I am new to Assembly language. I was reading about MIPS architecture and I am stuck with Jump Target Address and Branch Target Address and how to calculate each of them.
I would be very thankful if anyone can help me out. Thanks in advance.
1. Branch Address Calculation
In MIPS branch instruction has only 16 bits offset to determine next instruction. We need a register added to this 16 bit value to determine next instruction and this register is actually implied by architecture. It is PC register since PC gets updated (PC+4) during the fetch cycle so that it holds the address of the next instruction. We also limit the branch distance to
So step by step :
2. Jump Address Calculation
For Jump instruction Mips has only 26 bits to determine Jump location. Besides, jumps are relative to PC in MIPS. Like branch, immediate jump value need to be word-aligned;therefore, we need to multiply 26 bit address with four.
Again step by step:
In other words, replace the lower 28 bits of the PC with the lower 26 bits of the fetched instruction shifted left by 2 bits.
Source: Bilkent University CS 224 Course Slides
Usually you don't have to worry about calculating them as your assembler (or linker) will take of getting the calculations right. Let's say you have a small function:
When translating the above code into a binary stream of instructions the assembler (or linker if you first assembled into an object file) it will be determined where in memory the function will reside (let's ignore position independent code for now). Where in memory it will reside is usually specified in the ABI or given to you if you're using a simulator (like SPIM which loads the code at
Assuming we're talking about the SPIM case and our function is first in memory, the
As you can see you can branch to within
Jump target addresses are, unlike branch target addresses, encoded using the absolute address (again divided by 4). Since the instruction encoding uses 6 bits for the opcode, this only leaves 26 bits for the address (effectively 28 given that the 2 last bits will be 0) therefore the 4 bits most significant bits of the PC register are used when forming the address (won't matter unless you intend to jump across 256 MB boundaries).
Returning to the above example the encoding for
You can quickly verify this, and play around with different instructions, using this online MIPS assembler i ran across (note it doesn't support all opcodes, for example
I think it would be quite hard to calculate those because the branch target address is determined at run time and that prediction is done in hardware. If you explained the problem a bit more in depth and described what you are trying to do it would be a little easier to help. (:
For small functions like this you could just count by hand how many hops it is to the target, from the instruction under the branch instruction. If it branches backwards make that hop number negative. if that number doesn't require all 16 bits, then for every number to the left of the most significant of your hop number, make them 1's, if the hop number is positive make them all 0's Since most branches are close to they're targets, this saves you a lot of extra arithmetic for most cases.