byte keyword in the asm source sets the operand-size attribute of the instruction. In machine code, that would be implied by the numeric opcode, or for 16/32/64-bit operand-size, by the current CPU mode and prefixes for the non-byte opcode. Intel's manual documents the machine-code forms, not asm source syntax.
See the following re: how that gets encoded into machine code.
This is why assemblers have manuals, too, separate from the ISA manual.
For example, NASM's manual, Chapter 3: The NASM Language
3.1 Layout of a NASM Source Line describes the syntax layout of a mnemonic and operands. Unfortunately that section neglects to mention the overrides you can put in front of operands, only the prefixes like
o16 you can put in front of the mnemonic! (As a clunkier manual way to specify the operand-size.)
The manual does has examples of usage of operand-size overrides in multiple places, e.g. in 2.2 Quick Start for MASM Users it points out that NASM needs
mov word [var], 2 even if var is
var dw 0 which in MASM would magically imply an operand-size for that instruction. And mention of the same specifiers when used with
strict to force the encoding of the immediate, not just the operand-size. e.g.
add ecx, strict dword 123 forces the
add r/m32, imm32 form, while
add ecx, dword 123 still allows the
add r/m32, imm8 form. (https://www.felixcloutier.com/x86/add)
Some other x86 assemblers, like GAS and clang/LLVM, by default use AT&T syntax that's very different from what Intel manuals use to talk about instructions, where operand-size is specified (if needed) by a suffix on the instruction mnemonic, like
movb $'a', (%rdi) instead of MASM
mov byte ptr [rdi], 'a' (note the extra
ptr keyword) or NASM
mov byte [rdi], 'a'
Assembly syntax depends on the tool, not the ISA. Intel's manuals, especially vol.2, the part that lists every available instruction, do not specify the syntax details of how to specify operand-size in asm source when it would be ambiguous.
In asm source, a register can imply operand-size
For instructions where both operands must be the same size, a register operand implies the operand-size in asm source syntax, so you don't need to specify it. e.g.
add eax, [rdi] doesn't need to be
add eax, dword [rdi].
But mov-immediate to memory (or any other
op mem,imm instruction) are ambiguous, as are one-operand memory instructions like
inc [mem], and the rare instructions where operands don't have to be the same size like
shl [rdi], cl (destination size could be b/w/d/q) or
movzx eax, [rdi] (source size could be byte or word)
See When do I need to specify the size of the operand in Assembly?
Good assemblers like NASM will error on that ambiguity. Less-good assemblers will sometimes just pick a default. e.g. GAS picks dword for instructions other than MOV, e.g.
add $1, (%rdi), and only recently even added a warning about that!
[rdi + rax] specifies 64-bit address-size, while
[edi + eax] would be 32-bit address-size. The default address-size (in asm source) for something like
 is the bitness of the current mode, i.e. not using a
67 address-size prefix in the machine code.
Again, this is 100% about asm source-level syntax. Encoding an instruction into machine code for a certain mode necessarily implies an operand-size.
That's why you need to tell the assembler what mode the CPU will be decoding in. e.g. with NASM
bits 32 if you're making a flat binary or switching modes in a bootloader. Or more normally by assembling with
nasm -felf64 to make a 64-bit object file. In that case,
bits 32 would let you put mismatched machine code into the wrong object file, instead of causing an error at assemble time from
push ebx not being encodeable for 64-bit mode.