Arduino Unveils its First FPGA Board with MKR Vidor 4000, Updates UNO WiFi Board with ATmega4809 MCU

Arduino has been busy with new boards announcements in the last week, as after introducing MKR WiFi 1010 and MKR NB 1500 IoT boards with respectively WiFi + Bluetooth, and NB-IoT + eMTC connectivity, the company has now unveiled two new boards.

MKR Vidor 4000 is the very first official Arduino board with an FPGA, while UNO WiFi Rev2 is an upgrade of UNO WiFi board featuring the new Microchip ATmega4809 MCU and an U-blox wireless module instead of an ESP8266 chip.

MKR Vidor 4000

Arduino-Vidor-4000
Click to Enlarge

Preliminary specifications:

  • FPGA part
    • FPGA – Intel Cyclone FPGA with 16K Logic Elements, 504Kbit of embedded RAM and 56 18×18 bit HW multipliers for high-speed DSP
    • System Memory – 8 MB SDRAM
    • Storage – 2 MB QSPI Flash (1MB for user applications)
    • Micro HDMI connector
    • MIPI camera connector
    • mini PCIe connector with up to 25 user programmable pins
  • MCU – Microchip SAMD21 Cortex-M0+ 32bit low power Arm MCU  @ 48 MHz with 256 KB flash, 32 KB SRAM
  • Connectivity – Wifi & BLE powered by U-BLOX NINA W10 Series module
  • I/Os driven both by SAMD21 and FPGA
    • 8x Digital I/O Pins
    • 12x PWM Pins (0, 1, 2, 3, 4, 5, 6, 7, 8, 10, A3 – or 18 -, A4 -or 19)
    • 1x UART, 1x SPI, 1x I2C
    • 7x analog input pins (ADC 8/10/12 bit)
    • 1x analog output pins (DAC 10-bit)
    • 8x external Interrupts (0, 1, 4, 5, 6, 7, 8, A1 -or 16-, A2 – or 17)
    • DC Current per I/O Pin – 7 mA
  • USB – 1x micro USB device/host port
  • HW Security – ECC508 crypto chip
  • Power Supply
    • 5V via USB/VIN
    • Battery – Supports Li-Po single cell, 3.7V, 700mAh minimum
    • Circuit Operating Voltage – 3.3V
  • Dimensions – 61.5 x 25 mm
  • Weight – 32 grams
MKR-VIDOR-4000
Click to Enlarge

Each pin can toggle at over 150 MHz with the FPGA, and be configured for various functions such as (Q)SPI, high res/ high freq PWM, quadrature encoder, I2S, etc… The FPGA can be also used for audio and video processing.

There’s not a lot of information about software and tools support at this stage except “the board will be coupled with an innovative development environment”. One can only assume both FPGA and MCU programming will be feasible in Arduino IDE. More details should eventually surfaced on the product page once it is ready to launch.

UNO WiFi Rev2

UNO-WiFi-Rev2
Click to Enlarge

Preliminary specifications:

  • MCU – Microchip ATmega4809  8-bit AVR MCU with 6KB RAM, 48KB  flash, and Core Independent Peripherals (CIPs)
  • Connectivity – 802.11 b/g/n WiFi @ 2.4 GHz via U-blox W102 module (which also supports Bluetooth 4.2 LE, but this is not listed in the board’s specs)
  • Digital I/O pins – 14, with 6 PWM
  • Analog Input Pins – 6
  • Programming – ICSP header
  • USB – 1x USB device port
  • Misc – Reset button, on-board IMU (Inertial Measurement Unit)
  • HW Security – Microchip ECC608 crypto chip
  • Input Voltage – 5-12 V via DC jack, Vin or USB port (5V only)
  • Dimensions – 68.6 x 53.4 mm
ATmega4809-Arduino-Board
Click to Enlarge

The board is basically an Arduino UNO Rev3 board with a new MCU, WiFi connectivity, an on-board IMU (Inertial Measurement Unit), and hardware security. Visit the product page for further information.

Pricing information has not been disclosed so far., but we do know both the MKR Vidor 4000 and Uno WiFi Rev2 boards are expected to start selling at the end of June.

Share this:
FacebookTwitterHacker NewsSlashdotRedditLinkedInPinterestFlipboardMeWeLineEmailShare

Support CNX Software! Donate via cryptocurrencies, become a Patron on Patreon, or purchase goods on Amazon or Aliexpress

ROCK Pi 4C Plus

7 Replies to “Arduino Unveils its First FPGA Board with MKR Vidor 4000, Updates UNO WiFi Board with ATmega4809 MCU”

  1. I’d be very curious to see who find a use for these and what it is. The MKR boards seem to have an almost built-to-purpose quality to them, but the purpose is hard to understand. Who are these boards for?

  2. MIPI standards are available to members-only, thus the CSI port isn’t very useful. Unless Intel is planning to openly publish the Cyclone-10’s bitstream format, which would be a blessing to garage EE’s everywhere, the FPGA won’t be very useful, either.
    It troubles me to imagine that Arduino is following the proprietary way of other too-successful community projects.

    1. I read on Hack a Days post that the IDE for this board would be their online IDE which would have various IP block for the user to pick and use. I’m not sure if this means their local IDE will not have any support at all. Last time I used xilinx FPGAs on linux the whole install was massive ~3GB. That might be why they are pushing this to their cloud IDE. I would assume if they are talking about IP blocks and such this will be full of closed source badness.

    1. Thanks for posting the video. I actually couldn’t see the QR code being tracked which is disappointing. Just looked like the camera was out of focus. But it was quite impressive how the little Arduino was running camera input and HDMI output through that FPGA.

  3. Yeah these are starting to look like a cloud-based set of IP encumbered Lego bricks. If that’s the case, no thanks.

Leave a Reply

Your email address will not be published. Required fields are marked *

Khadas VIM4 SBC
Khadas VIM4 SBC