pytorch指定GPU
在用pytorch写CNN的时候,发现一运行程序就卡住,然后cpu占用率100%,nvidia-smi 查看显卡发现并没有使用GPU。所以考虑将模型和输入数据及标签指定到gpu上。
pytorch中的Tensor和Module可以指定gpu运行,并且可以指定在哪一块gpu上运行,方法非常简单,就是直接调用Tensor类和Module类中的 .cuda() 方法。
import torch from PIL import Image import torch.nn as nn import numpy as np from torch.autograd import Variable # 先看看有没有显卡 torch.cuda.is_available() Out[16]: True # 嗯,有显卡,可以指定,先生成一个Tensor a = torch.Tensor(3,5) a Out[13]: .00000e-05 * 0.0000 0.0000 2.0419 0.0000 2.0420 0.0000 0.0000 0.0000 0.0000 0.0000 0.0132 0.0000 0.0131 0.0000 0.0000 [torch.FloatTensor of size 3x5] a.cuda() Out[14]: .00000e-05 * 0.0000 0.0000 2.0419 0.0000 2.0420 0.0000 0.0000 0.0000 0.0000 0.0000 0.0132 0.0000 0.0131 0.0000 0.0000 [torch.cuda.FloatTensor of size 3x5 (GPU 0)] # 可以看到上面显示了(GPU 0),也就是说这个Tensor是在第一个GPU上的 a.cuda(1) Traceback (most recent call last): File "<ipython-input-15-ef42531f63ca>", line 1, in <module> a.cuda(1) File "/home/chia/anaconda2/lib/python2.7/site-packages/torch/_utils.py", line 57, in _cuda with torch.cuda.device(device): File "/home/chia/anaconda2/lib/python2.7/site-packages/torch/cuda/__init__.py", line 127, in __enter__ torch._C._cuda_setDevice(self.idx) RuntimeError: cuda runtime error (10) : invalid device ordinal at torch/csrc/cuda/Module.cpp:84 # 这个报错了,因为只有一块GPU,所以指定cuda(1)无效。
同样滴,Variable变量和Module类型的模型也可以指定放在哪块GPU上
v = Variable(a) v Out[18]: Variable containing: .00000e-05 * 0.0000 0.0000 2.0419 0.0000 2.0420 0.0000 0.0000 0.0000 0.0000 0.0000 0.0132 0.0000 0.0131 0.0000 0.0000 [torch.FloatTensor of size 3x5] v.cuda(0) Out[19]: Variable containing: .00000e-05 * 0.0000 0.0000 2.0419 0.0000 2.0420 0.0000 0.0000 0.0000 0.0000 0.0000 0.0132 0.0000 0.0131 0.0000 0.0000 [torch.cuda.FloatTensor of size 3x5 (GPU 0)] model = DenoiseCNN() model Out[22]: DenoiseCNN ( (hid_layer): Sequential ( (0): Conv2d(32, 32, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) (1): BatchNorm2d(32, eps=1e-05, momentum=0.1, affine=True) (2): LeakyReLU (0.2) ) (first_layer): Sequential ( (0): Conv2d(1, 32, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) (1): LeakyReLU (0.2) ) (last_layer): Sequential ( (0): Conv2d(32, 1, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) ) ) model.cuda(0) Out[23]: DenoiseCNN ( (hid_layer): Sequential ( (0): Conv2d(32, 32, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) (1): BatchNorm2d(32, eps=1e-05, momentum=0.1, affine=True) (2): LeakyReLU (0.2) ) (first_layer): Sequential ( (0): Conv2d(1, 32, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) (1): LeakyReLU (0.2) ) (last_layer): Sequential ( (0): Conv2d(32, 1, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1)) ) )
这样看不出来Module的变化,考虑看一下Module中的参数在哪里
for i, para in enumerate(model.parameters()): if i < 2: print para Parameter containing: (0 ,0 ,.,.) = -3.1792e-02 -4.6396e-02 -4.3472e-02 3.4903e-02 1.8558e-02 5.3955e-03 2.4986e-02 3.8061e-02 -1.6658e-02 (0 ,1 ,.,.) = -3.5041e-02 -3.6286e-02 -3.0819e-02 1.0683e-02 9.0773e-03 -2.5379e-02 2.9508e-03 2.8774e-02 7.4632e-04 (0 ,2 ,.,.) = -4.6986e-02 -5.1183e-02 8.4346e-04 -6.6864e-03 -2.8816e-02 1.2566e-02 2.1682e-02 2.5485e-02 -7.2600e-03 ... (0 ,29,.,.) = -5.5289e-03 -2.6012e-02 -2.7771e-02 2.7528e-02 3.0460e-02 -1.2829e-02 7.3387e-03 5.2633e-02 5.0601e-02 (0 ,30,.,.) = -3.5881e-02 9.7000e-03 -3.3692e-02 1.6257e-03 -4.0113e-02 3.5300e-02 -2.1399e-03 3.0934e-02 -2.7513e-02 (0 ,31,.,.) = -2.7492e-02 2.5803e-02 5.2171e-02 -2.4082e-02 3.1887e-02 1.1292e-02 5.8893e-02 -3.5452e-02 -1.2115e-02 ⋮ (1 ,0 ,.,.) = 5.0664e-02 -4.1085e-02 2.9089e-02 2.1555e-02 5.7176e-02 -7.5013e-03 3.5075e-02 -1.6610e-02 3.4904e-02 (1 ,1 ,.,.) = 4.6716e-02 -1.2552e-02 -3.8132e-02 -2.9573e-02 -3.5008e-02 -4.2891e-02 9.5230e-03 -4.8599e-02 2.5357e-02 (1 ,2 ,.,.) = -1.7859e-02 1.3442e-02 1.9493e-02 1.8434e-02 1.4884e-03 8.6479e-03 -7.1610e-03 3.5724e-02 6.2249e-03 ... (1 ,29,.,.) = -3.3194e-02 1.6803e-05 2.3405e-02 -5.2223e-02 6.5680e-03 -1.8427e-02 -1.4476e-02 -1.5434e-02 -2.3108e-02 (1 ,30,.,.) = 2.3479e-02 1.2840e-02 4.5949e-02 4.4833e-02 4.9272e-02 -3.7634e-02 4.2787e-02 8.5841e-04 1.2332e-02 (1 ,31,.,.) = 4.1723e-02 -2.5295e-02 1.1326e-02 -5.1707e-02 5.3201e-02 4.8928e-02 -1.6735e-02 -8.7450e-03 -4.9530e-02 ⋮ (2 ,0 ,.,.) = -3.1728e-02 -3.9757e-02 6.5561e-03 -1.7731e-02 2.8615e-02 2.7457e-02 -2.1817e-03 -4.2405e-02 -3.6126e-03 (2 ,1 ,.,.) = 3.2434e-02 -1.1574e-03 1.3353e-02 -2.3069e-02 4.9532e-02 1.6768e-02 -3.5563e-02 -4.4264e-02 -2.0571e-02 (2 ,2 ,.,.) = 7.4980e-03 -5.7412e-03 -3.0638e-03 1.1812e-02 -1.7851e-02 4.2195e-04 3.9753e-02 3.8771e-02 4.3166e-03 ... (2 ,29,.,.) = -5.0798e-02 4.3651e-02 -2.3798e-02 -6.0957e-03 -5.6953e-02 1.2583e-02 -2.3450e-02 -4.7136e-02 5.2458e-02 (2 ,30,.,.) = 1.5088e-02 2.6097e-02 4.9392e-03 -9.0372e-03 -5.3276e-02 -1.7824e-02 3.2060e-03 5.8820e-02 1.3459e-02 (2 ,31,.,.) = -5.2557e-03 -4.9638e-02 -7.5522e-03 2.8668e-02 -3.9617e-02 -1.8111e-02 -4.0412e-02 1.1320e-02 -2.4005e-02 ⋮ (29,0 ,.,.) = -1.4393e-02 2.1343e-02 5.1940e-02 5.7449e-02 3.1327e-02 -1.0721e-02 -1.0184e-02 -6.2289e-03 3.9823e-02 (29,1 ,.,.) = -4.2240e-03 5.8135e-02 5.2816e-02 -4.9888e-02 3.3972e-02 4.3127e-02 -2.3355e-02 -5.5401e-02 3.4952e-02 (29,2 ,.,.) = 4.0336e-02 7.6532e-03 5.4083e-02 -2.7456e-02 3.9090e-02 4.4008e-02 -2.0424e-02 -5.8922e-02 -4.4759e-03 ... (29,29,.,.) = 8.8037e-03 1.0347e-02 -2.2285e-02 -1.0538e-02 -3.2981e-02 2.2300e-02 -2.7337e-02 5.3113e-02 5.4608e-02 (29,30,.,.) = 3.1429e-02 5.2024e-03 -1.3882e-02 -3.3123e-02 -2.7633e-03 1.9007e-02 -2.9795e-02 3.7551e-02 5.6486e-02 (29,31,.,.) = 2.0140e-02 1.8530e-02 7.4208e-03 2.7311e-02 5.3581e-02 -2.5553e-02 -1.7285e-02 1.8722e-02 4.0104e-02 ⋮ (30,0 ,.,.) = 5.2750e-02 4.5757e-03 -5.3894e-02 -3.9297e-02 3.2918e-02 2.3571e-02 -1.1806e-02 1.6091e-02 3.3755e-04 (30,1 ,.,.) = 4.2858e-02 -5.2211e-02 -3.5660e-02 1.4807e-02 -5.8873e-02 5.5535e-02 4.9854e-02 2.2946e-02 4.0968e-03 (30,2 ,.,.) = 3.0378e-02 2.1315e-02 9.1700e-03 3.6277e-02 -4.0734e-02 4.8175e-02 3.0748e-02 -2.7425e-02 -1.7741e-02 ... (30,29,.,.) = 3.1883e-02 2.5012e-02 2.8504e-02 -1.3538e-02 3.5570e-02 -2.0261e-02 -1.5959e-02 3.3373e-02 8.3261e-03 (30,30,.,.) = 2.7152e-02 -5.6752e-02 2.2697e-02 1.2614e-02 -2.4174e-02 -2.5058e-02 1.8737e-02 -1.3581e-03 -3.7116e-02 (30,31,.,.) = -4.3278e-02 2.5873e-02 -1.6677e-02 3.9483e-02 5.7898e-02 -4.1450e-02 -5.8218e-02 -3.0660e-02 -4.2161e-02 ⋮ (31,0 ,.,.) = 1.3370e-02 -1.4191e-02 -2.2524e-02 2.1772e-02 -2.2440e-02 -3.0512e-03 3.4139e-02 -1.9043e-02 1.1289e-02 (31,1 ,.,.) = -5.1293e-02 -5.2802e-02 1.7022e-02 5.1031e-02 -1.0345e-02 -4.4780e-02 -4.9422e-02 4.7709e-02 -2.1215e-02 (31,2 ,.,.) = 2.2289e-02 -2.1746e-02 -5.3192e-02 2.6651e-02 -1.6531e-02 2.2640e-02 1.4012e-02 1.1405e-02 -1.4809e-02 ... (31,29,.,.) = 2.5505e-03 2.4052e-02 -4.7662e-02 1.6068e-02 -4.2278e-02 -2.4670e-02 -1.4684e-02 -3.8222e-02 -5.0006e-02 (31,30,.,.) = -4.9350e-02 4.7564e-02 -7.3479e-03 2.6490e-02 -1.1745e-02 3.4324e-02 4.2650e-02 -5.4633e-02 9.4581e-03 (31,31,.,.) = -3.2695e-02 -2.8899e-02 1.5543e-02 -5.3662e-02 5.0727e-02 3.5950e-02 4.6130e-02 -4.4754e-02 -4.5647e-02 [torch.cuda.FloatTensor of size 32x32x3x3 (GPU 0)] Parameter containing: .00000e-02 * -1.2723 -5.2970 -3.4638 -1.5302 0.7641 5.7516 -4.8427 -0.7230 4.5940 -4.1709 4.8093 -4.7249 -2.2756 -5.5165 5.1259 -2.4693 1.8527 -0.4210 -2.0518 -3.8124 -4.6195 -4.3019 -0.8631 -0.4400 5.4604 -5.5597 1.5557 4.2336 3.9482 -1.4457 2.6124 -1.8218 [torch.cuda.FloatTensor of size 32 (GPU 0)]
可以看出,模型的参变量是放在GPU上的。
通过指定了gpu后,就可以使用gpu来训练模型了~美滋滋
以上这篇在pytorch中为Module和Tensor指定GPU的例子就是小编分享给大家的全部内容了,希望能给大家一个参考,也希望大家多多支持亿速云。
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