I am a bit confused about instruction sets. There are Thumb, ARM and Thumb 2. From what I have read Thumb instructions are all 16-bit but inside the ARMv7M user manual (page vi) there are Thumb 16-bit and Thumb 32-bit instructions mentioned.

Now I have to overcome this confusion. It is said that Thumb 2 supports 16-bit and 32-bit instructions. So is ARMv7M in fact supporting Thumb 2 instructions and not just Thumb?

One more thing. Can I say that Thumb (32-bit) is the same as ARM instructions which are allso 32-bit?

  • Can I say that Thumb (32-bit) is the same as ARM instructions which are also 32-bit? The answer to that is no. Thumb2 is a mix of 32/16bits with different encodings than straight ARM 32bit. – artless noise Feb 23 '15 at 16:12
up vote 47 down vote accepted

Oh, ARM and their silly naming...

It's a common misconception, but officially there's no such thing as a "Thumb-2 instruction set".

Ignoring ARMv8 (where everything is renamed and AArch64 complicates things), from ARMv4T to ARMv7-A there are two instruction sets: ARM and Thumb. They are both "32-bit" in the sense that they operate on up-to-32-bit-wide data in 32-bit-wide registers with 32-bit addresses. In fact, where they overlap they represent the exact same instructions - it is only the instruction encoding which differs, and the CPU effectively just has two different decode front-ends to its pipeline which it can switch between. For clarity, I shall now deliberately avoid the terms "32-bit" and "16-bit"...

ARM instructions have fixed-width 4-byte encodings which require 4-byte alignment. Thumb instructions have variable-length (2 or 4-byte, now known as "narrow" and "wide") encodings requiring 2-byte alignment - most instructions have 2-byte encodings, but bl and blx have always had 4-byte encodings*. The really confusing bit came in ARMv6T2, which introduced "Thumb-2 Technology". Thumb-2 encompassed not just adding a load more instructions to Thumb (mostly with 4-byte encodings) to bring it almost to parity with ARM, but also extending the execution state to allow for conditional execution of most Thumb instructions, and finally introducing a whole new assembly syntax (UAL, "Unified Assembly Language") which replaced the previous separate ARM and Thumb syntaxes and allowed writing code once and assembling it to either instruction set without modification.

The Cortex-M architectures only implement the Thumb instruction set - ARMv7-M (Cortex-M3/M4/M7) supports most of "Thumb-2 Technology", including conditional execution and encodings for VFP instructions, whereas ARMv6-M (Cortex-M0/M0+) only uses Thumb-2 in the form of a handful of 4-byte system instructions.

Thus, the new 4-byte encodings (and those added later in ARMv7 revisions) are still Thumb instructions - the "Thumb-2" aspect of them is that they can have 4-byte encodings, and that they can (mostly) be conditionally executed via it (and, I suppose, that their menmonics are only defined in UAL).

* Before ARMv6T2, it was actually a complicated implementation detail as to whether bl (or blx) was executed as a 4-byte instruction or as a pair of 2-byte instructions. The architectural definition was the latter, but since they could only ever be executed as a pair in sequence there was little to lose (other than the ability to take an interrupt halfway through) by fusing them into a single instruction for performance reasons. ARMv6T2 just redefined things in terms of the fused single-instruction execution

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    As well, within Thumb2, there are op-codes that have been added over time. So not all Thumb2 is the same. From the main CPU perspective, there is no mode known as Thumb2 (I think that is what you mean by 'official'?); certainly ARM holding seems to have an idea of Thumb2 as being mixed 16/32 bit encodings, but other than that it is nebulous. – artless noise Feb 23 '15 at 16:10
  • Thank you! This sorts things out for me. Anyway I went to an Embedded World fair held in Nürnberg two days ago and it was awesome. I got so much info on ARM. Amazing event! – 71GA Feb 26 '15 at 7:34
  • So does parameter -mthumb-interwork actually alows combining of (a) Thumb16 with Thumb32 or (b) Thumb16&32 with ARM? Curently I am assembling using -mthumb parameter and in source file I am using .syntax unified in order for assembler to alow usage of Thumb16 and Thumb32 encodings. But could I remove .syntax unified from my source file and use -mthumb-interwork parameter at assemble time instead? Documentation is not perfectly clear about that... – 71GA Jun 15 at 22:04

In addition to Notlikethat's answer, and as it hints at, ARMv8 introduces some new terminology to try to reduce the confusion (of course adding even more new terminology):

There is a 32-bit execution state (AArch32) and a 64-bit execution state (AArch64).

The 32-bit execution state supports two different instruction sets: T32 ("Thumb") and A32 ("ARM"). The 64-bit execution state supports only one instruction set - A64.

All A64, like all A32, instructions are 32-bit (4 byte) in size, requiring 4-byte alignment.

Many/most A64 instructions can operate on both 32-bit and 64-bit registers (or arguably 32-bit or 64-bit views of the same underlying 64-bit register).

All ARMv8 processors (like all ARMv7 processors) support Thumb-2 instructions in the T32 instruction set.

  • I don't have enough reputation to comment on unixsmurf's answer directly but it needs a tweak. An ARMv8A processor core has the choice to not implement aarch32 state at all. Such a core would not support T32 nor A32 instructions. If a given processor core does implement the aarch32 state (like ARM ltds' cortex-A53,A57, and A72) then it also supports Thumb-2 mode in that state. – wmills Mar 1 '16 at 18:57
  • @wmills: you just have commented on it directly :) You could add your own clarification as an answer. – unixsmurf Mar 2 '16 at 19:22
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    @wmills Indeed, since this answer was written, some of them don't support AArch64 either ;) – Notlikethat Mar 16 '16 at 22:51

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