What is Risc-V board ?

What is RISC-V Foundation?

RISC-V is a free and open ISA enabling a new era of processor innovation through open standard collaboration.

FII-PRX100 Risc-V FPGA Board is a ready-to-use development platform designed around the Field Programmable Gate Array (FPGA) from Xilinx. It was designed to cover all aspects of FPGA Development and Experiment, RISC-V SOC . The main application areas aim at smart home, Wearable, sensor Fusion, IOT, and industrial control etc.

FII-PRA040 RiscV Educational Platform is a ready-to-use development platform designed around the Field Programmable Gate Array (FPGA) from Intel Altera. RISC-V (pronounced “risk-five”) is an open-source hardware instruction set architecture (ISA) based on established reduced instruction set computer (RISC) principles.

The RISC- V Foundation is a non-profit entity serving members and the industry and was originally developed in the Computer Science Division of the EECS Department at the University of California, Berkeley.

Recently RISC-V and GigaDevice announced the GD32V Series, which is said to be the world’s first 32-bit general-purpose microcontroller based on the RISC-V core.

Features and Benefits

1. 1. gpio (16 ) 2×8 standard 2.54mm connectors (pin)
  2. led outport (8 个) 0603 smd
  3. switch (8 in one group) smd
  4. 7 Buttons (up , down, left, right, ok, menu, return)
  5. i2c 24c02 smd soic
  6. spi flash MX25L6433F 8-SOP (8M bytes)
  7. usb2uart ft2232C/H (2 uart ) Or cp2102 (1 uart)
  8. jtag 2×5 standard 2.54mm connectors(pin)
  9. eth 1G CAT5 Ethernet (rtl8111e)
  10. Digital tube 7seg (4) oasistek TOF-5421BMRL-N
  11. Hdmi out adv7511， hdmi_adv7511.SchDoc
  12. Test Port： 1×6 Standard 2.54mm connector （pin）

Today we released Longan Nano development board powered by GD32VF103CBT6 MCU today and it only costs $4.90.

Sipeed Longan Nano is a development board based on GD32VF103CBT6 MCU with RISC-V 32-bit core of GigaDevice.
It is convenient for students, engineers and geek enthusiasts to contact the new-generation RISC-V processor.
Longan Nano comes with a 0.96inch 160×80 IPS RGB LCD and an acrylic transparent case.

Besides Longan Nano, let’s through back to take a look at what happened about RISC -V at Seeed Studio in 2019. Please don’t forget our full selection of Sipeed products, which will help you a lot to getting started with AI projects in a cost-effective way.

February – $7.9 RISC-V Module – Sipeed MAIX-I module w/o WiFi ( 1st RISC-V 64 AI Module, K210 inside)

MAIX is Sipeed’s purpose-built module designed to run AI at the edge, we called it AIoT. It delivers high performance in a small physical and power footprint, enabling the deployment of high-accuracy AI at the edge, and the competitive price make it possible embed to any IoT devices. As you see, Sipeed MAIX is quite like Google edge TPU, but it act as master controller, not an accelerator like edge TPU, so it is more low cost and low power than AP+edge TPU solution.

RISC-V is the new hotness, and companies are churning out code and announcements. Eventually, RISC-V microcontrollers and SoCs will cost just a few bucks. This day might be here, with Seeed’s Sipeed MAix modules. it’s a RISC-V chip you can buy right now, the bare module costs eight US dollars, there are several modules, and it has “AI.”

March – Grove AI HAT for Edge Computing

Next, in March, we released Grove AI HAT.

The Grove AI HAT for Edge Computing is built around Sipeed MAix M1 AI MODULE with Kendryte K210 processor inside. It’s a low cost but powerful raspberry pi AI hat which assists raspberry pi run the AI at the edge, it also can work independently for edge computing applications.

The MAix M1 is a powerful RISC-V 600MHz AI module that features dual-core 64-bit CPU, 230GMULps 16-bit KPU(Neural Network Processor), FPU(Float Point Unit) supports DP&SP, and APU(Audio Processor) supports 8 mics. In addition to the powerful Kendryte K210 processor, the Grove AI HAT for Edge Computing board provides a wealth of peripherals: I2C/UART/SPI/I2S/PWM/GPIO. The HAT also offers an LCD and a camera interface, which supports the Sipeed 2.4inch QVGA LCD and DVP camera, it will be helpful and convenience with your AI vision project.

It’s a low cost but powerful raspberry pi AI hat which assists raspberry pi run the AI at the edge, it also can work independently for edge computing applications. The MAix M1 is a powerful RISC-V 600MHz AI module that features dual-core 64-bit CPU, 230GMULps 16-bit KPU(Neural Network Processor), FPU(Float Point Unit) supports DP&SP, and APU(Audio Processor) supports 8 mics. In addition to the powerful Kendryte K210 processor, the Grove AI HAT for Edge Computing board provides a wealth of peripherals: I2C/UART/SPI/I2S/PWM/GPIO. The hat also offers an LCD and a camera interface, which supports the Sipeed 2.4inch QVGA LCD and DVP camera, it will be helpful and convenience with your AI vision project.

Based on MAIX Module, the Maixduino is a RISC-V 64 development board for AI + IoT applications. Different from other Sipeed MAIX dev. boards, Maixduino was designed in an Arduino Uno form factor, with ESP32 module on board together with MAIX AI module.

Maixduino will help you extend AI function in the following applications:

Smart Home applications like robot cleaners, smart speakers, electronic door locks, household monitoring etc.
Medical Industry applications like Auxiliary diagnosis and treatment, medical image recognition, emergency alarm etc.
Smart Industry applications like industrial machinery, intelligent sorting, monitoring of electrical equipment, etc.
Education applications like educational robots, intelligent interactive platforms, educational efficiency inspection, etc.
Agriculture applications like agricultural monitoring, pest and disease monitoring, automated control, etc.

Perf-V is a FPGA demo board designed for RISC-V opensource community by PerfXLab. It integrates various peripheral chips and offers many interfaces.

It uses Xilinx Artix-7 FPGA, Vivado software development,and is designed for the RISC-V open source community and FPGA learning enthusiasts design development board.
It Integrates a variety of peripheral chips to provide a rich set of peripheral interfaces, including PMOD, Arduino, JTAG, UART interfaces, and high-speed interfaces for expansion of HDMI, VGA, USB2.0/3.0, camera, Bluetooth, expansion boards, etc. Strong flexibility.
Based on Perf-V’s self-developed smart car, it can use mobile phone Bluetooth to control the movement of the car, and can realize automatic tracing and obstacle avoidance functions.

You can also choose another one with the chip XC7A100T-1FTG256C, which has more logic cells and CLBs.

What is the next board are you expecting? Please feel to let us know in the forum: New Product Ideas. We will carefully listen to and take action!

Altera Risc-V FPGA Board – FII-PRA040 risc-v SOPC AI Cyclone10

It was designed for use in all fields of FPGA development and experiments.

Communication

Digital Communication DSP（FPGA）

Network

100M/1G Interface，switch VLAN

USB：

USB2.0 Engine Development

CPU：

RISC-V CPU 32bit Ecosystem Dvelopment and Educational Experiments

Artificial Intelligence

Voice collection, speech recognition Image acquisition and image recognition, deep learning

Features

	10CL040	10CL080
Logic elements (LEs) (K)	40	80
Memory blocks(9K)	126	305
LMemory block(Kb)	1134	2745
18×18 multipliers	126	244
Phase-locked loop(PLL)	4	4
Global clock networks	20	20

System Features:

- Sram： IS61WV25616 (2 pieces ) 256K x 32bit

- Spi： serial flash (16M bytes)

- JTAG: two jtag programmable interfaces
- power Supply： 12V adapter source

System Connectivity

10/100/1000 Mbps Ethernet
Hdmi: Hdmi out (1920×1080@60Hz)
USB to Serial Interface：USB-UART bridge

Interaction and Sensory Devices

8 Switches
7 Buttons (up , down, left, right, ok, menu, return)
1 Reset button
8 LEDs
1 4-digit 7 segment display
1 I2c interface (24c02 eeprom)
High resolution graphic LCD interface
Image input interface

Expansion Connectors

- 4 gpio connectors (compatible with digilent Pmod)

Features and Benefits

gpio (16 ) 2×8 standard 2.54mm connectors (pin)
led outport (8 个) 0603 smd
switch (8 in one group) smd
7 Buttons (up , down, left, right, ok, menu, return)
i2c 24c02 smd soic
spi flash MX25L6433F 8-SOP (8M bytes)
usb2uart ft2232C/H (2 uart ) Or cp2102 (1 uart)
jtag 2×5 standard 2.54mm connectors(pin)
eth 1G CAT5 Ethernet (rtl8111e)
Digital tube 7seg (4) oasistek TOF-5421BMRL-N
Hdmi out adv7511， hdmi_adv7511.SchDoc
Test Port： 1×6 Standard 2.54mm connector （pin）

After nearly a decade of neglect, the last year has seen a big uptick in the adoption of the the RISC-V standard. The arrival of the first commercially-available open source system-on-chip (SoC) based on the architecture — the 32-bit Freedom Everywhere 310 — along with the first Arduino-compatible development board called the HiFive1, from the Bay Area startup SiFive, was seen as a real milestone by the open hardware community.

Which doesn’t mean that keeping other independent implementations of the standard around isn’t still important, which is where DarkRISCV comes in.

While the DarkRISCV implementation is not as full featured as some other RISC-V implementations, it does implement most of the RISC-V RV32I instruction set and works on real Spartan-6 hardware.

With the first GAP8 processor samples by Open-Silicon shipping, we’re almost in a place where we have multiple vendors producing open silicon built around the RISC-V core, and when that happens we’ll be in a very different place. At that point, we’re in a real open hardware environment because we no longer have vendor lock in, and it’s going to be interesting to see whether that makes a difference to the availability of boards based on RISC-V.

Until then, however, the availability of implementations of the RISC-V architecture, and the ability for people to get hands on with it—whether that’s using an FPGA or not—is important to the ecosystems continued health.

Full details of the DarkRISCV implementation, as well as some interesting notes with indications of not just what, and how, he implemented various parts of the standard, but also why Samsoniuk took certain paths are available in the project’s GitHub repo.

FPGA Development Board and Educational Platform ( xc7z030 ZYNQ EVB Board )

FII-PE7030 is a ready-to-use for educational platform which has been designed to cover FPGA development and experiment, ARM SOC development and experiment, network(copper or fiber) development ,digital communication and SDR(software define radio) with daughter board FII-BD9361 plug on.

Basic Experiment Functions：

FII-PE7030 xc7z030 zynq evb board is a ready-to-use for educational platform which has been designed to cover FPGA development and experiment, ARM SOC development and experiment, network(copper or fiber) development ,digital communication and SDR(software define radio) with daughter board FII-BD9361 plug on. It was designed for university students, teachers, and all other industrail professionals. FII-PE7030 is an incredibly flexible processing platform, capable of adapting to most of your project requires.

More surprising show up that recently Engineers has successful port RISC-V(RV32G) and RV64I to this platform, it becomes a real RISC-V SOC platform.

Application:

wireless Communication
DBC(digital base band communication) and DSP
SDR Software defined radio
LTE protocol analysis
4/5G base station

Network communication：
100M/1G ethernet communication both for PS and PL
10G SFP+ fibre communication with multiple protocol supported like LAN, SONET/SDH, CPRI etc.
Network switch and router
VLAN
Spanning Tree

USB：
1 480M high speed USB2.0 HUB
4 480M high speed USB2.0 connectors

CPU：
RISC-V CPU 32bit ecosystem development ,verification and validation
RISC-V CPU 64bit ecosystem development,verification and validation

Artificial Intelligence：
Audio or Voice Collection, Speech Recognition
Image Acquisition and Image Recognition, Deep Learning

IOT: ALL kinds of IOTs with RISC-V system