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Webpage for Digital Logic:
Recent questions tagged digital-logic
38
votes
2
answers
2431
GATE CSE 2008 | Question: 4
In the IEEE floating point representation the hexadecimal value $0\text{x}00000000$ corresponds to The normalized value $2^{-127}$ The normalized value $2^{-126}$ The normalized value $+0$ The special value $+0$
In the IEEE floating point representation the hexadecimal value $0\text{x}00000000$ corresponds toThe normalized value $2^{-127}$The normalized value $2^{-126}$The normal...
Kathleen
13.1k
views
Kathleen
asked
Sep 11, 2014
Digital Logic
gatecse-2008
digital-logic
floating-point-representation
ieee-representation
easy
+
–
3
votes
1
answer
2432
GATE CSE 1991 | Question: 01,i
Kathleen
1.2k
views
Kathleen
asked
Sep 11, 2014
Others
gate1991
digital-logic
circuit-output
normal
out-of-gate-syllabus
+
–
59
votes
3
answers
2433
GATE CSE 2005 | Question: 62
Consider the following circuit involving a positive edge triggered D FF. Consider the following timing diagram. Let $A_{i}$ represents the logic level on the line $A$ in the $i$-th clock period. Let $A'$ represent the complement of $A$. The correct output sequence on $Y$ over the ... $A_{1} A_{2}' A_{3} A_{4} A_{5}'$
Consider the following circuit involving a positive edge triggered D FF.Consider the following timing diagram. Let $A_{i}$ represents the logic level on the line $A$ in t...
Isha Karn
17.3k
views
Isha Karn
asked
Sep 3, 2014
Digital Logic
gatecse-2005
digital-logic
circuit-output
normal
+
–
43
votes
3
answers
2434
GATE CSE 2012 | Question: 19
The amount of ROM needed to implement a $4\text{-bit}$ multiplier is $64$ bits $128$ bits $1$ Kbits $2$ Kbits
The amount of ROM needed to implement a $4\text{-bit}$ multiplier is$64$ bits$128$ bits$1$ Kbits$2$ Kbits
gatecse
16.4k
views
gatecse
asked
Aug 5, 2014
Digital Logic
gatecse-2012
digital-logic
normal
rom
+
–
39
votes
2
answers
2435
GATE CSE 2012 | Question: 7
The decimal value $0.5$ in IEEE single precision floating point representation has fraction bits of $000\dots 000$ and exponent value of $0$ fraction bits of $000\dots 000$ and exponent value of $−1$ fraction bits of $100\dots 000$ and exponent value of $0$ no exact representation
The decimal value $0.5$ in IEEE single precision floating point representation hasfraction bits of $000\dots 000$ and exponent value of $0$fraction bits of $000\dots 000$...
gatecse
11.6k
views
gatecse
asked
Aug 5, 2014
Digital Logic
gatecse-2012
digital-logic
normal
number-representation
ieee-representation
+
–
34
votes
3
answers
2436
GATE CSE 2012 | Question: 6
The truth table ${\begin{array}{|c|c|c|}\hline \textbf{X}& \textbf{Y}& \textbf{(X,Y)} \\\hline 0& 0& 0 \\ \hline 0& 1&0\\ \hline 1& 0& 1 \\\hline 1& 1& 1 \\\hline \end{array}}$ represents the Boolean function $X$ $X + Y$ $X \oplus Y$ $Y$
The truth table ${\begin{array}{|c|c|c|}\hline\textbf{X}& \textbf{Y}& \textbf{(X,Y)} \\\hline0& 0& 0 \\ \hline 0& 1&0\\ \hline1& 0& 1 \\\hline1&...
gatecse
4.4k
views
gatecse
asked
Aug 5, 2014
Digital Logic
gatecse-2012
digital-logic
easy
boolean-algebra
+
–
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