Key Market Insights

• State-of-the-art infotainment processors can drive from four to eight displays at the same time from a single system on a chip (SoC) providing solutions like digital clusters, central touch screens, passenger displays and head-up displays.


• New IVI chips can achieve greater than 20-100 TOPS of compute power for AI applications like voice assistant control, driver monitoring and customizable cabin experiences.


• Top end automotive infotainment solutions now support display resolution up to 8K and refresh rate up to 60-120 Hz which results in enhanced clarity of display and responsiveness.


• Automotive infotainment chips are engineered to work within temperature ranges approximately from-40 °C to 125 °C to ensure stability under harsh environments.


• An integrated 5G infotainment system offers 10-100x faster data speeds compared to legacy 4G automotive systems, improving experience on streaming and cloud services.


• Over-the-air (OTA) update for software updates via a modern IVI chip may reduce software visits to a dealer by 30-50%, saving costs on maintenance.


• Automotive grade AI chips have shown command recognition capability reaching 95-98% accuracy for voice systems under common cabin conditions, which is beneficial for driver interaction and safety.


• High-end digital cockpit platforms can now integrate 10-20 discrete electronic control functions into one unified computing platform thereby lowering complexity, reducing wiring harness length and system weight.

Global In-Vehicle Infotainment Device Chip Market Value (USD Billion) Analysis, 2025-2035

9.6%

CAGR from
2026-2035

Source:
www.makdatainsights.com

The global market for in-vehicle infotainment (IVI) device chips is poised for strong growth as automakers incorporate more advanced digital cockpit features, connected vehicle services, AI and deep multimedia experiences into vehicles. In-vehicle infotainment chips act as the computing core that powers modern car systems, from navigation systems and digital cockpits, to touch screens, voice controls, connectivity modules, media and entertainment systems, and vehicle-to-cloud systems. The market is projected to expand from $18.7 Billion in 2025 to $45.3 Billion by 2035, with a CAGR of 9.6% between 2026 and 2035.

One of the key growth drivers of the IVI device chip market is the growing trend of automobiles as software-defined and connected mobility platforms. Consumers are increasingly demanding in-vehicle features similar to those of their smartphones-high-resolution displays, over-the-air updates, streaming, voice assistants, AI personalization-and these demands will drive future vehicle electronics content and semiconductor demand. With the rapid growth in demand for EVs and autonomous vehicles, automakers are increasingly investing in high performance infotainment processors to drive advanced HMIs, manage multiple display systems, and process complex real-time data. Semiconductor content per vehicle is expected to increase considerably over the forecast period.

Technological advancements are driving significant opportunities within the market. Modern IVI chips have evolved to include advanced CPUs, GPUs, AI accelerators, dedicated neural processing units and connectivity solutions, such as 5G, Wi-Fi, Bluetooth, and V2X technology. The rise of generative AI, voice recognition technology, AR navigation, and cloud based connected car services will continue to boost demand for computationally intensive IVI chips. In response to evolving demand,chip manufacturers are developing energy-efficient architectures suitable for EVs that deliver superior performance.

Some of the key advancements in the IVI device chip market in 2025 include: In January 2025, major automotive semiconductor companies announced the release of the next-generation cockpit processors capable of supporting multiple ultra-high-definition (UHD) displays and AI driven HMIs. In March 2025, leading chip companies announced a new Automotive Grade SoC platform for software-defined vehicles and advanced infotainment systems. During June 2025, numerous automotive technology companies signed new deals to accelerate AI driven cockpit and connected car features, along with semiconductor manufacturers. Throughout 2025, the trend of introducing chipsets with improved graphics performance, edge AI processing capabilities, enhanced cybersecurity, and greater cloud integration increased significantly.

Partnerships, mergers and acquisitions, and ecosystem collaboration activities are intensifying, and semiconductor manufacturers are increasing their collaborations with automotive OEMs, software vendors, and cloud service providers to establish comprehensive digital cockpit solutions. Significant investments are also being made in manufacturing high-quality automotive grade chipsets, advanced AI software platforms, and next generation semiconductor nodes.

One of the major ongoing trends impacting the market is the unification of IVI, digital instrumentation and ADAS functionalities into one common computing platform. Demand for high performance IVI device chips is projected to witness strong growth throughout the forecast period owing to increasing trend toward connected cars and smart mobility solutions.

Global In-Vehicle Infotainment Device Chip Market Segmentation Analysis

Segment Share By Technology

Share, By Technology, 2025 (%)

• Hardware Based
• Software Based
• Cloud Based

$18.7BGlobal Market Size, 2025

Source:
www.makdatainsights.com

Why is Vehicle Type the leading segmentation factor, and which sub-segment holds the largest share?

Passenger Vehicles represent the dominant segment, accounting for a substantial majority of the global in-vehicle infotainment device chip market. This leadership is fueled by the continuous integration of advanced infotainment systems across a vast range of mainstream and premium cars, driven by consumer demand for seamless connectivity, entertainment, and navigation. The sheer volume of passenger car production and sales consistently positions this segment as the primary engine for chip innovation and demand.

How do Technology and Component Type segments influence the market dynamics?

The market is shaped by the interplay of technology and component type. Software Based, Hardware Based, and Cloud Based technologies drive solution architectures, while Microcontrollers, Digital Signal Processors, and Application Processors form the hardware foundation. Application Processors are increasingly critical for powering complex operating systems and rich graphical interfaces, reflecting a push towards more intelligent and integrated systems. This necessitates powerful and efficient chips capable of handling extensive data processing.

What role do Connectivity Options play in shaping the demand for infotainment chips?

Connectivity Options like Bluetooth, Wi-Fi, Cellular, and USB are fundamental to the functionality of modern in-vehicle infotainment systems, directly influencing chip design and demand. The widespread expectation for seamless smartphone integration, real time navigation updates, and in car internet access means chips must support robust and high speed communication protocols. This drives innovation in chipsets that enable reliable and efficient wireless and wired connectivity for a diverse range of user services.