Xilinx and Continental announced that Xilinx will power Continental’s new Advanced Radar Sensor (ARS) 540 with the Zynq UltraScale+ MPSoC platform, creating the automotive industry’s first production-ready 4D imaging radar, according to the company. The collaboration enables newly-produced vehicles equipped with the ARS540 to realize SAE J3016 Level 2 functionalities and, per the company, will pave the way toward Level 5 autonomous driving systems.
Continental’s ARS540 is a premium, long-range 4D imaging radar with high resolution and 300-meter range. Its wide, ± 60° field-of-view enables multi-hypothesis tracking for precise prediction while driving, which is ideal for managing complex driving scenarios, such as the detection of a traffic jam under a bridge. In addition, the ARS540 system’s high horizontal and vertical resolution enables detection of potentially hazardous objects on the road and responds appropriately. By supporting SAE Level 2 where the human driver is responsible for supervising vehicle control, and extending to fully autonomous Level 5, the ARS540 showcases the scalable usage of the sensor.
“The Xilinx Zynq UltraScale+ MPSoC platform delivers the high performance and advanced DSP capabilities we needed to realize the ARS540, combined with adaptability and a market-leading selection of network interfaces capable of handling the wide array of antenna data at extremely high aggregate transfer rates,” said Norbert Hammerschmidt, head of program management radar at Continental. “Continental recently won designs with leading European and US OEMs and is in ongoing discussions with additional OEMs worldwide regarding the ARS540. We are very proud to continue our long-standing partnership with Xilinx and to now provide the market with a technology that has the potential to save lives.”
The Xilinx Automotive (XA) Zynq UltraScale+ MPSoC is an adaptable platform that allows Continental’s 4D imaging radar to be agnostic to multiple sensor-platform configurations and adapt to OEM specification. Parallel processing within the device’s programmable logic delivers optimal performance and enables the fully independent, yet simultaneous processing pipelines that are critical to the ARS540’s 4D sensing. The many digital signal processing (DSP) slices enable hardware acceleration of real-time radar sensor inputs.
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