# Tensor Metadate

In this lesson, we show how to get the metadata of a tensor.

## Getting type from `dtype`

The `dtype`

attribute of a PyTorch tensor can be used to get its type information.

The code below creates a tensor with the float type and prints the type information from `dtype`

. You can try the code at the end of this lesson.

```
a = torch.tensor([1, 2, 3], dtype=torch.float)
print(a.dtype)
```

## Getting size from `shape`

and `size()`

PyTorch provides two ways to get the tensor size; these are `shape`

, an attribute, and `size()`

, which is a function.

```
a = torch.ones((3, 4))
print(a.shape)
print(a.size())
```

## Getting the number of dim

As shown in the code below, the number of dimensions of a tensor in Pytorch can be obtained using the attribute `ndim`

or using the function `dim()`

or its alias `ndimension()`

.

```
a = torch.ones((3, 4, 6))
print(a.ndim)
print(a.dim())
```

## Getting the number of elements

`PyTorch`

provides two ways to get the number of elements of a tensor, `nelement()`

and `numel()`

. Both of them are functions.

```
a = torch.ones((3, 4, 6))
print(a.numel())
```

## Checking if the tensor is on GPU

`is_cuda`

is an attribute of a tensor. It is true if the tensor is stored on the GPU. Otherwise, it will be set to false.

## Getting the device

`device`

is an attribute of a tensor. It contains the information of the device being used by the tensor.

```
a = torch.ones((3, 4, 6))
print(a.device)
```

import torcha = torch.randn((2, 3, 4), dtype=torch.float)print("The dtype of tensor a is {}.\n".format(a.dtype))print("The size of tensor a is {}.".format(a.size()))print("The shape of tensor a is {}.\n".format(a.shape))print("The dims of tensor a is {}.".format(a.dim()))print("The dims of tensor a is {}.\n".format(a.ndim))print("The number of element of tensor a is {}.\n".format(a.numel()))print("The GPU is {}.\n".format(a.is_cuda))print("The device is {}.".format(a.device))