nuttx

History

Stuart Ianna 05c6d7c7b9 litex: Add PWM driver. PWM driver for multiple peripherals supplied in gateware. Only single channel frequency and duty cycle control is implemented. Pulse counting and multichannel features are not currently feasible. Additions also include a new board configuration for arty-a7 which enables the PWM driver and example application.		2023-02-01 09:34:57 -03:00
..
configs	litex: Add PWM driver.	2023-02-01 09:34:57 -03:00
include
scripts	risc-v: Move "LDFLAGS += -melf32lriscv" from Make.defs to Toolchain.defs	2022-05-16 11:17:08 +03:00
src	litex: Add PWM driver.	2023-02-01 09:34:57 -03:00
Kconfig	boards/risc-v/litex/arty_a7: add SDCARD support for the Arty_A7 board	2022-03-30 02:35:27 +08:00
README.txt	NuttX graduated the Incubator; update repository links	2022-11-26 11:58:15 -08:00

README.txt

1. Download and install toolchain

  $ curl https://static.dev.sifive.com/dev-tools/riscv64-unknown-elf-gcc-8.3.0-2019.08.0-x86_64-linux-ubuntu14.tar.gz

2. Follow instruction on https://github.com/enjoy-digital/litex to build the vexriscv softcore fpga gateware
   and flash to arty_a7 board

  $ cd litex-boards/litex_boards/targets
  $ ./digilent_arty.py --with-ethernet --with-sdcard --uart-baudrate 1000000 --cpu-type=vexriscv --cpu-variant=secure --build --load --flash

3. Configure and build NuttX

  $ mkdir ./nuttx; cd ./nuttx
  $ git clone https://github.com/apache/nuttx.git nuttx
  $ git clone https://github.com/apache/nuttx-apps.git apps
  $ cd nuttx
  $ make distclean
  $ ./tools/configure.sh arty_a7:nsh
  $ make V=1

4. Setup tftp server on your laptop, copy nuttx.bin to your tftpboot directory and change its name to boot.bin

5. Setup the wire connection(uart and tftp) between your board and laptop

6. Run  $ minicom -b 1000000 /dev/ttyUSB1 (the default baudrate on litex vexriscv is 1e6)
   when you see the bios prompt "litex>", type "netboot" and enter soon comes the nsh prompt

7. TODO

  Support GPIO/SPI/I2C/RTC/WDT/PWM
  Support RISC-V User mode