使用conda tensorflow-gpu包之前还需要安装CUDA吗?
Is it still necessary to install CUDA before using the conda tensorflow-gpu package?
当我通过Conda安装tensorflow-gpu时;它给了我以下输出:
conda install tensorflow-gpu
Collecting package metadata (current_repodata.json): done
Solving environment: done
## Package Plan ##
environment location: /home/psychotechnopath/anaconda3/envs/DeepLearning3.6
added / updated specs:
- tensorflow-gpu
The following packages will be downloaded:
package | build
---------------------------|-----------------
_tflow_select-2.1.0 | gpu 2 KB
cudatoolkit-10.1.243 | h6bb024c_0 347.4 MB
cudnn-7.6.5 | cuda10.1_0 179.9 MB
cupti-10.1.168 | 0 1.4 MB
tensorflow-2.1.0 |gpu_py36h2e5cdaa_0 4 KB
tensorflow-base-2.1.0 |gpu_py36h6c5654b_0 155.9 MB
tensorflow-gpu-2.1.0 | h0d30ee6_0 3 KB
------------------------------------------------------------
Total: 684.7 MB
The following NEW packages will be INSTALLED:
cudatoolkit pkgs/main/linux-64::cudatoolkit-10.1.243-h6bb024c_0
cudnn pkgs/main/linux-64::cudnn-7.6.5-cuda10.1_0
cupti pkgs/main/linux-64::cupti-10.1.168-0
tensorflow-gpu pkgs/main/linux-64::tensorflow-gpu-2.1.0-h0d30ee6_0
我看到安装 tensorflow-gpu 会自动触发 cudatoolkit 和 cudnn 的安装。这是否意味着我不再需要手动安装 CUDA 和 CUDNN 才能使用 tensorflow-gpu? CUDA 的这个 conda 安装在哪里?
我首先以旧方式安装了 CUDA 和 CuDNN(例如,按照这些安装说明:https://docs.nvidia.com/cuda/cuda-installation-guide-linux/index.html)
然后我注意到tensorflow-gpu也在安装cuda和cudnn
我现在安装了两个版本的 CUDA/CuDNN 吗?我该如何检查?
Do i now have two versions of CUDA installed and how do I check this?
没有
conda 安装支持他们提供的 CUDA 加速包所需的最低限度的可再发行库组件。软件包名称 cudatoolkit
完全用词不当。它不是那种东西。尽管它现在的范围比以前有了很大的扩展(实际上是 5 个文件——我认为在某些时候他们一定已经从 NVIDIA 那里获得了许可协议,因为其中一些是't/isn不在官方的“可自由再分发”列表 AFAIK),它基本上仍然只是少数几个库。
您可以自己检查一下:
cat /opt/miniconda3/conda-meta/cudatoolkit-10.1.168-0.json
{
"build": "0",
"build_number": 0,
"channel": "https://repo.anaconda.com/pkgs/main/linux-64",
"constrains": [],
"depends": [],
"extracted_package_dir": "/opt/miniconda3/pkgs/cudatoolkit-10.1.168-0",
"features": "",
"files": [
"lib/cudatoolkit_config.yaml",
"lib/libcublas.so",
"lib/libcublas.so.10",
"lib/libcublas.so.10.2.0.168",
"lib/libcublasLt.so",
"lib/libcublasLt.so.10",
"lib/libcublasLt.so.10.2.0.168",
"lib/libcudart.so",
"lib/libcudart.so.10.1",
"lib/libcudart.so.10.1.168",
"lib/libcufft.so",
"lib/libcufft.so.10",
"lib/libcufft.so.10.1.168",
"lib/libcufftw.so",
"lib/libcufftw.so.10",
"lib/libcufftw.so.10.1.168",
"lib/libcurand.so",
"lib/libcurand.so.10",
"lib/libcurand.so.10.1.168",
"lib/libcusolver.so",
"lib/libcusolver.so.10",
"lib/libcusolver.so.10.1.168",
"lib/libcusparse.so",
"lib/libcusparse.so.10",
"lib/libcusparse.so.10.1.168",
"lib/libdevice.10.bc",
"lib/libnppc.so",
"lib/libnppc.so.10",
"lib/libnppc.so.10.1.168",
"lib/libnppial.so",
"lib/libnppial.so.10",
"lib/libnppial.so.10.1.168",
"lib/libnppicc.so",
"lib/libnppicc.so.10",
"lib/libnppicc.so.10.1.168",
"lib/libnppicom.so",
"lib/libnppicom.so.10",
"lib/libnppicom.so.10.1.168",
"lib/libnppidei.so",
"lib/libnppidei.so.10",
"lib/libnppidei.so.10.1.168",
"lib/libnppif.so",
"lib/libnppif.so.10",
"lib/libnppif.so.10.1.168",
"lib/libnppig.so",
"lib/libnppig.so.10",
"lib/libnppig.so.10.1.168",
"lib/libnppim.so",
"lib/libnppim.so.10",
"lib/libnppim.so.10.1.168",
"lib/libnppist.so",
"lib/libnppist.so.10",
"lib/libnppist.so.10.1.168",
"lib/libnppisu.so",
"lib/libnppisu.so.10",
"lib/libnppisu.so.10.1.168",
"lib/libnppitc.so",
"lib/libnppitc.so.10",
"lib/libnppitc.so.10.1.168",
"lib/libnpps.so",
"lib/libnpps.so.10",
"lib/libnpps.so.10.1.168",
"lib/libnvToolsExt.so",
"lib/libnvToolsExt.so.1",
"lib/libnvToolsExt.so.1.0.0",
"lib/libnvblas.so",
"lib/libnvblas.so.10",
"lib/libnvblas.so.10.2.0.168",
"lib/libnvgraph.so",
"lib/libnvgraph.so.10",
"lib/libnvgraph.so.10.1.168",
"lib/libnvjpeg.so",
"lib/libnvjpeg.so.10",
"lib/libnvjpeg.so.10.1.168",
"lib/libnvrtc-builtins.so",
"lib/libnvrtc-builtins.so.10.1",
"lib/libnvrtc-builtins.so.10.1.168",
"lib/libnvrtc.so",
"lib/libnvrtc.so.10.1",
"lib/libnvrtc.so.10.1.168",
"lib/libnvvm.so",
"lib/libnvvm.so.3",
"lib/libnvvm.so.3.3.0"
]
.....
即你得到的是(记住上面的大多数“文件”只是符号链接)
- CUBLAS 运行时
- CUDA 运行时库
- CUFFT 运行时间
- CUrand 运行时
- CUsparse 运行时间
- CUsolver 运行时
- NPP 运行时
- nvblas 运行时
- NVTX 运行时
- NVgraph 运行时
- NVjpeg 运行时
- NVRTC/NVVM 运行时间
conda 安装的 CUDNN 包是可再发行的二进制发行版,与 NVIDIA 发行的相同——就是两个文件,一个头文件和一个库。
您仍然需要安装受支持的 NVIDIA 驱动程序才能使 conda 安装的 tensorflow 正常工作。
如果您想实际编译和构建 CUDA 代码,您需要安装一个单独的 CUDA 工具包,其中包含 conda 故意从其分发版中省略的所有开发组件。
当我通过Conda安装tensorflow-gpu时;它给了我以下输出:
conda install tensorflow-gpu
Collecting package metadata (current_repodata.json): done
Solving environment: done
## Package Plan ##
environment location: /home/psychotechnopath/anaconda3/envs/DeepLearning3.6
added / updated specs:
- tensorflow-gpu
The following packages will be downloaded:
package | build
---------------------------|-----------------
_tflow_select-2.1.0 | gpu 2 KB
cudatoolkit-10.1.243 | h6bb024c_0 347.4 MB
cudnn-7.6.5 | cuda10.1_0 179.9 MB
cupti-10.1.168 | 0 1.4 MB
tensorflow-2.1.0 |gpu_py36h2e5cdaa_0 4 KB
tensorflow-base-2.1.0 |gpu_py36h6c5654b_0 155.9 MB
tensorflow-gpu-2.1.0 | h0d30ee6_0 3 KB
------------------------------------------------------------
Total: 684.7 MB
The following NEW packages will be INSTALLED:
cudatoolkit pkgs/main/linux-64::cudatoolkit-10.1.243-h6bb024c_0
cudnn pkgs/main/linux-64::cudnn-7.6.5-cuda10.1_0
cupti pkgs/main/linux-64::cupti-10.1.168-0
tensorflow-gpu pkgs/main/linux-64::tensorflow-gpu-2.1.0-h0d30ee6_0
我看到安装 tensorflow-gpu 会自动触发 cudatoolkit 和 cudnn 的安装。这是否意味着我不再需要手动安装 CUDA 和 CUDNN 才能使用 tensorflow-gpu? CUDA 的这个 conda 安装在哪里?
我首先以旧方式安装了 CUDA 和 CuDNN(例如,按照这些安装说明:https://docs.nvidia.com/cuda/cuda-installation-guide-linux/index.html)
然后我注意到tensorflow-gpu也在安装cuda和cudnn
我现在安装了两个版本的 CUDA/CuDNN 吗?我该如何检查?
Do i now have two versions of CUDA installed and how do I check this?
没有
conda 安装支持他们提供的 CUDA 加速包所需的最低限度的可再发行库组件。软件包名称 cudatoolkit
完全用词不当。它不是那种东西。尽管它现在的范围比以前有了很大的扩展(实际上是 5 个文件——我认为在某些时候他们一定已经从 NVIDIA 那里获得了许可协议,因为其中一些是't/isn不在官方的“可自由再分发”列表 AFAIK),它基本上仍然只是少数几个库。
您可以自己检查一下:
cat /opt/miniconda3/conda-meta/cudatoolkit-10.1.168-0.json
{
"build": "0",
"build_number": 0,
"channel": "https://repo.anaconda.com/pkgs/main/linux-64",
"constrains": [],
"depends": [],
"extracted_package_dir": "/opt/miniconda3/pkgs/cudatoolkit-10.1.168-0",
"features": "",
"files": [
"lib/cudatoolkit_config.yaml",
"lib/libcublas.so",
"lib/libcublas.so.10",
"lib/libcublas.so.10.2.0.168",
"lib/libcublasLt.so",
"lib/libcublasLt.so.10",
"lib/libcublasLt.so.10.2.0.168",
"lib/libcudart.so",
"lib/libcudart.so.10.1",
"lib/libcudart.so.10.1.168",
"lib/libcufft.so",
"lib/libcufft.so.10",
"lib/libcufft.so.10.1.168",
"lib/libcufftw.so",
"lib/libcufftw.so.10",
"lib/libcufftw.so.10.1.168",
"lib/libcurand.so",
"lib/libcurand.so.10",
"lib/libcurand.so.10.1.168",
"lib/libcusolver.so",
"lib/libcusolver.so.10",
"lib/libcusolver.so.10.1.168",
"lib/libcusparse.so",
"lib/libcusparse.so.10",
"lib/libcusparse.so.10.1.168",
"lib/libdevice.10.bc",
"lib/libnppc.so",
"lib/libnppc.so.10",
"lib/libnppc.so.10.1.168",
"lib/libnppial.so",
"lib/libnppial.so.10",
"lib/libnppial.so.10.1.168",
"lib/libnppicc.so",
"lib/libnppicc.so.10",
"lib/libnppicc.so.10.1.168",
"lib/libnppicom.so",
"lib/libnppicom.so.10",
"lib/libnppicom.so.10.1.168",
"lib/libnppidei.so",
"lib/libnppidei.so.10",
"lib/libnppidei.so.10.1.168",
"lib/libnppif.so",
"lib/libnppif.so.10",
"lib/libnppif.so.10.1.168",
"lib/libnppig.so",
"lib/libnppig.so.10",
"lib/libnppig.so.10.1.168",
"lib/libnppim.so",
"lib/libnppim.so.10",
"lib/libnppim.so.10.1.168",
"lib/libnppist.so",
"lib/libnppist.so.10",
"lib/libnppist.so.10.1.168",
"lib/libnppisu.so",
"lib/libnppisu.so.10",
"lib/libnppisu.so.10.1.168",
"lib/libnppitc.so",
"lib/libnppitc.so.10",
"lib/libnppitc.so.10.1.168",
"lib/libnpps.so",
"lib/libnpps.so.10",
"lib/libnpps.so.10.1.168",
"lib/libnvToolsExt.so",
"lib/libnvToolsExt.so.1",
"lib/libnvToolsExt.so.1.0.0",
"lib/libnvblas.so",
"lib/libnvblas.so.10",
"lib/libnvblas.so.10.2.0.168",
"lib/libnvgraph.so",
"lib/libnvgraph.so.10",
"lib/libnvgraph.so.10.1.168",
"lib/libnvjpeg.so",
"lib/libnvjpeg.so.10",
"lib/libnvjpeg.so.10.1.168",
"lib/libnvrtc-builtins.so",
"lib/libnvrtc-builtins.so.10.1",
"lib/libnvrtc-builtins.so.10.1.168",
"lib/libnvrtc.so",
"lib/libnvrtc.so.10.1",
"lib/libnvrtc.so.10.1.168",
"lib/libnvvm.so",
"lib/libnvvm.so.3",
"lib/libnvvm.so.3.3.0"
]
.....
即你得到的是(记住上面的大多数“文件”只是符号链接)
- CUBLAS 运行时
- CUDA 运行时库
- CUFFT 运行时间
- CUrand 运行时
- CUsparse 运行时间
- CUsolver 运行时
- NPP 运行时
- nvblas 运行时
- NVTX 运行时
- NVgraph 运行时
- NVjpeg 运行时
- NVRTC/NVVM 运行时间
conda 安装的 CUDNN 包是可再发行的二进制发行版,与 NVIDIA 发行的相同——就是两个文件,一个头文件和一个库。
您仍然需要安装受支持的 NVIDIA 驱动程序才能使 conda 安装的 tensorflow 正常工作。
如果您想实际编译和构建 CUDA 代码,您需要安装一个单独的 CUDA 工具包,其中包含 conda 故意从其分发版中省略的所有开发组件。