Real-World Demonstrations of the DE10-Nano Kit
The Terasic DE10-Nano kit is the ideal development platform for new users and experienced FPGA designers to experience what an FPGA can do. This page provides links to a wealth of resources, from step-by-step tutorials to reference designs, code samples, and source code for complete applications featured in the tabs below.
The Terasic DE10-Nano Development Kit, featuring a Cyclone® V SoC FPGA, provides a reconfigurable hardware design platform for makers, educators, and IoT system developers. The kit contains a board that features two general purpose input/output (GPIO) expansion headers and an Arduino* (Uno R3) header so you can connect to a wide range of daughter cards. All the tools, software, and examples you need to begin your design is either in the box or free for download. Visit the Intel Developer Zone to get started.
Demonstrating the True System Capabilities of the DE10-Nano Kit
- IoT Security
- Hardware Acceleration
How do we ensure systems designed today are ready for tomorrow's threats?
Challenges of a Connected World
Devices are becoming more connected
Connected devices are a vector for attack
New attacks must be mitigated in software
Software patches create unknown CPU burden
FPGAs adapt to changing threats
Security protocols can be implemented in FPGA
Security protocols can be changed at any time
FPGAs can be securely upgraded in the field
FPGA security accelerators don’t burden the CPU
Adding Security to the Internet of Things
FPGAs boost system performance by accelerating time-critical functions and off-loading CPUs.
The Mandelbrot Set
This design uses an Intel® SoC FPGA to demonstrate a complex mathematical function that creates a fractal image, known as the "Mandelbrot Set". It is a great example of how an FPGA can accelerate functions and off-load overburdened CPUs.
See how FPGAs boost system performance
(software vs. hardware)
- Read the article and learn how it works