[中文](README.md) | **English** ## Overview CV180ZB/CV1800B/CV1801B are high-performance, low-power chips designed for consumer surveillance IP cameras, smart home devices, and other product areas. They integrate H.264/H.265 video compression encoders and ISPs, and support various image enhancement and correction algorithms such as digital wide dynamic range, 3D noise reduction, defogging, and lens distortion correction, providing professional-grade video image quality to customers. 1. Processor Core - Main processor: RISCV C906 @ 1.0Ghz - 32KB I-cache, 64KB D-Cache - Integrated vector and floating-point units (FPU). - Coprocessor: RISCV C906 @ 700Mhz - Integrated floating-point unit (FPU). 2. Memory Interface - Built-in DRAM: DDR2 16bitx1, with a maximum speed of 1333Mbps, capacity of 512Mbit (64MB). - Support for SPI NOR flash interface (1.8V / 3.0V) - Support for 1, 2, 4-wire modes - Maximum support of 256MBytes - Support for SPI Nand flash interface (1.8V / 3.0V) - Support for 1KB/2KB/4KB page (corresponding to a maximum capacity of 16GB/32GB/64GB) - Use the built-in ECC module of the device itself 3. Peripherals - Up to 26 GPIO pins on the MilkV-Duo 40-pin header provide access to internal peripherals such as SDIO, I2C, PWM, SPI, J-TAG, and UART. - Up to 3x I2C - Up to 5x UART - Up to 1x SDIO1 - Up to 1x SPI - Up to 2x ADC - Up to 7x PWM - Up to 1x RUN - Up to 1x JTAG - Integrated MAC PHY supporting 10/100Mbps full-duplex or half-duplex mode - One USB Host / device interface ## Toolchain Download Download the `riscv64-unknown-linux-musl-gcc` toolchain from: [https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2](https://github.com/RT-Thread/toolchains-ci/releases/download/v1.7/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu_latest.tar.bz2) > Note: The current BSP only supports Linux compilation. After correct extraction, add the local path of the `riscv64-unknown-linux-musl-gcc` toolchain to `EXEC_PATH` in `rtconfig.py`, or specify the path through the `RTT_EXEC_PATH` environment variable. ```shell $ export RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin ``` ## Compilation 1. Installing Dependencies ```shell $ sudo apt install -y device-tree-compiler ``` On the Linux platform, you can execute: ```shell $ scons --menuconfig ``` It will automatically download environment-related scripts to the ~/.env directory, and then execute ```shell $ source ~/.env/env.sh $ pkgs --update ``` After updating the software packages, use `scons -j10` or `scons -j10 --verbose` to compile this board support package. Alternatively, you can use the command `scons --exec-path="GCC_toolchain_path"` to specify the toolchain location for compilation. If the compilation is successful, an rtthread.elf file will be generated. After the compilation is completed, the script automatically calls the `./mksdimg.sh` script to package and generate the `boot.sd` file, which is the kernel file for SD card boot. ## Running 1. Divide the SD card into 2 partitions, with the first partition used to store bin files and the second partition used as a data storage partition. The partition format is FAT32. 2. Copy the `fip.bin` and `boot.sd` files from the root directory to the first partition of the SD card. For subsequent firmware updates, you only need to copy the `boot.sd` file. Where: - fip.bin: the bin file after fsbl、opensbi and U-Boot are packaged - boot.sd: the bin file after the kernel is packaged After updating `boot.sd`, power on again and you will see the serial output information: ```shell U-Boot 2021.10 (Jun 26 2023 - 14:09:06 +0800)cvitek_cv180x DRAM: 63.3 MiB gd->relocaddr=0x82435000. offset=0x2235000 MMC: cv-sd@4310000: 0 Loading Environment from ... OK In: serial Out: serial Err: serial Net: Warning: ethernet@4070000 (eth0) using random MAC address - 62:80:19:6c:d4:64 eth0: ethernet@4070000 Hit any key to stop autoboot: 0 Boot from SD ... switch to partitions #0, OK mmc0 is current device 132692 bytes read in 12 ms (10.5 MiB/s) ## Loading kernel from FIT Image at 81400000 ... Using 'config-cv1800b_milkv_duo_sd' configuration Trying 'kernel-1' kernel subimage Verifying Hash Integrity ... crc32+ OK ## Loading fdt from FIT Image at 81400000 ... Using 'config-cv1800b_milkv_duo_sd' configuration Trying 'fdt-cv1800b_milkv_duo_sd' fdt subimage Verifying Hash Integrity ... sha256+ OK Booting using the fdt blob at 0x8141b590 Uncompressing Kernel Image Decompressing 296768 bytes used 42ms Loading Device Tree to 0000000081be5000, end 0000000081becb60 ... OK Starting kernel ... heap: [0x802766b0 - 0x812766b0] \ | / - RT - Thread Smart Operating System / | \ 5.0.1 build Jun 28 2023 23:44:36 2006 - 2022 Copyright by RT-Thread team Hello RT-Smart! msh /> ``` ## Driver Support List | Driver | Support Status | Remarks | | :----- | :------------- | :--------------------- | | UART | Supported | Default baud rate 115200 | ## Supported Development Boards - milk-v duo: [https://milkv.io/duo](https://milkv.io/duo) ## Contact information Maintenance person:[flyingcys](https://github.com/flyingcys)