IEEE 754 Single Precision 32-bit Floating Point Format: Steps, Format, and Example

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IEEE 754 Single Precision 32-bit Floating Point Format is covered by the following Timestamps:

0:00 - Digital Electronics Lecture Series
0:42 - Steps of IEEE 754 floating point single precision 32 bit
2:07 - Format of IEEE 754 floating point single precision 32 bit
3:37 - Example of IEEE 754 floating point single precision 32 bit
13:12 - Assignment question on IEEE 754 floating point single precision 32 bit

Following points are covered in this video:
1. IEEE 754 floating point single precision 32 bit format
2. Basics of IEEE 754 floating point single precision 32 bit format
3. Steps of to represent any number into IEEE 754 floating point single precision 32 bit format
4. Example of IEEE 754 floating point single precision 32 bit format
5. Assignment question on IEEE 754 floating point single precision 32 bit format

Chapter-wise detailed Syllabus of the Digital Electronics Course is as follows:

Binary, hex, octal, decimal, BCD, integer, and floating-point- numbers, code conversion etc.

Laws of Boolean Algebra, SOP, POS, Dual and Self Dual of Boolean equation, Minterms, Maxterms, Quine McCluskey Technique, etc.

AND, OR, NOT, XOR, XNOR, NAND, NOR Gates and Circuit implementation using universal gates.

Minimization of functions using Boolean identities and many other circuits like Multiplexer, Demultiplexer, Adder, Subtractor, Decoder, Encoder, Carry look ahead adder, Even Parity Generator and Odd Parity Generator, Priority Encoder, etc.

IK-map basics, Implicants, Prime Implicants and Essential Prime, 3,4,5 and 6 variable K Map, Quine McCluskey Minimization Technique

DTL, RTL, TTL, CMOS, Boolean Function Implementations, Stick Diagram of Boolean Function, CMOS Transmission Gate, etc.

Clock and Triggering by clock in Sequential circuit, Latch, Flip Flops, Master Slave Flip Flop, Counters, Shift Registers, State Machines, Mealy State Machine and Moore State Machine

ROM, RAM, PLA, PAL, Digital to Analog Converter and Analog to Digital Converter

Practical's on Logic gates, Adder, Code conversion, Comparator, Flip flop, Counter, Register, etc.

Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Digital Electronics

#NumberSystem #DigitalElectronics #DigitalLogicDesign @EngineeringFunda

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EngineeringFunda

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EngineeringFunda

put hands together for this person...really make me tension free before exams..🙂🙂

haseebgillani

Thank you man, saving my ass before todays exam, keep up the excellent work <3

vilimivankovic

My answer:
[0] [1000 0110]
Sir is it right?

vivekrawat

Welll explained man god bless you and your family.

benspencer

It's wonderful sir. Ek baar mein hi clear ho gaya 🕘⛈
Ans : [0] sign || [10000110] 8 bit exponents || [ 1101 1001 0000 0000 0000 000 ] mantisa

hemensanmahilange

Thank you sir.
Your teaching is very helpful.
You are great✨✨🙏

tusharawasthi

thank you man, you saving my homework

meepo_meepo

I missed these lectures during my engineering 😢😢😢😢....Now Iam Seeing Without Knowing 😅😅

josephmudda

Sir what is mantissa what does it mean why call mantissa please explain and why 754

BTSArmy-xnfz

My answer is [0][1000 0101][1001 0010 0000 0000 0000 000]. Thank you for the great content!

patriciac

Thank you so
much sir... easy to catch up 🙏

nadiyah

fabulous video sir!! thankyou so much sir

kashishkanodia

the first question, the binary value of 3066 is wrong isnt it?

sophiedressel

0 110 0000 0000 0000 0000 0000
Sir on representing the above binary number in 32 bit...Mantissa is not adjusting in 23 bits
1 ) 110 0000 0000 0000 0000 0000
2) 0 110 0000 0000 0000
so from 1 and 2 what should be mantissa?
Sir pls reply

arzoofirdos

Sir could you please upload a video for IEEE 754 floating point representations for 16bits and 64 bits....

mdazazali

PLEASE MAKE A VIDEO ON K-MAP USING PRODUCT OF SUM AND SUM OF PRODUCT

yogeshjha

Sir, .. apne 0.25×2 =0.5 likh Diya vo samjh aya lekin fir 0 kyu likha aur same question uske niche bhi 0.5×2=1.0 likha fir 1 kyu likha apne...?..

shrutigupta

Can you pls solve this Answer = 2.27 ×10^-1 can you teach us this model problems

BTSArmy-xnfz

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