Do you want to keep up with AI innovation and unify AI application development from edge to cloud? Use Xilinx’s development environment, Vitis AI, for AI inference on Xilinx hardware platforms including both edge devices and Alveo cards. Vitis AI consists of optimized IP, tools, libraries, models, and example designs. This webinar will go in depth with each of the key components of Vitis AI and show you how it delivers adaptable and efficient AI inference on Xilinx hardware platforms.
In this webinar, you will learn how Alveo PCIe Accelerator cards from Xilinx can empower the data collection, aggregation, processing, modelling and A.I. guided decision-making in a secured, on-premises setup. Through offloading, accelerating, and directly collecting factory data from the network, you will learn why investing in Alveo brings you a refined approach yielding system-wide benefits across the factory floor and the cloud.
Join us for a live demo showing how cost-optimized Spartan®-7 devices, using pre-built Image Signal Processor (ISP) IP, enable sensor fusion for any application environment, from the most common to the most complex. Enabled by the SP701 evaluation kit and free design tools, Xilinx makes it easier than ever to integrate sensors at the edge with ISP accelerated in hardware. Here's the best part, no RTL hardware experience is required, as anyone can do this with Xilinx's free design tools.
Xilinx and Swarm64 invite you to join us for an informative webinar discussing new database scaling options. “Scale inside” with FPGA-based parallel processing for your database, then scale out. This webinar will get you thinking “outside the CPU” and show you the easiest way to increase analytic database performance by 50x.
Join us to learn about Vitis and dive into its comprehensive core development kit, rich set of hardware-accelerated, open-source libraries, and domain-specific development environments that will enable your development in familiar, higher-level frameworks. Go beyond and innovate ahead of the curve with Vitis!
In this Webinar, learn how easy it is to: Produce vision solutions with the Zynq portfolio of SoCs that are competitive with popular ASSPs, Create highly differentiated and unique vision applications not supported by ASSPs, Leverage Xilinx and ecosystem customizable IP to improve time-to-market while efficiently maintaining flexibility for a variety of use cases, Utilize Xilinx tools and OpenCV and OpenVx libraries and toolkits, and Get started on building Artificial Intelligence into your camera. We will look at video performance metrics, additional capabilities offered, and the power and cost tradeoffs when compared to the alternatives described above.
Fueled by a trifecta of rapid advances in network training, big data, and ML research, so-called "Deep Learning" is rapidly becoming mainstream, especially in embedded vision applications where the end game is teaching machines to "see". However, Convolutional Neural Network (CNN) inference is computationally expensive, requiring billions of operations per inference. Moreover, many critical applications require extremely low latency and must support high frame rates. Given these constraints, and given a need for sub-10W power consumption, high-reliability, security, and product longevity, how do we design an integrated camera which can provide the required levels of ML inference performance?
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Subtle changes in performance or behavior of critical assets in factories, hospitals, and other environments can be identified by machines much earlier than a human. Xilinx powered systems can incorporate intelligence to maximize productivity and lower downtime by applying predictive maintenance. Xilinx's Python and Neural Network-based Edge AI Solutions simplify the implementation of hardware accelerated predictive maintenance to continuously monitor assets, analyze data, and intelligently plan service for these systems. In this webinar, you will see how this is done on an Industrial Motor and go beyond!
This webinar will cover everything you need to know to get moving: how to identify software that's suitable for acceleration, allocating and moving memory, and taking advantage of the Xilinx Alveo architecture via C, C++, and OpenCL programming. We will also cover Xilinx-accelerated libraries including OpenCV.
Acutronic Robotics recently launched the Hardware Robot Operating System (H-ROS), a standardized software and hardware embedded platform to create modular robot hardware. Emphasis of this webinar will be on the H-ROS SoM, a disruptive hardware device that brings modularity to robotics. The webinar will finish by introducing the first modular robot powered by the Zynq®-7000 SoC family and Xilinx's Time Sensitive Networking (TSN) Subsystem IP Core together with a group of technologies that enable robot modularity across manufacturers.
This webinar will introduce the foundational concepts motivating the use of Xilinx Zynq SoCs in Electric Drives applications. Showing examples of how PYNQ can enable software engineers and data scientists to easily gain valuable on-chip, real-time insights from data generated by the motor, with or without cloud connectivity. The key differentiation with PYNQ lies in the configurable hardware pre-processing of sensor data leading to the most efficient use of the application software.
This free webinar will provide everything you need to know to get started with Sony’s new SLVS-EC interface standard for 3rd generation Pregius imagers and beyond. SLVS-EC is a standard that expands Xilinx’s Any-to-Any connectivity portfolio and amplifies innovation with Xilinx capabilities in machine learning, image processing, and sensor fusion.
In this webinar, you will get a detailed walk-through of CNN acceleration on the recently released Xilinx ML suite, which is conveniently deployed on the Amazon EC2 cloud. Register now to learn how to use this cloud-based software stack to evaluate, develop, and deploy machine learning capabilities into your accelerated applications on the AWS cloud.
This webinar will provide an overview of the Xilinx and AWS IoT respective technology stacks and how the companies have worked together to provide integrated reference designs that customers can use to jumpstart their Industrial IoT (IIoT) solution. The presenters will reference a functioning Xilinx with AWS IoT enabled distributed control application example that leverages the scale of AWS Cloud application provisioning, system dashboards, secure cloud communications, and FPGA based machine learning on top of Xilinx Zynq UltraScale+ and Zynq 7000 system on chip (SoC) hardware platforms.
This webinar describes how to use the ARM Cortex® A53 application processor cluster in Zynq® Ultrascale+™ to implement real-time asymmetric multiprocessing (RTAMP). This approach results in improving worst case execution time (WCET) and reducing latency by isolating and partitioning the cluster such that software developed for single cores can be reused. Demand for this solution has skyrocketed in Industrial, Automotive and Avionics applications because software architects strongly prefer to use an application processing cluster like a set of single cores when executing real time code.
From Operator Panels in Factory Automation to Patient Monitors in Healthcare, IoT principles are changing the landscape of Human Machine Interfaces (HMIs) of all types. These principles are naturally extending cybersecurity and functional safety to these hubs of visualized information, while also mixing cloud and local data. Join this free webinar to learn how Xilinx Zynq SoCs are the industry's top choice for embedded industrial platforms and next steps on how to enhance the level of reliability, interactivity, and sophistication for both safety critical and non-safety critical HMIs.
In this free webinar, learn about SoC-e's Managed Ethernet Switch (MES) IP complete Ethernet switching solution for Xilinx Zynq-7000 and Zynq UltraScale+ MPSoC as well as for Xilinx FPGAs. Its seamless integration in the SoC reduces product dimensions, power dissipation, and system cost. Join us to learn how easy it is to integrate this IP using Xilinx Vivado software's graphical interface, use the switch configuration software, and validate and test designs in the Industrial Grade development kits from SoC-e: SMARTzynq and SMARTmpsoc.
Industry experts, Xilinx, Infineon Technologies, Avnet, and Mocana have partnered to introduce an IEC 62443-compliant hardware and software off-the-shelf solution that is consistent with guidelines from the Industrial Internet Consortium Security Framework and the Trusted Computing Group. This webinar will provide an overview of IoT security standards, embedded platform design considerations, and an introduction to an integrated secure platform solution that provides flexible best-in-class technology.
This Webinar will provide insight into the role of programmable SoCs in Smart Factory Automation and Connectivity. A brief summary of IIoT applications will be presented followed by a technical overview of OPC UA, the data sharing standard of choice for Industry 4.0, presented by Matrikon, the leader in information visualization technology.
This webinar will provide insight into the role of programmable SoCs in the breath of applications across IIoT Edge and the connectivity between them. A brief summary of IIoT trends will be presented, followed by an overview of the Data Distribution Service (DDS) IIoT databus standard presented by RTI, the IIoT Connectivity Company, and how DDS and OPC-UA target different connectivity challenges in IIoT systems.
This webinar provides an introductory overview of IIoT with a focus on smart factory applications utilizing programmable technology in the areas of edge computing for real-time command and control, sensor fusion and analytics and secure connectivity. Topics will include a brief history highlighting the evolution of the factory from a closed, proprietary environment to a more open data-accessible connected environment and the differentiating advantages provided by utilizing Xilinx programmable logic.
This webinar will articulate how Xilinx TSN LogiCORE IP is the lowest risk and most cost-effective approach to create future-proof and scalable TSN endpoints. Xilinx-based TSN endpoints can uniquely support both traditional Industrial Ethernet and non-communications-related functions, such as motion control, functional safety, cybersecurity, and machine learning in a single, power efficient SoC. This webinar will also discuss customization options, validation/interoperability data, and application examples of the industry’s most complete and available TSN solution.
This webinar provides medical device architects and designers an introduction to functional safety and cybersecurity methods used in industrial automation and other high reliability markets and how Xilinx technology could be applied in the risk management-based aspects of the medical device design flow to create more robust designs while accelerating time to market.
Witness how easy it is to build a custom, powerful processing system in Xilinx Devices. Learn about Xilinx's MicroBlaze processor preset's that make jump starting new designs easier than ever! No RTL experience is required with Vivado's IP Integrator tool and 3rd-party IP libraries. You will see how to rapidly prototype virtually any embedded design with external peripherals in only minutes! Additionally, learn all of the benefits of building Xilinx embedded processors including real-time deterministic processing and functional safety!
This Webinar will highlight how Xilinx and its partners’ rich suite of IP, development tools, and reference designs provide an ecosystem enabling users to quickly and easily address opportunities in the Machine Vision market.
In this Webinar, Xilinx presents a range of solutions for vision guided robotics and drone applications. Xilinx Premier Alliance Program Member, Xylon will introduce several solutions that are available today that can kick start your next robotic or drone project.
In this Webinar, Xilinx presents critical challenges facing developers of advanced surveillance systems with emphasis on when to localize real time image processing at the edge or in the cloud. Xilinx and Xilinx Alliance Program Member, Mathworks, will present how its IP, development tools, and reference designs provide an ecosystem enabling users to quickly and easily address new designs in the surveillance market.
In this Webinar, Xilinx will present critical challenges facing developers of advanced medical imaging systems. Xilinx and Xilinx Alliance Program Member, Topic Embedded, will present how its’ development environment, DYPLO, along with its’ SoM and medical-specific carrier board and IP provide an ecosystem enabling users to quickly and easily address new designs in the medical imaging market.
In this webinar, Xilinx and partner Tractica will present the emerging field of Augmented Reality (AR), presenting a number of use cases outside of the more commonly known consumer examples. AR is a complex system, comprising real-time object recognition and vision processing. Emerging technologies like machine learning will be discussed. Xilinx will present how the SDSoC development environment, along with source libraries, enable software developers to rapidly prototype and deploy complete AR systems.
In this Webinar, Xilinx will present the xfOpenCV libraries and example designs available today, as well as walk through a use case for color-based object detection and tracking that leverages these xfOpenCV libraries and custom CV functions accelerated from SDSoC™ Development Environment.
This webinar will provide insight into Vivado High Speed Timing Closure Techniques. A summary of high speed design challenges will be presented, followed by design analysis techniques, design guidelines, in addition to complexity and congestion analysis.
In this webinar, we’ll introduce you to the easy-to-use $89 Avnet MiniZed™ development kit equipped with the Xilinx Zynq®-7000S SoC to help tackle these issues. You’ll learn what's in the MiniZed kit and its multitude of built-in connectivity features such as Wi-Fi, Bluetooth and BLE. Cool things you can do with the Zynq-7000S, such as accelerating BSP algorithms in hardware and interfacing MiniZed with your mobile device. The tools and resources available to speed development and future proof your design.
In this webinar, we’ll introduce you to Arty, an easy-to-use $99 FPGA-based embedded development kit from Xilinx. You’ll learn what's in the Arty kit, how Arty compares with popular embedded development kits, what tools are available to help speed your development and what resources are avilable to help you succeed.
What do you get when you combine the world's most popular microprocessor with the biggest ecosystem and the world's most powerful programmable logic devices? Flexibility, performance, scalability and real-time determinism that is unparalleled. This combination allows increased protocol support, I/O expansion, hardware acceleration and future-proofed designs.
One of the main challenges in power electronics research is the rapid development of new topologies, e.g. modular multilevel converter (MMC). Join us to learn how to navigate the computational complexities of these new advancements.
In this webinar, Xilinx will present the Zynq UltraScale+ MPSoC and show how it can be used in KVM applications. Focusing on the Zynq UltraScale+ MPSoC family, the webinar will highlight how Xilinx and its partners’ IP cores for video connectivity and video processing along with the device’s integrated H.265/HEVC codec can quickly and easily address opportunities in the KVM market.
In this webinar, Xilinx will present the Zynq® UltraScale+™ MPSoC EV family and show how it can be used in Media Streaming & Recording applications. The Zynq UltraScale+ MPSoC EV family includes a VCU -- Video Codec Unit -- a hardened multi-stream AVC/HEVC simultaneous encode and decode block that supports UHD-4Kp60. The MPSoC EV family, combined with Xilinx, customer, or partner IP in fabric, provides a solution that can quickly and easily address opportunities in the streaming and recording market.
In this webinar, Xilinx will present Zynq® UltraScale+™ MPSoC EV devices and show how they can be used for multi-stream transcoding. Zynq UltraScale+ MPSoC EV devices include a VCU (Video Codec Unit), a hardened multi-stream AVC/HEVC simultaneous encode and decode block that supports UHD-4Kp60. These devices, combined with Xilinx, customer, or partner IP in fabric, provide a solution that can quickly and easily address opportunities in the transcoding market.
In this webinar Xilinx and its Alliance Program Members, DDC-I and Logicircuit, will present the benefits and features of Xilinx’s Zynq UltraScale+ MPSoCs as a reconfigurable common compute platform with flexible and reusable software and hardware modules to satisfy airborne requirements. The concepts and solutions presented can be extended to satisfy a broad range of safety critical, mission critical, and high-reliability systems.