Boolean algebra. Combinational and sequential circuits. Minimization. Number representations and computer arithmetic (fixed and floating point)

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\textbf{Year}& \textbf{2022} & \textbf{2021-1}&\textbf{2021-2}&\textbf{2020}&\textbf{2019}&\textbf{2018}&\textbf{2017-1}&\textbf{2017-2}&\textbf{2016-1}&\textbf{2016-2}&\textbf{Minimum}&\textbf{Average}&\textbf{Maximum}
\\\hline\textbf{1 Mark Count} & 1&2&3&2&4&2&3&2&3&3&1&2.5&4
\\\hline\textbf{2 Marks Count} & 2&2&2&1&2&2&0&4&2&0&0&1.7&4
\\\hline\textbf{Total Marks} & 5&6&7&4&8&6&3&10&7&3&\bf{3}&\bf{5.9}&\bf{10}\\\hline
\end{array}}}$$

Hot questions in Digital Logic

65 votes

9 answers

GATE CSE 2003 | Question: 43
The following is a scheme for floating point number representation using $16$ bits. Let $s, e,$ and $m$ ... between two successive real numbers representable in this system? $2^{-40}$ $2^{-9}$ $2^{22}$ $2^{31}$

The following is a scheme for floating point number representation using $16$ bits.Let $s, e,$ and $m$ be the numbers represented in binary in the sign, exponent, and man...

Kathleen

18.1k views

Kathleen asked Sep 17, 2014

27 votes

5 answers

GATE CSE 2004 | Question: 66
Let $A = 1111 1010$ and $B = 0000 1010$ be two $8-bit$ $2’s$ complement numbers. Their product in $2’s$ complement is $1100 0100$ $1001 1100$ $1010 0101$ $1101 0101$

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$

Kathleen

19.1k views

Kathleen asked Sep 18, 2014

33 votes

2 answers

GATE CSE 1996 | Question: 1.21
A ROM is used to store the table for multiplication of two $8$-bit unsigned integers. The size of ROM required is $256 \times 16$ $64 K \times 8$ $4 K \times 16$ $64 K \times 16$

A ROM is used to store the table for multiplication of two $8$-bit unsigned integers. The size of ROM required is$256 \times 16$$64 K \times 8$$4 K \times 16$$64 K \times...

Kathleen

18.6k views

Kathleen asked Oct 9, 2014

52 votes

6 answers

GATE CSE 2014 Set 2 | Question: 7
Let $k=2^n$. A circuit is built by giving the output of an $n$-bit binary counter as input to an $n\text{-to-}2^n$ bit decoder. This circuit is equivalent to a $k$-bit binary up counter. $k$-bit binary down counter. $k$--bit ring counter. $k$-bit Johnson counter.

Let $k=2^n$. A circuit is built by giving the output of an $n$-bit binary counter as input to an $n\text{-to-}2^n$ bit decoder. This circuit is equivalent to a $k$-bit bi...

go_editor

19.7k views

go_editor asked Sep 28, 2014

53 votes

5 answers

GATE CSE 1991 | Question: 5-c
Find the maximum clock frequency at which the counter in the figure below can be operated. Assume that the propagation delay through each flip flop and each AND gate is $10\;\text{ns}$. Also, assume that the setup time for the $JK$ inputs of the flip flops is negligible.

Find the maximum clock frequency at which the counter in the figure below can be operated. Assume that the propagation delay through each flip flop and each AND gate is $...

ibia

23.2k views

ibia asked Nov 14, 2015

8 votes

3 answers

GATE CSE 2023 | Question: 11
The output of a $2$-input multiplexer is connected back to one of its inputs as shown in the figure. Match the functional equivalence of this circuit to one of the following options. $\text{D}$ Flip-flop $\text{D}$ Latch Half-adder Demultiplexer

The output of a $2$-input multiplexer is connected back to one of its inputs as shown in the figure.Match the functional equivalence of this circuit to one of the followi...

admin

10.7k views

admin asked Feb 15, 2023

3 votes

3 answers

UGC NET CSE | December 2013 | Part 2 | Question: 32
Given that $(292)_{10} = (1204)_x$ in some number system $x$. The base $x$ of that number system is 2 8 10 None of the above

Given that $(292)_{10} = (1204)_x$ in some number system $x$. The base $x$ of that number system is2810None of the above

go_editor

30.1k views

go_editor asked Jul 26, 2016

53 votes

3 answers

GATE CSE 2010 | Question: 8
$P$ is a $16$-bit signed integer. The $2$'s complement representation of $P$ is $(F87B)_{16}$. The $2$'s complement representation of $8\times P$ is $(C3D8)_{16}$ $(187B)_{16}$ $(F878)_{16}$ $(987B)_{16}$

$P$ is a $16$-bit signed integer. The $2$'s complement representation of $P$ is $(F87B)_{16}$. The $2$'s complement representation of $8\times P$ is$(C3D8)_{16}$$(187B)_{...

go_editor

16.4k views

go_editor asked Sep 29, 2014

54 votes

5 answers

GATE CSE 2007 | Question: 48
Which of the following is TRUE about formulae in Conjunctive Normal Form? For any formula, there is a truth assignment for which at least half the clauses evaluate to true. For any formula, there is a truth assignment for which all the clauses ... formula such that for each truth assignment, at most one-fourth of the clauses evaluate to true. None of the above.

Which of the following is TRUE about formulae in Conjunctive Normal Form?For any formula, there is a truth assignment for which at least half the clauses evaluate to true...

Kathleen

14.9k views

Kathleen asked Sep 21, 2014

19 votes

3 answers

GATE CSE 2023 | Question: 34
A Boolean digital circuit is composed using two $4$-input multiplexers $\text{(M1 and M2)}$ and one $2$-input multiplexer $\text{(M3)}$ as shown in the figure. $\text{X0-X7}$ are the inputs of the multiplexers $\text{M1 and M2}$ and could be connected to either $0$ or $1.$ The select lines of the ... $(1,1,0,0,1,1,0,1)$ $(1,1,0,1,1,1,0,0)$ $(0,0,1,1,0,1,1,1)$

A Boolean digital circuit is composed using two $4$-input multiplexers $\text{(M1 and M2)}$ and one $2$-input multiplexer $\text{(M3)}$ as shown in the figure. $\text{X0-...

admin

9.5k views

admin asked Feb 15, 2023

56 votes

12 answers

GATE CSE 2015 Set 2 | Question: 37
The number of min-terms after minimizing the following Boolean expression is _______. $[D'+AB'+A'C+AC'D+A'C'D]'$

The number of min-terms after minimizing the following Boolean expression is _______.$[D'+AB'+A'C+AC'D+A'C'D]'$

go_editor

19.3k views

go_editor asked Feb 12, 2015

21 votes

6 answers

GATE CSE 2021 Set 1 | Question: 42
Consider the following Boolean expression. $F=(X+Y+Z)(\overline X +Y)(\overline Y +Z)$ Which of the following Boolean expressions is/are equivalent to $\overline F$ (complement of $F$ ... $X\overline Y +Y\overline Z + \overline X\; \overline Y \;\overline Z$

Consider the following Boolean expression.$F=(X+Y+Z)(\overline X +Y)(\overline Y +Z)$Which of the following Boolean expressions is/are equivalent to $\overline F$ (comple...

Arjun

10.3k views

Arjun asked Feb 18, 2021

17 votes

6 answers

GATE CSE 2021 Set 2 | Question: 5
Which one of the following circuits implements the Boolean function given below? $f(x,y,z) = m_0+m_1+m_3+m_4+m_5+m_6$, where $m_i$ is the $i^{\text{th}}$ minterm.

Which one of the following circuits implements the Boolean function given below?$f(x,y,z) = m_0+m_1+m_3+m_4+m_5+m_6$, where $m_i$ is the $i^{\text{th}}$ minterm.

Arjun

9.2k views

Arjun asked Feb 18, 2021

41 votes

6 answers

GATE CSE 1999 | Question: 2.16
The number of full and half-adders required to add $16$-bit numbers is $8$ half-adders, $8$ full-adders $1$ half-adder, $15$ full-adders $16$ half-adders, $0$ full-adders $4$ half-adders, $12$ full-adders

The number of full and half-adders required to add $16$-bit numbers is$8$ half-adders, $8$ full-adders$1$ half-adder, $15$ full-adders$16$ half-adders, $0$ full-adders$4$...

Kathleen

22.4k views

Kathleen asked Sep 23, 2014

46 votes

8 answers

GATE CSE 2015 Set 1 | Question: 37
A positive edge-triggered $D$ flip-flop is connected to a positive edge-triggered $JK$ flip-flop as follows. The $Q$ output of the $D$ flip-flop is connected to both the $J$ and $K$ inputs of the $JK$ ... $JK$ flip-flops. Both the flip-flops have non-zero propagation delays. $0110110\ldots$ $0100100\ldots$ $011101110\ldots$ $011001100\ldots$

A positive edge-triggered $D$ flip-flop is connected to a positive edge-triggered $JK$ flip-flop as follows. The $Q$ output of the $D$ flip-flop is connected to both the ...

makhdoom ghaya

13.1k views

makhdoom ghaya asked Feb 13, 2015

37 votes

5 answers

GATE CSE 1999 | Question: 2.9
Which of the following sets of component(s) is/are sufficient to implement any arbitrary Boolean function? XOR gates, NOT gates $2$ to $1$ multiplexers AND gates, XOR gates Three-input gates that output $(A.B) + C$ for the inputs $A, B$ and $C$.

Which of the following sets of component(s) is/are sufficient to implement any arbitrary Boolean function?XOR gates, NOT gates$2$ to $1$ multiplexersAND gates, XOR gatesT...

Kathleen

15.2k views

Kathleen asked Sep 23, 2014

29 votes

6 answers

GATE CSE 2021 Set 2 | Question: 44
If the numerical value of a $2$-byte unsigned integer on a little endian computer is $255$ more than that on a big endian computer, which of the following choices represent(s) the unsigned integer on a little endian computer? $0\text{x}6665$ $0\text{x} 0001$ $0\text{x} 4243$ $0\text{x} 0100$

If the numerical value of a $2$-byte unsigned integer on a little endian computer is $255$ more than that on a big endian computer, which of the following choices represe...

Arjun

14.5k views

Arjun asked Feb 18, 2021

34 votes

9 answers

GATE CSE 2016 Set 1 | Question: 07
The $16\text{-bit}\;2's$ complement representation of an integer is $1111 \quad 1111 \quad 1111 \quad 0101;$ its decimal representation is ____________

The $16\text{-bit}\;2's$ complement representation of an integer is $1111 \quad 1111 \quad 1111 \quad 0101;$ its decimal representation is ____________

Sandeep Singh

12.3k views

Sandeep Singh asked Feb 12, 2016

5 votes

2 answers

Morris Mano Edition 3 Exercise 2 Question 12 (Page No. 70)
Express the following function in the sum of minterms and The product of the maxterms. (a) F(A,B,C,D) = B’D + A’D + BD (b)F(x,y,z)=(xy + z)(xz + y)

Express the following function in the sum of minterms and The product of the maxterms.(a) F(A,B,C,D) = B’D + A’D + BD(b)F(x,y,z)=(xy + z)(xz + y)

ajaysoni1924

35.3k views

ajaysoni1924 asked Mar 31, 2019

43 votes

5 answers

GATE CSE 1996 | Question: 2.21
Consider the circuit in below figure which has a four bit binary number $b_3b_2b_1b_0$ as input and a five bit binary number, $d_4d_3d_2d_1d_0$ as output. Binary to Hex conversion Binary to BCD conversion Binary to Gray code conversion Binary to $radix-12$ conversion

Consider the circuit in below figure which has a four bit binary number $b_3b_2b_1b_0$ as input and a five bit binary number, $d_4d_3d_2d_1d_0$ as output.Binary to Hex co...

Kathleen

14.0k views

Kathleen asked Oct 9, 2014

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