Accelerate Automotive Dev Time: Fill Hardware-in-the-Loop Gaps
Marc Serughetti, Director of Business Development, System-level Solutions, Synopsys
EETimes (7/7/2015 00:03 AM EDT)
Today automotive control systems are becoming more complex requiring more software content executing on multicore MCUs including advanced processor cores, timers and connectivity.
Automotive control systems developers focusing on powertrain, HEV/EV and chassis/safety applications have an increasing need to accelerate and improve their development process as to ensure they can deliver high quality and reliable software on time. In order to identify opportunity for improvement in the development process, we need to look at the current approaches used in the development of such systems and identify potential gaps and solutions. In this post, we will focus on model-based design through the use of Hardware-in-the-Loop systems.
To read the full article, click here
Related Semiconductor IP
- Flexible Pixel Processor Video IP
- Bluetooth Low Energy 6.0 Digital IP
- MIPI SWI3S Manager Core IP
- Ultra-low power high dynamic range image sensor
- Neural Video Processor IP
Related White Papers
- A First time right design methodology for successful development of automotive SoC products
- How a Standardized Approach Can Accelerate Development of Safety and Security in Automotive Imaging Systems
- FPGAs accelerate time to market for industrial designs
- Safety intended Re-configurable Automotive microcontroller with reduced boot-up time
Latest White Papers
- Enabling Space-Grade AI/ML with RISC-V: A Fully European Stack for Autonomous Missions
- CANDoSA: A Hardware Performance Counter-Based Intrusion Detection System for DoS Attacks on Automotive CAN bus
- How Next-Gen Chips Are Unlocking RISC-V’s Customization Advantage
- Efficient Hardware-Assisted Heap Memory Safety for Embedded RISC-V Systems
- Automatically Retargeting Hardware and Code Generation for RISC-V Custom Instructions