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3 bit multiplier9/23/2023 ![]() This time while jotting the partial product, we shift the jotting to the left corresponding to the Q–digit position. Then we used the next higher digit of Q to multiply the multiplicand. Multiplicand M = 12 1100Īs you see, we start with LSB of the Multiplier Q, multiply the Multiplicand, the partial product is jotted down. Then it is easier to visualize that it is possible to implement a hardware algorithm. Just recall with micro details as to how do we do multiplication using pen and paper. This chapter is important for those who want to understand the hardware implementation of Multiplication and Division. Hardware implementation increases the efficiency of CPU. Not only integer arithmetic but also Floating-Point and Decimal instruction sets are also likely to have these MULTIPLY and DIVIDE sets of instructions in sophisticated CPUs. Internally these instructions are implemented as suitable algorithms in hardware. CPUs have set of instructions for integer MULTIPLY and DIVIDE operations. Multiplication and Division are two other arithmetic operations frequently required even in simple mathematics. ![]()
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