# MIPS Pipeline Cpu Architecture

I'm dealing with the following exercise on which I can't really get my head around and any kind of help would be really appreciated.

Considering this CPU:

I have to:

1. Determine how many total clock cycles are needed to complete all the instructions.
2. Determine the content of the ID/EX register after 6 cc(clock cycles) since the beginning of the fist instruction.

These are the instructions:
`0x450: addi \$1, \$4, -1`
`lw \$2, 0(\$1)`
`lw \$3, 0(\$2)`
`sw \$3, 80(\$1)`

I've tried to answer to the first question creating a pipeline diagram with the 5 stages(Fetch, Decode, Execute, Memory access, Write back) and this is what I've done:

```                |  1 |  2 |  3 |  4 |  5  |  6 |  7 |  8  |  9 | 10  |
addi \$1, \$4, -1 | IF | ID | EX |  M |  W  |    |    |     |    |     |
lw \$2, 0(\$1)    |    | IF | ID | EX |  M  |  W |    |     |    |     |
lw \$3, 0(\$2)    |    |    | IF | *  |  ID | EX |  M |  W  |    |     |
sw \$3, 80(\$1)   |    |    |    | IF |  *  | *  | ID |  EX |  M |  W  |

```

So I've answered 10 clock cycles.
If the first one is right(which I cannot be sure if it is) I'd really need some help in the second one regarding the content of the ID/EX register.