You need register file forwarding to prevent stalls.
If you look closely the second instruction (
and $12, $2, $5) needs to use register
$2, but the value computed in the previous instruction (
sub $2, $1, $3) will get written back in the register file in clock cycle 5. Therefore if it wasn't because of register file forwarding, the second instruction would have to stall until register
$2 were written back. The forwarding is shown with a skyblue line between the result of the ALU operation of instruction 1 and the first argument to the ALU operation of instruction 2.
Likewise, the third instruction (
or $13, $6, $2) also needs to use $2 before it is actually written back to the register file by the first instruction. Therefore again, to prevent stalls, register forwarding is used to use the result of the first instruction in as an argument to the third instruction.
On the other hand, the fourth instruction (
add $14, $2, $2) does not need to use pipeline register forwarding, as the result of the first instruction is written back in the first half of cycle 5 and therefore its contents are already updated when they are needed in the fourth instruction.