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I was wondering if there was an efficient way to perform a shift right on an 8 bit binary value using only ALU Operators (NOT, OR, AND, XOR, ADD, SUB)


input:  00110101
output: 10011010

I have been able to implement a shift left by just adding the 8 bit binary value with itself since a shift left is equivalent to multiplying by 2. However, I can't think of a way to do this for shift right.

The only method I have come up with so far is to just perform 7 left barrel shifts. Is this the only way?

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probably you want rotation. Rotate is different from shift. – Nick Dandoulakis Oct 12 '09 at 4:57
Yah, that's called rotate right, not shift. – DigitalRoss Oct 12 '09 at 5:42
The shift-left implementation is a true shift though, as it shifts in a 0 and discards (overflows) the top bit. – MSalters Oct 12 '09 at 8:56
might just be a matter of vocabulary, or maybe my explanation was a bit confusing. Here is a wiki of what I was trying to explain. – Tomek Oct 12 '09 at 17:18
up vote 2 down vote accepted

It's trivial to see that this cannot be done with {AND, OR, XOR, NOT}. For all these operators, outbit[N] depends on inbit1[N] and inbit2[N] only. AND adds a dependency on inbit1[N]..inbit1[0] and inbit2[N]..inbit2[0]. However, in your case you require a dependency on inbit[N+1]. Therefore, it follows that if there is any solution, it must include a SUB.

However, A - B is just A + (-B) which is A + ((B XOR 11111111) +1). Hence, if there was a solution using SUB, it could be rewritten as a solution using ADD and XOR instead. As we've shown, those operators are insufficient. Hence, the set {ADD, OR, XOR, NOT, ADD, SUB} is insufficient too.

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thats what I thought. I thought there was possibly some kind of mask that could be used and then manipulated. It's just that when I was working with MIPS assembly, the book claimed it could do divide (if its a power of two) in 1 clock cycle. I'm thinking this may be because of a hardware shifter. Thanks for the input. – Tomek Oct 12 '09 at 17:16
Hardware barrel shifters are quite common, and not too complex (apparently). – MSalters Oct 13 '09 at 7:58

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