Work in progress. PCB have arrived for v1.0 of the board and bring-up has started.
- The MOSFET is 180 degrees rotated.
- The MOSI/MISO lines for the SPI flash are swapped.
- The CS line of the SPI flash is connected to the wrong pad on the FPGA, flashing and loading bitstream from v1.0 hardware will not work.
Images from the assembly and results here: https://twitter.com/korken89/status/1341126909485342721
Aim: A "low cost" Visual Inertial Odometry accelerator.
A project to try out different vision processing pipelines, for Visual Inertial Odometry (VIO), on the ECP5 FPGA. As far as I know, the open hardware landscape of VIO cameras is slim to non-existent. Especially for systems which perform a majority of the pre-processing in the camera.
Things such as image convolutions, FAST corners, multi-scale images, non-maximum suppression, image gradients, etc, are extremely well suited for FPGA implementation.
Why do it on a PC? Let it run the actual Kalman Filter / MHE / nonlinear optimizer, which the FPGA is not well suited for.
- Lattice ECP5U-85, design is pin-compatible to all the smaller versions
- 1 GBit DDR3 memory
- FT600 USB 3.0 FIFO with 200 MB/s transfer rate
- 2x MT9V034 cameras with tight hardware synchronization control loops (center of integration of both cameras are aligned to IMU measurements)
- Temperature stabilized ST ISM330DHC IMU (16g / 4000 dps max)
Previous projects has been made on Xilinx FPGAs, however the high cost of their FPGAs never allowed for trying to distribute a camera. Now it is expected that the hardware cost for this system should be sub 100 Euros, even with the largest ECP5 FPGA.
If there is interest for acquiring a camera, contact me (via any medium) and we'll figure something out.
- http://www.m12lenses.com/2-1mm-F2-2-Board-Lens-p/pt-02120.htm
- http://www.m12lenses.com/M12-Lens-Holder-Plastic-p/pt-lh001p.htm
- Emil Fresk (@korken89)
This hardware is open source.
TODO: Find a proper license