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I'm planning on going into a Computer Engineering program in a year, and I'd like to try out some assembly programming. I do plan on trying out C as well, but I wanna start with assembly. So any recommendations on what to use? Some resources would be greatly appreciated too. :)

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closed as not constructive by templatetypedef, Tim Post Sep 17 '11 at 22:34

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5 Answers

I'd steer clear of GNU as (gas), it wasn't meant to be used directly as a programming language and updates will break your programs (voice of experience). nasm is fine, as is (so I've heard) fasm. It might also be useful to get a Microchip dev kit (or any other microcontroller) and program that in assembly.

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I strongly discourage learning x86 assembler first. There are much better instruction sets and also better ones for learning.

I have created a couple of instruction set simulators specifically for these kinds of educational purposes. Both at github one project is thumbulator the other mspulator.

The msp430 from TI (texas instruments) is a good, simple, instruction set. A good mix of past and present, good instruction set for compilers, etc. With any instruction set you want to download the documentation from the vendor that makes that chip or makes that processor core. In this case ti.com. You first need the document that describes the architecture/processor, sometimes this is in a datasheet, sometimes in a users manual or programmers reference manual. Depends on the vendor as to what they call it. The msp430 and microchip pic have good descriptions of the instruction set on wikipedia, but architecture is not covered enough. Good as a reference for folks with a lot of low level experience but not for first time learning. binutils (gas) builds for the msp430, pretty easy to build or just go to mspgcc4.sf.net, download and run the script and you will get assembler, linker and compiler tools.

The ARM architecture is another good one to learn, more features and more complicated than the msp430 or microchip PIC. The thing about ARM is that you probably already own many to dozens of devices that contain an ARM, nobody else comes close in the business. So pretty good instruction set, free tools, good docs, etc. They dont sell chips though only cores and each vendor that uses the core wraps it in their secret sauce to make it a product so after you learn the basics of the instruction set the bulk of the education is continuously learning each new vendors peripherals, boot schemes, etc. A 16 bit subset of this instruction set is called thumb, and that is what my simulator is based on. A bit more digestable. There is something called thumb2 now in some of the cores and it thumb plus more instructions. Thumb2 is comperable to the ARM instruction set in terms of flexibility so I would stick with the original thumb. For ARM you need the ARM ARM (ARM Architecture Reference Manual). That has everything you need to get started. Binutils also supports ARM and it is easy to build an ARM binutils but it is even easier to just go to Codesourcery and download their lite version.

I recommend learning a few different instruction sets, after the second or third the light bulb will go off showing the similarities, load, store, alu operations, and some others. Each tries to tune for something, size or speed or whatever so one might only be able to shift one bit per instruction and another can do multiple bits or shift both ways or whatever. Having this understanding of what goes on under the hood will give you a great advantage when learning C and other much higher programming languages. Percentage wise almost nobody programs in assembler, most folks that do use it will use it to improve the performance of a higher level language like C. Write in the higher level then if you have a bottleneck you cannot resolve in that language then drop down to some assembler routines. And sometimes those routines start with the compiled C code then repaired by hand (sometimes just written from scratch). Most processors take a little assembler up from to boot so there are still a lot of us out there still writing production assembler, compared to the Java/Ruby/Python, etc developers the percentage is very small.

Is Computer Engineering one of those majors that is a mix of Computer Science and Electrical Engineering? If so I think assembler then C will be extremely valuable for you. And from the digital electrical engineering side assembler is still fairly high level, you will hopefully get to see or create the internals of a processor and watch the code execute at the gate or signal level. For that level the microchip PIC is a good choice, a very simple instruction set, almost no addressing modes, easy to visualize how it operates internally. And a good sized following so there are tools out there (not binutils or gcc but others that can be had for free).

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In particular both with thumb and msp430 if you want to run on hardware an msp430 development platform can be had for $5 and st now has an stm32 discovery board for just over $10 with a thumb/thumb2 capable ARM core. –  dwelch Mar 11 '11 at 18:29
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Don't spend your effort on a desktop CPU assembly language. The smaller and most constricted and more wide-use the CPU, the more you will learn, and the more your new knowledge will be valued.

You'll have a hard time writing something smaller or faster than a C optimizer for larger CPUs, but an ability to save bytes and cycles here and there while keeping your code clear will be quite appreciated in the emerging world of pervasively embedded computers.

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C is a lot more usefull in real life than assembly.

I'd recommend using GCC. You can also use gcc to only compile into assembler (-S flag). I recommend also disabling optimization (-O0) and using an older architecture (easier to read, -mtune=i386)

GCC can also compile AT&T style assembler. For intel/x86 style assembler you need a different one like nasm.

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