I'm a little confused as to how a branching instruction translates to machine code. I read in my book that the branch if equal instruction is a B-Type instruction, which is formatted like so:

opcode reg1 reg2 address + offset 6 5 5 16

In my textbook, there is a problem where I am shown a program, which I'm told is loaded at 0x4321ABC8 and looks like this:

```
L1: sw $t0,3000($t1)
addi $s1,$t1,-6
beq $t0,$t1,L1
```

As you can see, the 3rd line of code is branch if equal.

I am trying to convert this program into binary (or hex). **On the branch if equal instruction, I don't understand exactly what it is I'm supposed to enter into the address + offset field.**

First I thought the answer would be...

base address (0x4321ABC8),
plus 4 times the number of instructions from base which is where the program counter would be (4 * 2 = 8),

Then minus four for the offset, which would be the original base address, 0x4321ABC8.

The problem with this is that 0x4321ABC8 is a number too big to fit into the 16 bit offset space of the instruction.

So then I thought that the answer would be to ONLY include the offset (which would be -8), however if that were the case, I don't know why the problem in the book would bother to tell me that the program is loaded at 0x4321ABC8.

Any help would be greatly appreciated!