Global automakers are eager to offer increasingly advanced Advanced Driver Assistance Systems (ADAS) to a variety of different types of car buyers, not just high-end luxury cars that are already popular with ADAS. Consumers have become accustomed to navigation systems, in-vehicle entertainment and electronic device connectivity, but lane departure warning systems, traffic sign recognition, doze detection systems and other intelligent systems have emerged in high-end cars or are still under development. At the same time, the new regulations for rear-view cameras, such as the European NCAP Automatic Emergency Brake System Program in 2014, require an advanced system with high computing and network strength without increasing the cost per unit of vehicle bill of materials (BOM). It also puts more pressure on the automotive industry.
This article refers to the address: http://
Ideally, automakers are looking to launch and deploy systems with different feature sets for a variety of vehicles through a common intelligent platform. For system architects of OEM automakers and Tier 1 automotive electronics suppliers who develop these systems, this requires integration to reduce costs, while also trying to meet system requirements, supporting intelligent networks and real-time image-to-visual Features.
At the heart of Xilinx's ability to help automakers provide ADAS functional solutions is the Zynq-7000 All Programmable SoC, which delivers the real-time performance capabilities required while meeting the stringent temperature and quality requirements of the automotive industry. By tightly integrating the ARM dual-core Cortex-A9 MPCore processor system with Xilinx's industry-leading FPGA (Field Programmable Gate Array) technology, the Zynq-7000 All Programmable SoC finally realizes an ADAS-optimized platform for automotive manufacturing Vendors and automotive electronics suppliers can add their own IP and the off-the-shelf IP provided by the Xilinx Automotive ecosystem to create a unique differentiated system. In addition, these platforms have a solid technical foundation and are customizable, thus shortening the product development cycle and accelerating the launch of new applications. At the same time, single-chip integration reduces BOM costs while enabling scalability across different product families.
Roberto Marzotto, design engineer at eVS, points out: "The automotive-grade Zynq-7000 All Programmable SoC combines FPGAs with high-performance embedded processors to make it the most effective solution for real-time computer vision applications, real-time computer vision applications. High-intensity low-level pixel computing and advanced complex control algorithms, and optimized partitioning between hardware and software."
Xilinx Zynq-7000 All Programmable SoC Series: A New Market Pattern Changer
Although consumers are very fond of ADAS applications, demand for it is strong and growing, but the speed of ADAS is not as high as it should be due to the huge cost of development and manufacturing. But the main reason is that most of the current ADAS solutions use multi-chip, almost completely from scratch, and the design results are one-off, can not be reused, can only support a single ADAS application.
To solve this problem, the industry must implement the right-level underlying components by increasing integration, optimizing performance, and creating a common ADAS optimization platform, ensuring support for different applications and customization. The highly integrated, fully programmable single-chip platform reduces unit costs, increases economies of scale, and shortens development cycles, thereby changing the landscape of ADAS development and ultimately ensuring the popularity of ADAS.
Xilinx's Zynq-7000 All Programmable SoC Series is the industry's first SoC family to integrate the ARM dual-core Cortex-A9 MPCore processing system and closely integrated programmable logic on a single chip. This powerful combination dramatically improves performance over solutions that require multiple chips. Achieving the same level of performance for multi-chip solutions increases cost, complexity, and power consumption. The comprehensive programmability of the Zynq-7000 enables automakers and automotive electronics suppliers to not only accelerate time-to-market, focus on product innovation, but also reprogram products based on changing standards and specifications.
The Zynq-7000 All Programmable SoC will undergo more stringent testing than the AEC-Q100 certification requirements and will be launched under the Xilinx Automotive (XA) product line to ensure it meets the most demanding environmental requirements in automotive applications, including temperature, Quality and reliability requirements.
Develop unique, differentiated driver assistance applications faster
Xylon, a video-certified member of the Xilinx Alliance Program, recognizes the outstanding features of the Zynq-7000 All Programmable SoC and is at the heart of the LogiADAK Zynq-7000 SoC Driver Assistance Kit. This real-time ADAS optimization development platform enables automotive manufacturers and automotive electronics suppliers to focus on product innovation and feature development by combining their own software/hardware IP with high-performance reprogrammable SoCs without having to The hardware configuration or software system is distracting to create a unique differentiated driver assistance application.
The LogiADAK Zynq-7000 All Programmable SoC Automotive Driver Assistance Kit is the first in its class to integrate a fully programmable software/hardware solution in a single device, providing a high-speed hardware/software interface while running on an embedded ARM processing system. Software to implement O/S and application processing.
Accelerate driver assistance application development
At Convergence 2012, October 16-17, 2012, Xilinx demonstrated how the system supported by the Driver Assistance Target Design Platform (TDP) accelerates ADAS development.
• Rear-view lane departure warning and blind spot detection: The Zynq-7000 All Programmable SoC driver-assisted target design platform integrates the Xylon IP core and Zynq-7000 devices and demonstrates how the multi-camera system supports two popular ADAS applications.
• Cost-effective surround vision and rearview camera systems: Xilinx demonstrates how to support surround vision, 3D surround vision, rearview camera, dynamic calibration, pedestrian detection, and more with the Zynq-7000 All Programmable SoC multi-camera system Advanced driver assistance applications such as rear view lane departure warning and blind spot detection.
Solar power is the ultimate renewable energy source whether you're an eco-minded consumer or practical individualist. The sun's light is sustainable energy that provides a resource that is renewable and has a very low carbon footprint. Solarhome is a premier provider of reliable, durable, proven photovoltaic systems from leading manufacturers, allowing you to harness this free energy alternative. Our grid-tie and battery backup options mean those cloudy days and long nights won't leave you without electricity.
250 Watt Solar Panel,Solar Panel,200 Watt Solar Panel,Solar Module
Yangzhou Beyond Solar Energy Co.,Ltd. , https://www.ckbsolar.com