提交 4f983d86 编写于 作者: H hong19860320 提交者: GitHub

[Doc] Add baidu XPU doc and refine MTK and RK doc (#3551)

上级 d5f26306
# PaddleLite使用百度XPU预测部署
Paddle Lite已支持百度XPU在x86和arm服务器(例如飞腾 FT-2000+/64)上进行预测部署。
目前支持Kernel和子图两种接入方式,其中子图接入方式与之前华为NPU类似,即加载并分析Paddle模型,将Paddle算子转成XTCL组网API进行网络构建,在线生成并执行模型。
## 支持现状
### 已支持的芯片
- 昆仑818-100(推理芯片)
- 昆仑818-300(训练芯片)
### 已支持的设备
- K100/K200昆仑AI加速卡
### 已支持的Paddle模型
- [ResNet50](https://paddlelite-demo.bj.bcebos.com/models/resnet50_fp32_224_fluid.tar.gz)
- [BERT](https://paddlelite-demo.bj.bcebos.com/models/bert_fp32_fluid.tar.gz)
- [ERNIE](https://paddlelite-demo.bj.bcebos.com/models/ernie_fp32_fluid.tar.gz)
- YOLOv3
- Mask R-CNN
- Faster R-CNN
- UNet
- SENet
- SSD
- 百度内部业务模型(由于涉密,不方便透露具体细节)
### 已支持(或部分支持)的Paddle算子(Kernel接入方式)
- scale
- relu
- tanh
- sigmoid
- stack
- matmul
- pool2d
- slice
- lookup_table
- elementwise_add
- elementwise_sub
- cast
- batch_norm
- mul
- layer_norm
- softmax
- conv2d
- io_copy
- io_copy_once
- __xpu__fc
- __xpu__multi_encoder
- __xpu__resnet50
- __xpu__embedding_with_eltwise_add
### 已支持(或部分支持)的Paddle算子(子图/XTCL接入方式)
- relu
- tanh
- conv2d
- depthwise_conv2d
- elementwise_add
- pool2d
- softmax
- mul
- batch_norm
- stack
- gather
- scale
- lookup_table
- slice
- transpose
- transpose2
- reshape
- reshape2
- layer_norm
- gelu
- dropout
- matmul
- cast
- yolo_box
## 参考示例演示
### 测试设备(K100昆仑AI加速卡)
![baidu_xpu](https://paddlelite-demo.bj.bcebos.com/devices/baidu/baidu_xpu.jpg)
### 准备设备环境
- K100/200昆仑AI加速卡[规格说明书](https://paddlelite-demo.bj.bcebos.com/devices/baidu/K100_K200_spec.pdf),如需更详细的规格说明书或购买产品,请联系欧阳剑ouyangjian@baidu.com;
- K100为全长半高PCI-E卡,K200为全长全高PCI-E卡,要求使用PCI-E x16插槽,且需要单独的8针供电线进行供电;
- 安装K100/K200驱动,目前支持Ubuntu和CentOS系统,由于驱动依赖Linux kernel版本,请正确安装对应版本的驱动安装包。
### 准备本地编译环境
- 为了保证编译环境一致,建议参考[源码编译](../user_guides/source_compile)中的Linux开发环境进行配置;
- 由于编译示例程序需要依赖OpenCV和CMake 3.10.3,请执行如下命令进行安装;
```shell
$ sudo apt-get update
$ sudo apt-get install gcc g++ make wget unzip libopencv-dev pkg-config
$ wget https://www.cmake.org/files/v3.10/cmake-3.10.3.tar.gz
$ tar -zxvf cmake-3.10.3.tar.gz
$ cd cmake-3.10.3
$ ./configure
$ make
$ sudo make install
```
### 运行图像分类示例程序
-[https://paddlelite-demo.bj.bcebos.com/devices/baidu/PaddleLite-linux-demo.tar.gz](https://paddlelite-demo.bj.bcebos.com/devices/baidu/PaddleLite-linux-demo.tar.gz)下载示例程序,解压后清单如下:
```shell
- PaddleLite-linux-demo
- image_classification_demo
- assets
- images
- tabby_cat.jpg # 测试图片
- labels
- synset_words.txt # 1000分类label文件
- models
- resnet50_fp32_224_fluid # Paddle fluid non-combined格式的resnet50 float32模型
- __model__ # Paddle fluid模型组网文件,可拖入https://lutzroeder.github.io/netron/进行可视化显示网络结构
- bn2a_branch1_mean # Paddle fluid模型参数文件
- bn2a_branch1_scale
...
- shell
- CMakeLists.txt # 示例程序CMake脚本
- build
- image_classification_demo # 已编译好的,适用于amd64的示例程序
- image_classification_demo.cc # 示例程序源码
- build.sh # 示例程序编译脚本
- run.sh # 示例程序运行脚本
- libs
- PaddleLite
- amd64
- include # PaddleLite头文件
- lib
- libiomp5.so # Intel OpenMP库
- libmklml_intel.so # Intel MKL库
- libxpuapi.so # XPU API库,提供设备管理和算子实现。
- llibxpurt.so # XPU runtime库
- libpaddle_full_api_shared.so # 预编译PaddleLite full api库
- arm64
- include # PaddleLite头文件
- lib
- libxpuapi.so # XPU API库,提供设备管理和算子实现。
- llibxpurt.so # XPU runtime库
- libpaddle_full_api_shared.so # 预编译PaddleLite full api库
```
- 进入PaddleLite-linux-demo/image_classification_demo/shell,直接执行./run.sh amd64即可;
```shell
$ cd PaddleLite-linux-demo/image_classification_demo/shell
$ ./run.sh amd64 # 默认已生成amd64版本的build/image_classification_demo,因此,无需重新编译示例程序就可以执行。
$ ./run.sh arm64 # 需要在arm64(FT-2000+/64)服务器上执行./build.sh arm64后才能执行该命令。
...
AUTOTUNE:(12758016, 16, 1, 2048, 7, 7, 512, 1, 1, 1, 1, 0, 0, 0) = 1by1_bsp(1, 32, 128, 128)
Find Best Result in 150 choices, avg-conv-op-time = 40 us
[INFO][XPUAPI][/home/qa_work/xpu_workspace/xpu_build_dailyjob/api_root/baidu/xpu/api/src/wrapper/conv.cpp:274] Start Tuning: (12758016, 16, 1, 512, 7, 7, 512, 3, 3, 1, 1, 1, 1, 0)
AUTOTUNE:(12758016, 16, 1, 512, 7, 7, 512, 3, 3, 1, 1, 1, 1, 0) = wpinned_bsp(1, 171, 16, 128)
Find Best Result in 144 choices, avg-conv-op-time = 79 us
I0502 22:34:18.176113 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
I0502 22:34:18.176406 15876 io_copy_compute.cc:36] host to xpu, copy size 602112
I0502 22:34:18.176697 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
iter 0 cost: 2.116000 ms
I0502 22:34:18.178530 15876 io_copy_compute.cc:36] host to xpu, copy size 602112
I0502 22:34:18.178792 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
iter 1 cost: 2.101000 ms
I0502 22:34:18.180634 15876 io_copy_compute.cc:36] host to xpu, copy size 602112
I0502 22:34:18.180881 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
iter 2 cost: 2.089000 ms
I0502 22:34:18.182726 15876 io_copy_compute.cc:36] host to xpu, copy size 602112
I0502 22:34:18.182976 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
iter 3 cost: 2.085000 ms
I0502 22:34:18.184814 15876 io_copy_compute.cc:36] host to xpu, copy size 602112
I0502 22:34:18.185068 15876 io_copy_compute.cc:75] xpu to host, copy size 4000
iter 4 cost: 2.101000 ms
warmup: 1 repeat: 5, average: 2.098400 ms, max: 2.116000 ms, min: 2.085000 ms
results: 3
Top0 tabby, tabby cat - 0.689418
Top1 tiger cat - 0.190557
Top2 Egyptian cat - 0.112354
Preprocess time: 1.553000 ms
Prediction time: 2.098400 ms
Postprocess time: 0.081000 ms
```
- 如果需要更改测试图片,可将图片拷贝到PaddleLite-linux-demo/image_classification_demo/assets/images目录下,然后将run.sh的IMAGE_NAME设置成指定文件名即可;
- 如果需要重新编译示例程序,直接运行./build.sh amd64或./build.sh arm64即可。
```shell
$ cd PaddleLite-linux-demo/image_classification_demo/shell
$ ./build.sh amd64 # For amd64
$ ./build.sh arm64 # For arm64(FT-2000+/64)
```
### 更新模型
- 通过Paddle Fluid训练,或X2Paddle转换得到ResNet50 float32模型[resnet50_fp32_224_fluid](https://paddlelite-demo.bj.bcebos.com/models/resnet50_fp32_224_fluid.tar.gz)
- 由于XPU一般部署在Server端,因此将使用PaddleLite的full api加载原始的Paddle Fluid模型进行预测,即采用CXXConfig配置相关参数。
### 更新支持百度XPU的Paddle Lite库
- 下载PaddleLite源码;
```shell
$ git clone https://github.com/PaddlePaddle/Paddle-Lite.git
$ cd Paddle-Lite
$ git checkout <release-version-tag>
```
- 下载xpu_toolchain for amd64 or arm64(FT-2000+/64);
```shell
$ wget <URL_to_download_xpu_toolchain>
$ tar -xvf output.tar.gz
$ mv output xpu_toolchain
```
- 编译full_publish for amd64 or arm64(FT-2000+/64);
```shell
For amd64,如果报找不到cxx11::符号的编译错误,请将gcc切换到4.8版本。
$ ./lite/tools/build.sh --build_xpu=ON --xpu_sdk_root=./xpu_toolchain x86
For arm64(FT-2000+/64)
$ ./lite/tools/build.sh --arm_os=armlinux --arm_abi=armv8 --arm_lang=gcc --build_extra=ON --build_xpu=ON --xpu_sdk_root=./xpu_toolchain --with_log=ON full_publish
```
- 将编译生成的build.lite.x86/inference_lite_lib/cxx/include替换PaddleLite-linux-demo/libs/PaddleLite/amd64/include目录;
- 将编译生成的build.lite.x86/inference_lite_lib/cxx/include/lib/libpaddle_full_api_shared.so替换PaddleLite-linux-demo/libs/PaddleLite/amd64/lib/libpaddle_full_api_shared.so文件;
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.xpu/cxx/include替换PaddleLite-linux-demo/libs/PaddleLite/arm64/include目录;
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.xpu/cxx/lib/libpaddle_full_api_shared.so替换PaddleLite-linux-demo/libs/PaddleLite/arm64/lib/libpaddle_full_api_shared.so文件。
## 其它说明
- 如需更进一步的了解相关产品的信息,请联系欧阳剑ouyangjian@baidu.com;
- 百度昆仑的研发同学正在持续适配更多的Paddle算子,以便支持更多的Paddle模型。
......@@ -7,7 +7,7 @@ Paddle Lite已支持MTK APU的预测部署。
### 已支持的芯片
- [MT8168](https://www.mediatek.cn/products/tablets/mt8168)/[MT8175](https://www.mediatek.cn/products/tablets/mt8175)
- [MT8168](https://www.mediatek.cn/products/tablets/mt8168)/[MT8175](https://www.mediatek.cn/products/tablets/mt8175)及其他智能芯片
### 已支持的设备
......@@ -148,7 +148,7 @@ $ ./opt --model_dir=mobilenet_v1_int8_224_fluid \
```
- 注意:opt生成的模型只是标记了MTK APU支持的Paddle算子,并没有真正生成MTK APU模型,只有在执行时才会将标记的Paddle算子转成MTK Neuron adapter API调用实现组网,最终生成并执行模型。
### 更新支持RK NPU的Paddle Lite库
### 更新支持MTK APU的Paddle Lite库
- 下载PaddleLite源码和APU DDK;
```shell
......
......@@ -52,10 +52,10 @@ Paddle Lite已支持RK NPU的预测部署。
### 运行图像分类示例程序
-[https://paddlelite-demo.bj.bcebos.com/devices/rockchip/PaddleLite-armlinux-demo.tar.gz](https://paddlelite-demo.bj.bcebos.com/devices/rockchip/PaddleLite-armlinux-demo.tar.gz)下载示例程序,解压后清单如下:
-[https://paddlelite-demo.bj.bcebos.com/devices/rockchip/PaddleLite-linux-demo.tar.gz](https://paddlelite-demo.bj.bcebos.com/devices/rockchip/PaddleLite-linux-demo.tar.gz)下载示例程序,解压后清单如下:
```shell
- PaddleLite-armlinux-demo
- PaddleLite-linux-demo
- image_classification_demo
- assets
- images
......@@ -96,9 +96,9 @@ Paddle Lite已支持RK NPU的预测部署。
- libpaddle_light_api_shared.so
```
- 进入PaddleLite-armlinux-demo/image_classification_demo/shell,直接执行./run.sh arm64即可,注意:run.sh不能在docker环境执行,否则无法找到设备;
- 进入PaddleLite-linux-demo/image_classification_demo/shell,直接执行./run.sh arm64即可,注意:run.sh不能在docker环境执行,否则无法找到设备;
```shell
$ cd PaddleLite-armlinux-demo/image_classification_demo/shell
$ cd PaddleLite-linux-demo/image_classification_demo/shell
$ ./run.sh arm64 # For RK1808 EVB
$ ./run.sh armhf # For RK1806 EVB
...
......@@ -147,10 +147,10 @@ For RK1806 EVB
$ ./lite/tools/build.sh --arm_os=armlinux --arm_abi=armv7 --arm_lang=gcc --build_extra=ON --with_log=ON --build_rknpu=ON --rknpu_ddk_root=./rknpu_ddk full_publish
$ ./lite/tools/build.sh --arm_os=armlinux --arm_abi=armv7 --arm_lang=gcc --build_extra=ON --with_log=ON --build_rknpu=ON --rknpu_ddk_root=./rknpu_ddk tiny_publish
```
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.rknpu/cxx/include替换PaddleLite-armlinux-demo/libs/PaddleLite/arm64/include目录;
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.rknpu/cxx/lib/libpaddle_light_api_shared.so替换PaddleLite-armlinux-demo/libs/PaddleLite/arm64/lib/libpaddle_light_api_shared.so文件;
- 将编译生成的build.lite.armlinux.armv7.gcc/inference_lite_lib.armlinux.armv7.rknpu/cxx/include替换PaddleLite-armlinux-demo/libs/PaddleLite/armhf/include目录;
- 将编译生成的build.lite.armlinux.armv7.gcc/inference_lite_lib.armlinux.armv7.rknpu/cxx/lib/libpaddle_light_api_shared.so替换PaddleLite-armlinux-demo/libs/PaddleLite/armhf/lib/libpaddle_light_api_shared.so文件。
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.rknpu/cxx/include替换PaddleLite-linux-demo/libs/PaddleLite/arm64/include目录;
- 将编译生成的build.lite.armlinux.armv8.gcc/inference_lite_lib.armlinux.armv8.rknpu/cxx/lib/libpaddle_light_api_shared.so替换PaddleLite-linux-demo/libs/PaddleLite/arm64/lib/libpaddle_light_api_shared.so文件;
- 将编译生成的build.lite.armlinux.armv7.gcc/inference_lite_lib.armlinux.armv7.rknpu/cxx/include替换PaddleLite-linux-demo/libs/PaddleLite/armhf/include目录;
- 将编译生成的build.lite.armlinux.armv7.gcc/inference_lite_lib.armlinux.armv7.rknpu/cxx/lib/libpaddle_light_api_shared.so替换PaddleLite-linux-demo/libs/PaddleLite/armhf/lib/libpaddle_light_api_shared.so文件。
## 其它说明
......
......@@ -54,6 +54,7 @@ Welcome to Paddle-Lite's documentation!
demo_guides/opencl
demo_guides/fpga
demo_guides/npu
demo_guides/baidu_xpu
demo_guides/rockchip_npu
demo_guides/mediatek_apu
......
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