Since Elixir strings are just binaries, you could probably use the erlang `:binary.decode_unsigned`

function to convert binary digits to integers

From the documentation
http://erlang.org/doc/man/binary.html#decode_unsigned-1

```
iex> :binary.decode_unsigned("hello")
448378203247
iex> :binary.encode_unsigned(448378203247)
"hello"
```

Essentially, the ascii values of `hello`

is

```
<<104, 101, 108, 108, 111>>
```

when converted from decimal to hex can be written as

```
<<68, 65, 6C, 6C, 6F>>
```

or in binary as

```
<01101000, 01100101, 01101100, 01101100, 01101111>
```

which is a series of bytes stored as

`68656C6C6F`

in hex or

`01101000_01100101_01101100_01101100_01101111`

in binary

whose decimal(base-10) value would be `448378203247`

```
iex> Integer.to_string(448378203247, 16)
"68656C6C6F"
iex> Integer.to_string(448378203247, 2)
"110100001100101011011000110110001101111"
# each byte separated by _ is
# "1101000_01100101_01101100_01101100_01101111"
# missing a leading zero at the left, which doesn't change the value
```

edit: added binary example,

also, two hex digits can be used to perfectly denote a byte(4 bits needed to encode 16 values, 0 to 15)
which is why when we denote in hex, we can just concatenate the hex values and not when they are in decimal(base-10) notation

From The wiki for hexadecimal

Hexadecimal numerals are widely used by computer system designers and programmers, as they provide a more human-friendly representation of binary-coded values. Each hexadecimal digit represents four binary digits, also known as a nibble, which is half a byte. For example, a single byte can have values ranging from 0000 0000 to 1111 1111 in binary form, which can be more conveniently represented as 00 to FF in hexadecimal.