In x86 terminology/documentation, a "word" is 16 bits because x86 evolved out of 16-bit 8086. Changing the meaning of the term as extensions were added would have just been confusing, because Intel still had to document 16-bit mode and everything, and instruction mnemonics like
cwd (sign-extend word to dword) bake the terminology into the ISA.
- x86 word = 2 bytes
- x86 dword = 4 bytes (double word)
- x86 qword = 8 bytes (quad word)
- x86 double-quad or xmmword = 16 bytes, e.g.
movdqa xmm0, [rdi].
Also in the
cqo mnemonic, oct-word. (Sign-extend RAX into RDX:RAX, e.g. before
And then we have fun instruction like
punpcklqdq: shuffle together two qwords into a dqword, or
pclmulqdq for carry-less multiplication of qwords, producing a dq full result. But beyond that, SIMD mnemonics tend to be AVX
vextracti128 or AVX512 (with optional per-element masking)
vextractf64x4 to extract the high 256 bits of a ZMM register.
Not to mention stuff like "tbyte" = 10 byte x87 extended-precision float; x86 is weird and not everything is a power of 2. Also 48-bit seg:off 16:32 far pointers in Protected mode. (Basically never used, just the 32-bit offset part.)
Most other 64-bit ISAs evolved out of 32-bit ISAs (AArch64, MIPS64, PowerPC64, etc.), or were 64-bit from the start (Alpha), so "word" means 32 bits in that context.
- 32-bit word = 4 bytes
- dword = 8 bytes (double word), e.g. MIPS
daddu is 64-bit integer add
- qword = 16 bytes (quad word), if supported at all.
A "word" doesn't mean 64 bits on any 64-bit machine I've heard of. Even DEC Alpha AXP, which was designed from the ground up to be aggressively 64-bit, uses 32-bit instruction words. IIRC, the manual calls a word 32-bit bits.
Being able to load 64-bits into an integer register with a single instruction does not make that the "word size". Bitness and word size don't have hard specific technical meanings; most CPUs have multiple different sizes internally. (e.g. 64 byte buses between L2 and L1d cache on Intel since Haswell, along with 32-byte SIMD load/store.)
So it's basically up to the CPU vendor's documentation authors to choose what "word" (and thus dword / qword) mean for their ISA.
Fun fact: SPARC64 talks about "short word" (32 bits) vs. "long word" (64 bits), rather than word / double-word. I don't know if just "word" without any qualifier has any meaning in 64-bit SPARC documentation.