I'm studying for an exam tomorrow and I'm quit confused on the loading/storing bytes topic. I have this example:

I don't understand how he got the answers in red at all. Could someone help explain this to me?

• The answers is red are correct except for the \$t0 value big endian, which should be 0xFFFFFF90, since 0x90 would be interpreted as a negative byte value, and sign extended by `lb` into the 32-bit register \$t0. Commented Jan 20, 2022 at 0:22

``````add    \$s3, \$zero, \$zero
``````

This performs the addition `\$s3 = 0 + 0`, effectively setting the register `\$s3` to a value of zero.

``````lb     \$t0, 1(\$s3)
``````

This loads a byte from a location in memory into the register `\$t0`. The memory address is given by `1(\$s3)`, which means the address `\$s3+1`. This would be the 0+1=1st byte in memory. Since we have a big-endian architecture, we read bytes the 4-byte chunks "big end first".

``````byte:  0   1   2   3
00  90  12  A0
``````

The 0th byte is `00`, and the 1st byte is `90`. So we load the byte `90` into `\$t0`.

``````sb     \$t0, 6(\$s3)
``````

This stores a byte from the register `\$t0` into a memory address given by `6(\$s3)`. Again this means the address `\$s3+6`.

``````byte:  4   5   6   7
FF  FF  FF  FF
``````

becomes

``````byte:  4   5   6   7
FF  FF  90  FF
``````

Now, what if the architecture was little-endian? This would mean bytes are arranged "little end first" in memory, so the effect of the 2nd and 3rd instructions change.

``````lb     \$t0, 1(\$s3)
``````

This loads the byte in memory address 1 into register `\$t0`. But now the addresses are "little end first", so we read `12` into the register instead.

``````byte:  3   2   1   0
00  90  12  A0
``````

Next...

``````sb     \$t0, 6(\$s3)
``````

This stores the byte in register `\$t0`, which is `12` into a memory address 6. Again with little-endian architecture:

``````byte:  7   6   5   4
FF  FF  FF  FF
``````

becomes

``````byte:  7   6   5   4
FF  12  FF  FF
``````
• You are wrong on couple of points here: 1. Assuming the data at memory address 0x01 is 0x90, the value of \$t0 would be 0xFFFFFF12 as `lb` sign extends. Use `lbu` if sign extension is not desired. 2. `lb` and `sb` doesn't care for endianness. Whatever byte is at memory address `x` is seen the same way by both big and little endian machines. Commented Aug 6, 2018 at 14:30
• @Cheshar: No I think your 1. is wrong, even if `lb` do sign extend, `sb` still store the least significant byte into `0x06`. (and how did you get `0xFFFFFF12`? Isn't it `0xFFFFFF90`?) Commented Nov 27, 2018 at 21:58