FormulaDen logo
FormulaDen.com
Search
Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Carry-Increamentor Adder Delay Formula

Fx Copy
LaTeX Copy
Carry-Incrementor Adder Delay is defined as r higher-valency cells can be used to speed the ripple operation to produce the first group generate signal. Check FAQs
Tinc=tpg+tgp+(K-1)Tao+Txor
Tinc - Carry-Incrementor Adder Delay?tpg - Propagation Delay?tgp - Group Propagation Delay?K - K-Input AND Gate?Tao - AND-OR Gate Delay?Txor - XOR Delay?

Carry-Increamentor Adder Delay Example

With values
With units
Only example

Here is how the Carry-Increamentor Adder Delay equation looks like with Values.

Here is how the Carry-Increamentor Adder Delay equation looks like with Units.

Here is how the Carry-Increamentor Adder Delay equation looks like.

27.3Edit=8.01Edit+5.5Edit+(7Edit-1)2.05Edit+1.49Edit
Solution
Copy
Reset
Share
You are here -
HomeIcon Home » Category Engineering » Category Electronics » Category CMOS Design and Applications » fx Carry-Increamentor Adder Delay

Carry-Increamentor Adder Delay Solution

Follow our step by step solution on how to calculate Carry-Increamentor Adder Delay?

FIRST Step Consider the formula
Tinc=tpg+tgp+(K-1)Tao+Txor
Next Step Substitute values of Variables
Tinc=8.01ns+5.5ns+(7-1)2.05ns+1.49ns
Next Step Convert Units
Tinc=8E-9s+5.5E-9s+(7-1)2.1E-9s+1.5E-9s
Next Step Prepare to Evaluate
Tinc=8E-9+5.5E-9+(7-1)2.1E-9+1.5E-9
Next Step Evaluate
Tinc=2.73E-08s
LAST Step Convert to Output's Unit
Tinc=27.3ns

Carry-Increamentor Adder Delay Formula Elements

Variables
Carry-Incrementor Adder Delay
Carry-Incrementor Adder Delay is defined as r higher-valency cells can be used to speed the ripple operation to produce the first group generate signal.
Symbol: Tinc
Measurement: TimeUnit: ns
Note: Value should be greater than 0.
Formulas to find Carry-Incrementor Adder DelayOpen Variable
Propagation Delay
Propagation delay typically refers to the rise time or fall time in logic gates. This is the time it takes for a logic gate to change its output state based on a change in the input state.
Symbol: tpg
Measurement: TimeUnit: ns
Note: Value should be greater than 0.
Formulas to find Propagation DelayOpen Variable
Group Propagation Delay
Group Propagation Delay is a device performance property that helps to characterize time delay.
Symbol: tgp
Measurement: TimeUnit: ns
Note: Value should be greater than 0.
Formulas to find Group Propagation DelayOpen Variable
K-Input AND Gate
K-input AND gate is defined as the kth input in the AND gate among the logical gates.
Symbol: K
Measurement: NAUnit: Unitless
Note: Value should be greater than 0.
Formulas to find K-Input AND GateOpen Variable
AND-OR Gate Delay
AND-OR Gate Delay in the gray cell is defined as the delay in the computing time in AND/OR gate when logic is passed through it.
Symbol: Tao
Measurement: TimeUnit: ns
Note: Value should be greater than 0.
Formulas to find AND-OR Gate DelayOpen Variable
XOR Delay
XOR Delay is the propagation delay of XOR gate.
Symbol: Txor
Measurement: TimeUnit: ns
Note: Value should be greater than 0.
Formulas to find XOR DelayOpen Variable

Other formulas in Array Datapath Subsystem category

​Go Ground Capacitance
Cgnd=(VagrCadjVtm)-Cadj
​Go Carry-Ripple Adder Critical Path Delay
Tripple=tpg+(Ngates-1)Tao+Txor
​Go 'XOR' Delay
Txor=Tripple-(tpg+(Ngates-1)Tao)
​Go N-Bit Carry-Skip Adder
Ncarry=nK

How to Evaluate Carry-Increamentor Adder Delay?

Carry-Increamentor Adder Delay evaluator uses Carry-Incrementor Adder Delay = Propagation Delay+Group Propagation Delay+(K-Input AND Gate-1)*AND-OR Gate Delay+XOR Delay to evaluate the Carry-Incrementor Adder Delay, The Carry-Increamentor Adder Delay formula is defined as r higher-valency cells that can be used to speed the ripple operation to produce the first group generate a signal. In that case, the ripple delay is replaced by a group PG gate delay and the critical path. Carry-Incrementor Adder Delay is denoted by Tinc symbol.

How to evaluate Carry-Increamentor Adder Delay using this online evaluator? To use this online evaluator for Carry-Increamentor Adder Delay, enter Propagation Delay (tpg), Group Propagation Delay (tgp), K-Input AND Gate (K), AND-OR Gate Delay (Tao) & XOR Delay (Txor) and hit the calculate button.

FAQs on Carry-Increamentor Adder Delay

What is the formula to find Carry-Increamentor Adder Delay?
The formula of Carry-Increamentor Adder Delay is expressed as Carry-Incrementor Adder Delay = Propagation Delay+Group Propagation Delay+(K-Input AND Gate-1)*AND-OR Gate Delay+XOR Delay. Here is an example- 2.7E+10 = 8.01E-09+5.5E-09+(7-1)*2.05E-09+1.49E-09.
How to calculate Carry-Increamentor Adder Delay?
With Propagation Delay (tpg), Group Propagation Delay (tgp), K-Input AND Gate (K), AND-OR Gate Delay (Tao) & XOR Delay (Txor) we can find Carry-Increamentor Adder Delay using the formula - Carry-Incrementor Adder Delay = Propagation Delay+Group Propagation Delay+(K-Input AND Gate-1)*AND-OR Gate Delay+XOR Delay.
Can the Carry-Increamentor Adder Delay be negative?
No, the Carry-Increamentor Adder Delay, measured in Time cannot be negative.
Which unit is used to measure Carry-Increamentor Adder Delay?
Carry-Increamentor Adder Delay is usually measured using the Nanosecond[ns] for Time. Second[ns], Millisecond[ns], Microsecond[ns] are the few other units in which Carry-Increamentor Adder Delay can be measured.
About | Contact | Disclaimer | Terms | Privacy Policy
© 2024. Developed & Maintained by softUsvista Inc.
Copied!