Tutorials

This tutorial explains how to use Assertions in Active-HDL.

このチュートリアルでは、Xilinx Vivado Design Suiteでハードウェアプロジェクトを作成し、Xilinx SDKでTySOM-1-7Z030ボード用のソフトウェアプロジェクトを作成する方法を学習します。最初にハードウェアから作成し、オンボードのスイッチを使用してオンボードLEDを点滅させるソフトウェアアプリケーションを作成します。このチュートリアルの最後では、JTAG programmerを使用してTySOM-1-7Z030ボードでプロジェクトをプログラミングする方法についても学習します。microSDカードを使用してFPGAをプログラムするには、「MicroSDカードを使用してTySOM-1-7Z030ボードをプログラミングする」チュートリアルに従います。

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An interrupt is a signal that temporarily halts the processor’s current activities and demands immediate attention. The processor saves its current state and executes an interrupt service routine to address the reason for the interrupt. Real-time designs require interrupts because many systems will have a number of inputs (e.g. keyboards, mouse, pushbuttons etc.) that will require processing. Inputs from these devices are generally asynchronous to the execution of running processes or tasks, so you cannot always predict when the event will occur. Using interrupts enables the processor to continue processing until an event occurs, at which time the processor can address the event. This interrupt-driven approach also speeds up the response time. This basic GPIO interrupt design is intended to enable GPIO interrupts to users on the TySOM-1-7Z030 board. The standard flow includes several stages to create a hardware platform for the Zynq-7000 based board.

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このドキュメントでは、Aldec AMIの設定と起動に関する重要な情報、およびAldec HES-DVM Proto CEとBoard Compilerの使用方法を説明しています。

HES-DVM Proto CEは、アルデックのエミュレーションおよびプロトタイピングプラットフォームHES-DVMのクラウドエディションになります。 クラウドエディションは、マルチFPGAプラットフォームでデザインプロトタイプを準備するために使用される高品質のパーティショニングツールに対する需要の高まりに対応しています。 HES-DVMのクラウドエディションはプロトタイピングフローに限定されており、4つのハイエンドXilinx FPGA（Virtex UltraScale、Vitex UltraScale+、またはVirtex-7）にマッピング可能で最大4つのパーティションをサポートしています。

One way of using TySOM board is using it in Xilinx SDx tool which provides mechanisms to convert C/C++ functions to HDL and accelerate them in the FPGA part. This functionality demonstrates the power of Zynq chips and Aldec boards that is still out of reach for standard processors. Additionally, FPGA chips consume less energy than processors, so the boards can be used in embedded applications with a battery power supply. This document provides a comprehensive instruction for adding the custom IP cores into the hardware platform and updating the SDx platform.

This document will demonstrate how to build a Vivado design using TySOM Vivado board definition provided by Aldec. In case of any additional questions visit Aldec website www.aldec.com or create a support case in the Aldec Customer Portal.This flow requires using TySOM Vivado board definition from Aldec GitHub so a TySOM user does not have to build a Vivado project from the scratch.

This document contains a comprehensive instruction about creating a Wi-Fi access point and configuring it in different wireless communication standards. All steps were checked with TySOM-2A-7Z030 boards. Other boards may require some modification in provided instruction.

One way of using TySOM board is using it in Xilinx SDx tool which provides mechanism to convert C/C++ functions to HDL and accelerate them in the FPGA part. This possibility demonstrates the power of Zynq chips and Aldec boards what is out of reach for standard processors. Additionally FPGA chips consume less energy than processors, so the boards can be used in embedded application with battery power supply. This document provides information how to use Aldec TySOM board in Xilinx SDx tool.

Internet usage has expanded to a new mode: device to device. This new mode is used in Internet of Things (IoT) applications and devices are called IoT gateways. The Aldec TySOM contains a Zynq-7000 SoC with ARM processor and a variety of interfaces to be utilized as an IoT gateway device. This document provides all necessary information about the Aldec IoT demo project with the TySOM-1-7Z030 board.

このチュートリアルでは、Xilinx Vivado Design Suiteでハードウェアプロジェクトを作成し、Xilinx SDKでTySOM-1-7Z030ボード用のソフトウェアプロジェクトを作成する方法を学習します。最初にハードウェアから作成し、スタンドアロンOSを使用してオンボードLEDを点滅させるソフトウェアアプリケーションを作成します。Zynqアーキテクチャでは、ベアメタルモードまたは組込みLinux OSプラットフォームを使用してデザインを実装できます。

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Zynq-7000 SoC does not include the mechanism to store a per-board unique network MAC address. Therefore, a duplicate MAC address can result in network conflicts when several boards are trying to use the same MAC. A U-boot application, which is a typical kernel bootloader for embedded Linux, can be used to assign and keep the unique MAC address using on-board QSPI flash memory.

The Petalinux provides all necessary tools to build a custom operating system for Embedded solutions for the board with Xilinx Zynq chips.

In this tutorial, you will learn how to run your hardware and software application on the TySOM-1-7Z030 board using a microSD card as the boot method. The microSD card is used when you want your application to be persistent despite any power cycling. In this situation, the board will boot from the microSD card.

Riviera-PROによるシミュレー ションの基本フローをGUIで実行する方法について、Verilog、VHDLデザイン両方の手順で解説します。

Riviera-PROでどのようにMATLAB®インターフェースを使用するのかを解説します。