the country.
- Growing Demand for Advanced Electronics: With the rise of smartphones, IoT devices, and automotive electronics, there is a growing need for high-performance and energy-efficient chips. Chiplets enable companies to design complex, customizable solutions, meeting the demand for faster, smaller, and more efficient devices.
- Advancements in 5G and AI Technologies: The deployment of 5G networks and the growth of artificial intelligence (AI) in sectors like healthcare, automotive, and consumer electronics are creating strong demand for high-performance computing solutions. Chiplets, with their modularity, provide the scalability needed for these high-tech applications.
- Cost Efficiency: Chiplet-based architectures offer cost-effective solutions by allowing manufacturers to mix and match different types of silicon components rather than building monolithic chips. This helps reduce costs and improve manufacturing yields, a crucial factor for India's price-sensitive market.
Restraints:
- Complex Supply Chain: The manufacturing of chiplets involves a complex supply chain, requiring precision and collaboration between multiple players like silicon providers, packaging vendors, and integration firms. India’s current semiconductor ecosystem lacks the robustness needed for seamless chiplet production, which may slow market growth.
- High Initial Investment: Establishing chiplet design and manufacturing facilities involves high capital expenditure, which could deter smaller players from entering the market. While government support is available, the financial risks involved may restrain rapid adoption.
- Technical Integration Challenges: Chiplet integration poses several technical challenges, especially in maintaining interconnects between different chiplets while ensuring performance and power efficiency. Indian firms, which are still building capabilities in chip design, may face difficulties in adopting and mastering these complex techniques.
Opportunities:
- Expansion of Startups and Design Firms: With the increasing focus on indigenous technology development, Indian startups and semiconductor design firms have the opportunity to tap into the chiplet market. By developing innovative solutions, these companies can address specific needs in sectors like telecommunications, defense, and consumer electronics.
- Global Supply Chain Realignment: Due to geopolitical factors, there is a shift in the global semiconductor supply chain, with many companies looking to diversify their manufacturing bases outside of traditional hubs like China and Taiwan. India can leverage this opportunity to attract investments and become a key player in the chiplet market.
- Emerging Use Cases in Automotive and Aerospace: The automotive and aerospace industries in India are increasingly adopting electrification and autonomous technologies. Chiplets offer scalable solutions for advanced driver-assistance systems (ADAS), sensors, and other crucial components, providing ample growth opportunities in these sectors.
- Collaborations with Global Players: India’s strong IT and R&D talent pool makes it an attractive destination for collaborations with global semiconductor firms. By partnering with international companies, Indian firms can accelerate their chiplet development capabilities and enhance the country’s role in the global semiconductor landscape.
Challenges:
- Lack of Skilled Workforce: Despite a strong IT sector, India still faces a shortage of specialized talent in semiconductor manufacturing and chip design, which could hinder the rapid adoption and development of chiplets. The industry requires upskilling programs and collaborations with academic institutions to address this gap.
- Infrastructure Gaps: While the government has announced ambitious plans to boost semiconductor manufacturing, infrastructure development remains a challenge. The country lacks the necessary fabrication plants (fabs) and advanced packaging facilities needed to support large-scale chiplet production.
- Competition from Global Giants: The global chiplet market is dominated by industry leaders like Intel, AMD, and TSMC, who have significant experience and resources. Indian firms may find it difficult to compete with these established players unless they leverage local advantages like cost-effective labor and government support.
- Intellectual Property (IP) Issues: Developing chiplets requires access to specialized intellectual property (IP), which might be costly or difficult to obtain for Indian companies. The lack of a strong domestic IP framework could be a bottleneck for innovation in the chiplet market.

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