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I was confused about this part while I study MIPS.

The textbook written by Professor John L. Hennessy say if we get some big constant to load, we should

lui $s0, upper(big)
ori $s0, $s0, lower(big)

But why don't we just do

addi $s0, $zero, big

Since the registers are 32-bit, this is more strightforward, isn't it?

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up vote 3 down vote accepted

The immediate argument passed to addi is only 16 bits. To load a 32 bit immediate value that is outside the range of a 16 bit value you need to do it in two goes, as in the example from your text book.

(Anticipating a further question, the reason there is no load immediate or add immediate instruction which take a 32 bit immediate value is because the MIPS ISA uses fixed size 32 bit instructions, so there are always < 32 bits available for any instruction arguments - this is very common in RISC architectures.)

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Thank you! Because of the fixed length, the immediate format leaves only 16 bit for constant, other 16 bits for the operation and register code. – lucasKoTW Nov 1 '12 at 13:58

Yes registers are 32-bits but how can you specify a 32-bit number in an instruction that is 32 bits? An instruction consists of opcode and data. So, you can't squeeze an opcode + 32-bit data in a single addi.

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You can use literal pool if you need to load a lot of constants. Then each constant load costs only 1 load instruction. More information here and here

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