diff --git a/bsp/cvitek/c906_little/README.md b/bsp/cvitek/c906_little/README.md
deleted file mode 100755
index 14bd1a7e499..00000000000
--- a/bsp/cvitek/c906_little/README.md
+++ /dev/null
@@ -1,73 +0,0 @@
-# c906_little bsp
-该 bsp 为 cv18xx 系列处理器中的协处理器，采用 RISCV C906 @ 700Mhz。
-特性：
-- 无 MMU   
-- 集成浮点运算单元 (FPU)
-
-## Toolchain 下载
-下载 `riscv64-unknown-elf-gcc` 的工具链: [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
-
-> 注：
-当前 bsp 只支持 Linux 编译
-
-正确解压后，在`rtconfig.py`中将 `riscv64-unknown-elf-gcc` 工具链的本地路径加入 `EXEC_PATH` 或通过 `RTT_EXEC_PATH` 环境变量指定路径。
-
-```shell
-$ export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
-```
-
-## 编译
-1. 依赖安装
-
-```shell
-$ sudo apt install -y scons libncurses5-dev wget flex bison
-```
-
-
-2. Linux平台下，先执行：
-```shell
-$ scons --menuconfig
-```
-
-选择当前需要编译的目标开发板类型：
-```shell
-Board Type (milkv-duo)  --->
-    ( ) milkv-duo
-    ( ) milkv-duo-spinor
-    (X) milkv-duo256m
-    ( ) milkv-duo256m-spinor
-```
-
-它会自动下载 env 相关脚本到 ~/.env 目录，然后执行
-```shell
-$ source ~/.env/env.sh
-$ pkgs --update
-```
-更新完软件包后，执行 `scons -j10` 或 `scons -j10 --verbose` 来编译这个板级支持包。或者通过 `scons --exec-path="GCC工具链路径"` 命令，在指定工具链位置的同时直接编译。编译正确无误，会产生rtthread.elf 文件。
-
-编译完成后脚本自动调用 `combine-fip.sh` 脚本进行打包，并生成 `fip.sd`, 该文件即为 SD 卡启动的 c906_little 文件。
-
-第一次调用 `combine-fip.sh` 脚本时会自动下载打包需要的 `opsbsbi`、`fsbl`、`uboot` 等相关文件至 `bsp/cvitek/cvitek_bootloader` 目录，请耐心等待。
-
-下载完成后会自动解压、编译，后续再次编译同一类型开发板只会调用相关文件打包合成 `fip.bin`。如需手工编译相关 `cvitek_bootloader` 文件，可在 `bsp/cvitek/cvitek_bootloader` 目录下执行 `bash build.sh lunch` 选择对应的开发板编译。
-
-## 运行
-1. 将 SD 卡分为 2 个分区，第 1 个分区用于存放 bin 文件，第 2 个分区用于作为数据存储分区，分区格式为 `FAT32`。
-2. 将根目录下的 `fip.bin` 和 `boot.sd` 复制 SD 卡第一个分区中。后续更新固件只需要复制 `fip.sd` 文件即可。
-其中：
-- fip.bin：fsbl、 opensbi、 uboot、c906_little 打包后的 bin 文件
-- boot.sd：大核打包后的 bin 文件
-
-更新完 `fip.sd` 后， 重新上电可以看到串口的输出信息：
-```shell
-HW_HEAP_BEGIN:83f74dc0 RT_HW_HEAP_END:84000000 size: 569920
-
- \ | /
-- RT -     Thread Operating System
- / | \     5.1.0 build Jan 27 2024 22:45:49
- 2006 - 2022 Copyright by RT-Thread team
-Hello, RISC-V!
-msh />
-```
-
-> 注：c906 小核默认日志串口为 uart1
\ No newline at end of file
diff --git a/bsp/cvitek/c906_little/README_en.md b/bsp/cvitek/c906_little/README_en.md
deleted file mode 100755
index df6d28fa9c8..00000000000
--- a/bsp/cvitek/c906_little/README_en.md
+++ /dev/null
@@ -1,72 +0,0 @@
-# c906_little bsp
-This BSP is a coprocessor in the cv18xx series processor, using RISCV C906 @ 700Mhz.
-Features:
-- No MMU
-- Integrated Floating-point Unit (FPU)
-
-## Toolchain Download
-Download the toolchain for `riscv64-unknown-elf-gcc`: [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
-
-> Note:
-Current BSP only supports Linux compilation.
-
-After correct decompression, add the local path of the `riscv64-unknown-elf-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/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
-```
-
-## Compilation
-1. Dependency Installation
-
-```shell
-$ sudo apt install -y scons libncurses5-dev wget flex bison
-```
-
-2. On Linux platform, execute:
-```shell
-$ scons --menuconfig
-```
-
-Choose the target development board type that needs to be compiled:
-```shell
-Board Type (milkv-duo)  --->
-    ( ) milkv-duo
-    ( ) milkv-duo-spinor
-    (X) milkv-duo256m
-    ( ) milkv-duo256m-spinor
-```
-
-It will automatically download env related scripts to the ~/.env directory, then execute
-```shell
-$ source ~/.env/env.sh
-$ pkgs --update
-```
-After updating the software packages, execute `scons -j10` or `scons -j10 --verbose` to compile this BSP. Or use the `scons --exec-path="GCC toolchain path"` command to compile directly while specifying the toolchain location. If the compilation is correct, the rtthread.elf file will be generated.
-
-After the compilation is completed, the script automatically calls the `combine-fip.sh` script for packaging, and generates `fip.sd`, which is the c906_little file for SD card startup.
-
-The first time the `combine-fip.sh` script is called, it will automatically download the required `opsbsbi`, `fsbl`, `uboot`, and other related files to the `bsp/cvitek/cvitek_bootloader` directory, please be patient.
-
-After downloading, it will automatically decompress and compile. Subsequently, when compiling the same type of development board again, only the relevant files will be called to package and synthesize `fip.bin`. If you need to manually compile the related `cvitek_bootloader` files, you can execute `bash build.sh lunch` in the `bsp/cvitek/cvitek_bootloader` directory to choose the corresponding development board for compilation.
-
-## Running
-1. Divide the SD card into 2 partitions, the 1st partition is used to store bin files, and the 2nd partition is used as a data storage partition, with the partition format being `FAT32`.
-2. Copy the `fip.bin` and `boot.sd` from the root directory into the 1st partition of the SD card. Subsequent firmware updates only require copying the `fip.sd` file.
-Where:
-- fip.bin: fsbl, opensbi, uboot, c906_little packaged bin file
-- boot.sd: bin file packaged by the main kernel
-
-After updating `fip.sd`, restarting will show the output information on the serial port:
-```shell
-HW_HEAP_BEGIN:83f74dc0 RT_HW_HEAP_END:84000000 size: 569920
-
- \ | /
-- RT -     Thread Operating System
- / | \     5.1.0 build Jan 27 2024 22:45:49
- 2006 - 2022 Copyright by RT-Thread team
-Hello, RISC-V!
-msh />
-```
-
-> Note: The default log serial port for the c906 little core is uart1
\ No newline at end of file
diff --git a/bsp/cvitek/cv18xx_risc-v/README.md b/bsp/cvitek/cv18xx_risc-v/README.md
deleted file mode 100755
index d931c171d7f..00000000000
--- a/bsp/cvitek/cv18xx_risc-v/README.md
+++ /dev/null
@@ -1,148 +0,0 @@
- **中文** | [English](README_en.md)
-
-## 概述
-CV18xx 系列芯片面向民用消费监控 IP 摄像机、居家智能等多项产品领域而推出的高性能、低功耗芯片，集成了 H.264/H.265 视频压缩编码器和 ISP；支持数字寛动态、 3D 降噪、除雾、镜头畸变校正等多种图像增强和矫正算法，为客户提供专业级的视频图像质量。
-
-1. 处理器内核
-
-- 主处理器 RISCV C906 @ 1.0Ghz
-  - 32KB I-cache, 64KB D-Cache
-  -  集成矢量(Vector)及浮点运算单元 (FPU) .
-- 协处理器 RISCV C906 @ 700Mhz
-  - 集成浮点运算单元 (FPU)
-
-2. 存储器接口
-- 内建 DRAM : DDR2 16bitx1, 最高速率达 1333Mbps , 容量512Mbit (64MB)
-- 支持SPI NOR flash 接口 (1.8V / 3.0V)
-  - 支持 1, 2, 4 线模式
-  - 最大支持 256MByte
-- 支持 SPI Nand flash 接口 (1.8V / 3.0V)
-  - 支持 1KB/2KB/4KB page (对应的最大容量 16GB/32GB/64GB)
-  - 使用器件本身内建的 ECC 模块
-
-3. 外设
-- 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
-- 集成 MAC PHY 支持 10/100Mbps 全双工或半双工模式
-- 一个 USB Host / device 接口
-
-4. [GPIO 引脚分布](https://milkv.io/zh/docs/duo/getting-started/duo256m#gpio-%E5%BC%95%E8%84%9A%E5%88%86%E5%B8%83)
-
-## Toolchain 下载
-1. RT-Thread 标准版工具链：`riscv64-unknown-elf-gcc` 下载地址  [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
-
-2. RT-Smart 版工具链： `riscv64-unknown-linux-musl-gcc` 下载地址 [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)
-
-> 注：
-当前 bsp 只支持 Linux 编译，推荐 ubuntu 22.04
-
-正确解压后，在`rtconfig.py`中将 `riscv64-unknown-elf-gcc` 或 `riscv64-unknown-linux-musl-gcc` 工具链的本地路径加入 `EXEC_PATH` 或通过 `RTT_EXEC_PATH` 环境变量指定路径。
-
-```shell
-# RT-Thread 标准版按照以下配置：
-$ export RTT_CC_PREFIX=riscv64-unknown-elf-
-$ export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
-
-# RT-Samrt 版按照以下配置：
-$ export RTT_CC_PREFIX=riscv64-unknown-linux-musl-
-$ export RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin
-```
-
-## 编译
-
-### 依赖安装
-```shell
-$ sudo apt install -y scons libncurses5-dev device-tree-compiler
-```
-
-## 修改当前工程配置
-
-Linux平台下，执行：
-```shell
-$ scons --menuconfig
-```
-
-1. 默认编译为 RT-Thread 标准版，如果需要编译为 RT-Smart 版，请按照如下方式修改：
-```shell
-RT-Thread Kernel  --->
-    [*] Enable RT-Thread Smart (microkernel on kernel/userland)
-
-    (0x80000000) The virtural address of kernel start
-```
-
-2. 选择当前需要编译的目标开发板类型：
-```shell
-Board Type (milkv-duo)  --->
-    ( ) milkv-duo
-    ( ) milkv-duo-spinor
-    (X) milkv-duo256m
-    ( ) milkv-duo256m-spinor
-```
-
-它会自动下载env相关脚本到~/.env目录，然后执行
-```shell
-$ source ~/.env/env.sh
-$ pkgs --update
-```
-更新完软件包后，执行 `scons -j10` 或 `scons -j10 --verbose` 来编译这个板级支持包，编译正确无误，会产生 rtthread.elf 文件。
-
-编译完成后脚本自动调用 `./mksdimg.sh` 脚本进行打包，并生成 `boot.sd`, 该文件即为 SD 卡启动的 kernel 文件。
-
-
-## 运行
-1. 将 SD 卡分为 2 个分区，第 1 个分区用于存放 bin 文件，第 2 个分区用于作为数据存储分区，分区格式为 `FAT32`。
-2. 将根目录下的 `fip.bin` 和 `boot.sd` 复制 SD 卡第一个分区中。后续更新固件只需要复制 `boot.sd` 文件即可。
-其中：
-- fip.bin：fsbl、 opensbi 和 uboot 打包后的 bin 文件
-- boot.sd：kernel 打包后的 bin 文件
-
-更新完 `boot.sd` 后， 重新上电可以看到串口的输出信息：
-```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 <NULL>... 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 Operating System
- / | \     5.1.0 build Apr  7 2024 23:33:20
- 2006 - 2024 Copyright by RT-Thread team
-Hello RISC-V!
-msh />
-```
diff --git a/bsp/cvitek/cv18xx_risc-v/README_en.md b/bsp/cvitek/cv18xx_risc-v/README_en.md
deleted file mode 100755
index 8a9842e354c..00000000000
--- a/bsp/cvitek/cv18xx_risc-v/README_en.md
+++ /dev/null
@@ -1,147 +0,0 @@
-[中文](README.md) | **English**
-
-## Overview
-The CV18xx series of chips are high-performance, low-power chips launched for various products in the field of civilian consumer surveillance IP cameras, smart homes, and more. These chips integrate H.264/H.265 video compression encoders, as well as ISP; they support various image enhancement and correction algorithms such as digital wide dynamic range, 3D noise reduction, defogging, and lens distortion correction, providing customers with professional-level video image quality.
-
-1. Processor Core
-- Main Processor: RISC-V C906 @ 1.0Ghz
-  - 32KB I-cache, 64KB D-Cache
-  - Integrated Vector and Floating-Point Unit (FPU).
-- Co-processor: RISC-V C906 @ 700Mhz
-  - Integrated Floating-Point Unit (FPU)
-
-2. Storage Interface
-- Built-in DRAM: DDR2 16bitx1, with a maximum speed of 1333Mbps, and a capacity of 512Mbit (64MB)
-- Support for SPI NOR flash interface (1.8V / 3.0V)
-  - Supports 1, 2, 4 line modes
-  - Maximum support of 256MByte
-- Support for SPI Nand flash interface (1.8V / 3.0V)
-  - Supports 1KB/2KB/4KB page (corresponding to maximum capacity of 16GB/32GB/64GB)
-  - Utilizes the device's built-in ECC module
-
-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 supports 10/100Mbps full or half duplex mode
-- One USB host/device interface
-
-4. [GPIO pinout](https://milkv.io/docs/duo/getting-started/duo256m#gpio-pinout)
-
-## Toolchain Download
-1. RT-Thread Standard Edition Toolchain: `riscv64-unknown-elf-gcc` Download Link [https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz](https://occ-oss-prod.oss-cn-hangzhou.aliyuncs.com/resource//1705395512373/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1-20240115.tar.gz)
-
-2. RT-Smart Edition Toolchain: `riscv64-unknown-linux-musl-gcc` Download Link [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, and it is recommended to use Ubuntu 22.04
-
-After correctly extracting, add the local path of the `riscv64-unknown-elf-gcc` or `riscv64-unknown-linux-musl-gcc` toolchain to `EXEC_PATH` in `rtconfig.py` or specify the path through the `RTT_EXEC_PATH` environment variable.
-
-```shell
-# For RT-Thread Standard Edition, use the following configuration:
-$ export RTT_CC_PREFIX=riscv64-unknown-elf-
-$ export RTT_EXEC_PATH=/opt/Xuantie-900-gcc-elf-newlib-x86_64-V2.8.1/bin
-
-# For RT-Smart Edition, use the following configuration:
-$ export RTT_CC_PREFIX=riscv64-unknown-linux-musl-
-$ export RTT_EXEC_PATH=/opt/riscv64-linux-musleabi_for_x86_64-pc-linux-gnu/bin
-```
-
-## Compilation
-
-### Dependency Installation
-```shell
-$ sudo apt install -y scons libncurses5-dev device-tree-compiler
-```
-
-## Modify Current Project Configuration
-
-For the Linux platform, execute:
-```shell
-$ scons --menuconfig
-```
-
-1. By default, compile as RT-Thread Standard Edition. If you need to compile as RT-Smart Edition, modify as follows:
-```shell
-RT-Thread Kernel  --->
-    [*] Enable RT-Thread Smart (microkernel on kernel/userland)
-
-    (0x80000000) The virtual address of kernel start
-```
-
-2. Select the current target development board type:
-```shell
-Board Type (milkv-duo)  --->
-    ( ) milkv-duo
-    ( ) milkv-duo-spinor
-    (X) milkv-duo256m
-    ( ) milkv-duo256m-spinor
-```
-
-It will automatically download relevant scripts to the ~/.env directory, then execute:
-```shell
-$ source ~/.env/env.sh
-$ pkgs --update
-```
-After updating the software package, execute `scons -j10` or `scons -j10 --verbose` to compile this board support package. If the compilation is successful, an rtthread.elf file will be generated.
-
-After the compilation is complete, the script automatically calls the `./mksdimg.sh` script to package and generate `boot.sd`, which is the kernel file for SD card startup.
-
-## 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, with `FAT32` format.
-2. Copy the `fip.bin` and `boot.sd` files from the root directory to the first partition of the SD card. Subsequent firmware updates only require copying the `boot.sd` file.
-Where:
-- fip.bin: fsbl, opensbi, and uboot packaged bin file
-- boot.sd: kernel packaged bin file
-
-After updating `boot.sd`, restart to see the serial port output:
-
-```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 <NULL>... 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 Operating System
- / | \     5.1.0 build Apr  7 2024 23:33:20
- 2006 - 2024 Copyright by RT-Thread team
-Hello RISC-V!
-msh />
-```
\ No newline at end of file