Stay informed with our
free newsletters

Light Leverages Cadence Tensilica Vision Q7 DSP for Enhanced Depth Perception in Next-Generation ADAS Systems

Tensilica Vision Q7 DSP enables Lights Clarity Depth Perception Platform to power next-generation ADAS systems with 10X greater performance than quad-core CPU.

Light and Cadence Design Systems, Inc. today announced that Light has deployed the Cadence Tensilica Vision Q7 DSP for use in Light’s Clarity Depth Perception Platform, which provides long-range, high-resolution depth perception using industry-standard cameras benefiting advanced driver-assistance systems (ADAS). The Tensilica Vision Q7 DSP provides Light with real-time data processing, ensuring low-latency, high-bandwidth transmission of high-resolution output.

Light’s solution enables machines to see better than humans by using two or more cameras, novel calibration and unique signal processing to provide unprecedented depth quality across the camera’s field of view. Integrating the Tensilica Vision Q7 DSP into Light’s solution enables up to 10X faster processing of measured depth compared to a quad-core CPU, improving real-time accuracy and reliability. The highly configurable and extensible Vision Q7 DSP is accompanied by an array of optimized computer vision libraries, optional accelerators and toolchains that efficiently handle such workloads. Light implemented its proprietary multi-view depth perception algorithms via custom instructions using the Tensilica Instruction Extension (TIE) language, resulting in an additional 4X performance improvement with 3X area/power savings.

For ADAS, meeting functional safety requirements with full ISO 26262 compliance with ASIL-D is crucial. The Tensilica Vision Q7 DSP’s availability as certified IP along with certified toolchains, libraries and a streamlined failure modes, effects and diagnostic analysis (FMEDA) flow were key factors in Light’s selection of the Vision Q7 DSP.

MENA Bus and Coach Market, Forecast & Opportunities, 2026

MENA Bus and Coach Market, Forecast & Opportunities, 2026

By Length (6-8m, 8-10m, 10-12m, Above 12m), By Application By Type of Buses (Motor Coach, Mini Coach, Mid Coach, Double Decker Bus, Shuttle Bus, Others), By Application By Type of Usage (Public Transport, Tourist Bus, School Bus, Office Bus, Office), By Seating Capacity (Up to 30, 31-40, 41-50, Above 50), By Fuel Type (Diesel, Electric & Hybrid, Alternative Fuels, Fuel Cell, Petrol/Gasoline), By Body Type (Customizable, Fully Built), and By Country (Bahrain, Iraq, Jordan, Kuwait, Lebanon, Morocco, Oman, Qatar, Palestine, Sudan, Tunisia, Saudi Arabia, UAE, Algeria, Egypt, Iran), Competition

Download free sample pages

“Light’s solution enables machines to see better than humans, and a key part of that is processing that information quickly enough to allow the machine to react to the world around it,” said Dave Grannan, CEO, Light. “Integrating the Cadence Tensilica Vision Q7 DSP provides us with enhanced signal processing capabilities at low power with low latency, which complement the technology in the platform, helping us to provide accurate and reliable measured depth for future ADAS systems. Additionally, integrating ISO 26262-certified IP such as the Tensilica Vision Q7 DSP is critical when designing automotive-grade solutions.”

“The Tensilica Vision Q7 DSP continues to be the de-facto standard for vision processors in the majority of today’s markets, providing both high performance and a low-power envelope,” said David Glasco, vice president of research and development for Tensilica IP at Cadence. “Light’s innovative approach to depth perception is quite complex and achieves real-time processing with high accuracy by integrating the Vision Q7 DSP into Light’s Clarity Depth Perception Platform. This showcases the Vision Q7 DSP’s versatility and strengthens our footprint in the intelligent automotive space.”

The Tensilica Vision Q7 DSP supports Cadence’s Intelligent System Design strategy by enabling SoC design excellence. 

Source: Cadence Design Systems Inc
Date: Jan 13, 2022


Share this news: