17 votes

Let $A = 1111 1010$ and $B = 0000 1010$ be two $8-bit$ $2’s$ complement numbers. Their product in $2’s$ complement is

- $1100 0100$
- $1001 1100$
- $1010 0101$
- $1101 0101$

30 votes

Best answer

10 votes

**Explanation:** Here, we have

A = 1111 1010 = – 6_{10} (A is a 2’s complement number)

B = 0000 1010 = 10_{10} (B is a 2’s complement number)

A x B = – 60_{10} = 1 011 1100_{2} = 1 100 0011 (1’s complement) = 1 100 0100 (2’s complement)

Thus, the product of A and B in 2’s complement is 1100 0100, which is option A.

So, A is the correct option

0

for this question wht I did first,simply multiply both numbers and the result which I got 000100111000100

after taking 2's complement of this -2500 came.plz someone verify this.

I long it is taking long time but I want to know my mistake [email protected] @debashish

after taking 2's complement of this -2500 came.plz someone verify this.

I long it is taking long time but I want to know my mistake [email protected] @debashish

4 votes

In 2's complement form

**A = 11111010 = -128+64+32+16+8+2 = -6**

**B = 00001010 = 10**

Now A* B = -60

**-60 = -128+64+4 =11000100**

**Option : A**

2 votes

There are sequence of 1's in left side delete all consecutive 1's except last one i.e;(delete four 1's from starting) This is shortcut of finding a decimal number from 2's compliment form

First write +60 in binary (using 8 bit because here all options are in 8 bits)

+60 in binary=00111100