Arteris IP FlexNoC Interconnect Licensed by Arbe Robotics for Automotive Imaging Radar Chipset

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“We are honored that the technical experts at Arbe Robotics have chosen Arteris FlexNoC IP as the on-chip interconnect for their 4D synthetic aperture radar controller chips,” said K. Charles Janac, President and CEO of Arteris IP.

Arteris IP, the innovative supplier of silicon-proven commercial system-on-chip (SoC) interconnect intellectual property (IP), today announced that Arbe Robotics has licensed Arteris FlexNoC interconnect IP for use in their 4D High-resolution Automotive Radar chipset.

Arbe Robotics pioneered the first ever automotive system to provide real-time 4D mapping in high resolution, thus making any vehicle fully-autonomous. Their groundbreaking team of technologists, radar specialists and scientists has designed a system that offers an extremely high resolution at long, mid and short ranges in both azimuth and elevation, and outputs an image of the environment at up to 50 times per second.

“Our proprietary chipset is optimized for providing a 4D Real-Time Picture of the environment, detecting obstacles at a range of 300 meters with a wide field of view at ultra-high resolution, resulting in billions of operations per second that identify and classify objects. Arteris FlexNoC met our exceptionally stringent requirements for on-chip bandwidth and latency to accomplish this undertaking,” said Kobi Marenko, CEO of Arbe Robotics.

Executing the complex calculations required for High-resolution Imaging Radar necessitates the development of a system-on-chip with multiple heterogeneous processing elements tuned to these autonomous driving algorithms. However, the technical challenge is not only to optimize processing on each hardware accelerator, but also to ensure these accelerators can receive and send the data within the near real-time latency bounds and at the huge bandwidths required to ensure calculations complete within a functionally safe time range. Arbe Robotics licensed Arteris FlexNoC IP as their on-chip interconnect to ensure that these bandwidth and latency quality-of-service metrics are met.

“We are honored that the technical experts at Arbe Robotics have chosen Arteris FlexNoC IP as the on-chip interconnect for their 4D synthetic aperture radar controller chips,” said K. Charles Janac, President and CEO of Arteris IP. “Arbe Robotics’ choice of Arteris interconnect IP is proof of our technology’s value as the communications backbone of autonomous driving systems.”

About Arteris IP

Arteris IP provides system-on-chip (SoC) interconnect IP to accelerate SoC semiconductor assembly for a wide range of applications from automobiles to mobile phones, IoT, cameras, SSD controllers, and servers for customers such as Samsung, Huawei / HiSilicon, Mobileye (Intel), Altera (Intel), and Texas Instruments.

Arteris IP products include the Ncore cache coherent and FlexNoC non-coherent interconnect IP, as well as optional Resilience Package (functional safety) and PIANO automated timing closure capabilities. Customer results obtained by using the Arteris IP product line include lower power, higher performance, more efficient design reuse and faster SoC development, leading to lower development and production costs. For more information, visit http://www.arteris.com or find us on LinkedIn at https://www.linkedin.com/company/arteris.

About Arbe Robotics

Arbe Robotics, founded in 2015, has the vision to make autonomous driving safe, affordable and available – today. The company’s 4D Imaging Radar is the first to provide ADAS, level 4, and 5 fully autonomous cars with high-resolution radar that enables them to “see” the environment in any weather and any lighting condition; from long, mid and short ranges in any azimuth, elevation, range, and Doppler.

To learn more, visit: http://www.arberobotics.com and follow up on Facebook or LinkedIn

Arteris, Arteris IP, FlexNoC. Ncore, PIANO, and the Arteris IP logo are trademarks of Arteris, Inc. All other product or service names are the property of their respective owners.

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