Arbe Robotics Selected EV62 Processor from Synopsys for its Imaging Radar
15 August, 2018
Arbe Robotics designs SoC radar sensor for driver assistance systems (ADAS) and autonomous vehicles, capable to detect objects as far as 300 meters away
The next Radar SoC for vehicles will be based on a suite of solutions from Synopsys’ DesignWare IP. Last month the Israeli startup company Arbe Robotics announced it has raised $10 million in a round led by French VC 360 Capital Partners, The company said it will use the proceeds to enhance its imaging technology and to expand its operations in the US and China. With this round, the total funding into the firm stands at $23 million.
Lately the company revealed more data on its future radar device. Arbe Robotics’ imaging radar is designed for advanced driver assistance systems (ADAS) and autonomous vehicles. The imaging radar can sense the environment at a wide 100-degree field of view in high-resolution at all weather conditions, including fog, heavy rain, pitch darkness, and air pollution. It is able to create a detailed image of the road at a range of more than 300 meters (1,000 feet) and capture the size, location, and velocity data of objects surrounding the vehicle in accuracy of 10-30 cm.
Synopsys said that Arbe Robotics selected its DesignWare ARC EM Safety Island, EV6x Embedded Vision Processor with Safety Enhancement Package, Ethernet Quality-of-Service Controller IP, and STAR Memory and STAR Hierarchical System. “Radar chips for autonomous vehicles require both a high level of processing capabilities and integrated safety features, to detect and prevent system failures,” said Kobi Marenko CEO at Arbe Robotics.
Arbe Robotics selected the ARC EM6SI Safety Island because of its integrated self-checking safety monitor, error correcting code (ECC), and programmable watchdog timer. The EV62 Embedded Vision Processor with SEP provides a dual core 512-bit wide SIMD vector DSP, and required functional safety capabilities without sacrificing performance. Both processors feature lockstep capabilities for detection of system failures and runtime faults.