view() will try to change the shape of the tensor while keeping the underlying data allocation the same, thus data will be shared between the two tensors. reshape() will create a new underlying memory allocation if necessary.

Let's create a tensor:

```
a = torch.arange(8).reshape(2, 4)
```

The memory is allocated like below (it is *C contiguous* i.e. the rows are stored next to each other):

stride() gives the number of bytes required to go to the next element in each dimension:

```
a.stride()
(4, 1)
```

We want its shape to become (4, 2), we can use view:

```
a.view(4,2)
```

The underlying data allocation has not changed, the tensor is still *C contiguous*:

```
a.view(4, 2).stride()
(2, 1)
```

Let's try with a.t(). Transpose() doesn't modify the underlying memory allocation and therefore a.t() is not contiguous.

```
a.t().is_contiguous()
False
```

Although it is not contiguous, the stride information is sufficient to iterate over the tensor

```
a.t().stride()
(1, 4)
```

view() doesn't work anymore:

```
a.t().view(2, 4)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
RuntimeError: view size is not compatible with input tensor's size and stride (at least one dimension spans across two contiguous subspaces). Use .reshape(...) instead.
```

Below is the shape we wanted to obtain by using view(2, 4):

What would the memory allocation look like?

The stride would be something like (4, 2) but we would have to go back to the begining of the tensor after we reach the end. It doesn't work.

In this case, reshape() would create a new tensor with a different memory allocation to make the transpose contiguous:

Note that we can use view to split the first dimension of the transpose.
Unlike what is said in the accepted and other answers, view() can operate on non-contiguous tensors!

```
a.t().view(2, 2, 2)
```

```
a.t().view(2, 2, 2).stride()
(2, 1, 4)
```

According to the documentation:

For a tensor to be viewed, the new view size must be compatible with
its original size and stride, i.e., each new view dimension must
either be a subspace of an original dimension, or only span across
original dimensions d, d+1, …, d+k that satisfy the following
contiguity-like condition that ∀i=d,…,d+k−1,

stride[i]=stride[i+1]×size[i+1]

Here that's because the first two dimensions after applying view(2, 2, 2) are subspaces of the transpose's first dimension.

For more information about contiguity have a look at my answer in this thread