FPGA-based real-time fractal generation. Fully pipelined, dynamic resource allocation, up to 18000 MMUL/s. Float matrix math on J1B CPU.
How to get the PYNQ and Matrix Voice to work with each other.
Leveraging FPGA capabilities to design and to implement a Frequency Hopping Spread Spectrum (FHSS) System.
A smart glove that translates sign language letters into written letters with monitor.
GigE Vision camera bridge prototype using the Zybo Z7-10 board with a Digilent Pcam 5C camera connected to it.
Optical inspection using OV7670 and Nexys Video.
AES CryptoCores is a dedicated hardware module which helps for encryption and decryption of data using the desired key.
Easy to use Platform to learn VHDL. Running on a ZYBO over the web.
An assistant for visually impaired people. The user will be notified when he is getting too close to a dangerous object.
Using the Arm DesignStart FPGA Cortex-M3 to control a simple wheeled robot. Also known as getting started with DesignStart FPGA & Cortex-M3.
Xilinx Pynq framework allows us to combine Python and programmable logic. Let's look at how we can create a Pynq Image for custom boards.
Robotics are at the leading edge of Industry 4.0, AI and the Edge revolution. Let's look at how we can create an FPGA-controlled robot arm.
This project combines eLua with an open source RISC-V CPU core to a powerful, self-hosted embedded platform for FPGAs.
I do a lot of work with image processing and need to test cameras / imagers. I am going to create a scalable test platform.
Let's learn everything about SRAM memories writing a controller in Verilog.
Let's write an efficient SRAM controller in Verilog.
Not all imaging systems need to be expensive. Solutions can be created using cost optimized FPGA and CMOS image sensors directly.
A Radar that detects objects with the help of sound waves is going to be implemented. Radar screen will be created on a HDMI screen.
Find the location of a device, using multiple DWM1000-ESP8266 pairs, and an FPGA.
Sweep 'n' Play is a FPGA-based games consoles that offers you a new you way to play from your smartphone or tablet.
This project creates an FPGA-controlled hexapod robot which is capable of walking and navigating around its environment using sonar and IMU.
Part one of a project that will demonstrate the building of an FPGA/SoC-based hexapod robot.
In this project, FPGA-based ultrasonic radar screen have been developed, tested and applied. Design is made up of general and basic parts.
Leveraging HLS functions to create a image processing solution which implements edge detection (Sobel) in programmable logic.