Design IP for Automotive SoCs: Trends and Solutions
The number and complexity of automotive SoCs and Control Systems is growing dramatically to fill the demand for new features in next-generation vehicles. Let's look at the specifics. In new cars you will have an advanced graphical user interface, voice recognition, and intuitive touchscreen capabilities. In addition to driver interactions, electrical control systems assist in both driving and stopping the vehicle. This will drive significant growth of the In-Vehicle Network (IVN) semiconductor market. In 2019, the total market in automotive semiconductors will reach 38 billion US dollars. By 2021, the cumulated annual growth rate (CAGR) for Level 4 Semi-autonomous vehicles will be 19%. Longer range projections are needed for Level-5 autonomous vehicles which have not arrived in the marketplace as yet. By 2030, the CAGR forecast for Level-5 vehicles is 41%. All of this is good news for the electronics industry. Which electronic companies are the top players? NXP, Infineon, Renesas, STMicroelectronics, and Texas Instruments had 1/2 of the market for automotive semiconductors in 2015 and are still market leaders.
To read the full article, click here
Related Blogs
- Alif Is Creating SoC Solutions for Machine Learning with Cadence and Arm
- Driving Connectivity and Communication Exploring the Synergy of CAN XL and Ethernet IP in Automotive Applications
- ETAS and Rambus Plan Joint Development of Automotive Cybersecurity Solutions
- Unveiling Ultra-Compact MACsec IP Core with optimized Flexible Crypto Block for 5X Size Reduction and Unmatched Efficiency from Comcores
Latest Blogs
- The Growing Importance of PVT Monitoring for Silicon Lifecycle Management
- Unlock early software development for custom RISC-V designs with faster simulation
- HBM4 Boosts Memory Performance for AI Training
- Using AI to Accelerate Chip Design: Dynamic, Adaptive Flows
- Locking When Emulating Xtensa LX Multi-Core on a Xilinx FPGA