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Multiple function unit design
We want to design a unit that can do more than one function In that case, we can design a function unit for each operation like add, sub, and, or…. And then select the desired output For example, if we want to be able to perform ADD and SUB on two given operand A and B and select any one on demand Then the following set up will work ADD A B SUB MUX Select Result
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Design of a SUB unit a b w r
An n-bit subtract unit can be designed in the same way as an n-bit adder One bit subtract unit: It has two inputs a and b (b is subtracted from a) and a borrow (w) in case the previous stage had one It produces an output (result) and a borrow (cascading output) Borrow from one stage is fed from a stage to the next stage Truth table is shown An n-bit subtract circuit is shown 1-bit sub a b w r
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Simplifying ADD/SUB unit design
Separate ADD and SUB units are expensive We can simplify the design SUB is same as adding negation of B to A How to negate? Take one’s complement and add 1 Adding one is also expensive It needs an n-bit adder However, we only need to add two bits in each stage In the first stage we need to add 1’s complement of first bit and 1 In other stages, we need to a carry output to 1’s complement of bit We select B or negative of B depending on the requirement We add A to the selected input to obtain the result
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Alternate ADD/SUB unit design
2’s complement generation of B is expensive For subtract, we can take 1’s complement of B and add it to A Then we need to add 1 to the result This can be achieved by adding 1 as input carry to n-bit adder For Add operation, we simply add B to A with carry = 0 Signal ADD/SUB = 0 for Add and 1 for Sub The block diagram is shown below MUX and inverter can be replaced by XOR of b and ADD/SUB 1-bit add a b c s MUX ADD/SUB 1
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