The difference lies in their exact-ness and availability.

The doc here says:

unsigned integer type with width of **exactly** 8, 16, 32 and 64 bits respectively (**provided only if the implementation directly supports the type**):

```
uint8_t
uint16_t
uint32_t
uint64_t
```

And

fastest unsigned unsigned integer type with width of **at least** 8, 16, 32 and 64 bits respectively

```
uint_fast8_t
uint_fast16_t
uint_fast32_t
uint_fast64_t
```

So the difference is pretty much clear that `uint32_t`

is a type which has **exactly** `32`

bits, and an implementation should provide it *only if* it has type with *exactly* 32 bits, and then it can typedef that type as `uint32_t`

. This means, `uint32_t`

may or may not be *available*.

On the other hand, `uint_fast32_t`

is a type which has **at least** 32 bits, which also means, if an implementation may typedef `uint32_t`

as `uint_fast32_t`

**if** it provides `uint32_t`

. If it doesn't provide `uint32_t`

, then `uint_fast32_t`

could be a typedef of any type which has at least `32`

bits.