Response Time Calculator

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✖Time Between Switching Activity : time that passes between a switching activity.ⓘ Time Between Switching Activity [Δt_spread]			+10% -10%
✖Thermal Time Constant : describes how long it takes until an object is heated up or annealed.ⓘ Thermal Time Constant [τ_thrm]			+10% -10%
✖Transmission Time is necessary for the transmission of the monitoring and DTM instruction data.ⓘ Transmission Time [Δt_trans]			+10% -10%

✖response time for a job is the time between when it becomes active (e.g. an external event or timer triggers an interrupt) and the time it completes.ⓘ Response Time [Δt_res]

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Formula

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Response Time

Formula

`"Δt"_{"res"} = "Δt"_{"spread"}*"τ"_{"thrm"}+2*"Δt"_{"trans"}`

Example

`"4.707178ms"="1.65ms"*"4.35ms"+2*"2.35ms"`

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Response Time Solution

STEP 0: Pre-Calculation Summary

Formula Used

Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time
Δt_res = Δt_spread*τ_thrm+2*Δt_trans
This formula uses 4 Variables

Variables Used

Response Time - (Measured in Second) - response time for a job is the time between when it becomes active (e.g. an external event or timer triggers an interrupt) and the time it completes.
Time Between Switching Activity - (Measured in Second) - Time Between Switching Activity : time that passes between a switching activity.
Thermal Time Constant - (Measured in Second) - Thermal Time Constant : describes how long it takes until an object is heated up or annealed.
Transmission Time - (Measured in Second) - Transmission Time is necessary for the transmission of the monitoring and DTM instruction data.

STEP 1: Convert Input(s) to Base Unit

Time Between Switching Activity: 1.65 Millisecond --> 0.00165 Second (Check conversion here)
Thermal Time Constant: 4.35 Millisecond --> 0.00435 Second (Check conversion here)
Transmission Time: 2.35 Millisecond --> 0.00235 Second (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Δt_res = Δt_spread*τ_thrm+2*Δt_trans --> 0.00165*0.00435+2*0.00235

Evaluating ... ...

Δt_res = 0.0047071775

STEP 3: Convert Result to Output's Unit

0.0047071775 Second -->4.7071775 Millisecond (Check conversion here)

FINAL ANSWER

4.7071775 ≈ 4.707178 Millisecond <-- Response Time

(Calculation completed in 00.004 seconds)

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Credits

Created by Surya Tiwari

Punjab Engineering College (PEC), Chandigarh, India

Surya Tiwari has created this Calculator and 9 more calculators!

Verified by Parminder Singh

Chandigarh University (CU), Punjab

Parminder Singh has verified this Calculator and 600+ more calculators!

< 15 Performance Metrics Calculators

Dynamic Power Consumption

Go Dynamic Power Consumption = Switching Activity Factor*Switched Capacitance*Frequency*Supply Voltage^2

Response Time

Go Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time

Number of Component in Graph

Go Number of Components = (Cyclomatic Complexity-Number of Edges+Number of Nodes)/2

Cyclomatic Complexity

Go Cyclomatic Complexity = Number of Edges-Number of Nodes+2*Number of Components

Execution Time

Go Execution Time = Acceleration Execution Time-(Read Time+Write Time)

Write Time

Go Write Time = Acceleration Execution Time-(Execution Time+Read Time)

Read Time

Go Read Time = Acceleration Execution Time-(Execution Time+Write Time)

Acceleration Execution Time

Go Acceleration Execution Time = Execution Time+Read Time+Write Time

CPU Time for Useful Work

Go CPU Useful Time = Total Available CPU Time*CPU Utilization

Total Available CPU Time

Go Total Available CPU Time = CPU Useful Time/CPU Utilization

CPU Utilization

Go CPU Utilization = CPU Useful Time/Total Available CPU Time

Baudrate

Go Baud Rate = Number of Signal Elements/Time in Seconds

Optimization

Go Optimization = Compilation-Translational Energy

Compilation

Go Compilation = Translational Energy+Optimization

Translation

Go Translational Energy = Compilation-Optimization

Response Time Formula

Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time
Δt_res = Δt_spread*τ_thrm+2*Δt_trans

What is Response Time?

Response time includes the time taken to transmit the inquiry, process it by the computer, and transmit the response back to the terminal. Response time is frequently used as a measure of the performance of an interactive system.

How to Calculate Response Time?

Response Time calculator uses Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time to calculate the Response Time, The Response time for a job is the time between when it becomes active (e.g. an external event or timer triggers an interrupt) and the time it completes. Response Time is denoted by Δt_res symbol.

How to calculate Response Time using this online calculator? To use this online calculator for Response Time, enter Time Between Switching Activity (Δt_spread), Thermal Time Constant (τ_thrm) & Transmission Time (Δt_trans) and hit the calculate button. Here is how the Response Time calculation can be explained with given input values -> 4707.178 = 0.00165*0.00435+2*0.00235.

FAQ

What is Response Time?

The Response time for a job is the time between when it becomes active (e.g. an external event or timer triggers an interrupt) and the time it completes and is represented as Δt_res = Δt_spread*τ_thrm+2*Δt_trans or Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time. Time Between Switching Activity : time that passes between a switching activity, Thermal Time Constant : describes how long it takes until an object is heated up or annealed & Transmission Time is necessary for the transmission of the monitoring and DTM instruction data.

How to calculate Response Time?

The Response time for a job is the time between when it becomes active (e.g. an external event or timer triggers an interrupt) and the time it completes is calculated using Response Time = Time Between Switching Activity*Thermal Time Constant+2*Transmission Time. To calculate Response Time, you need Time Between Switching Activity (Δt_spread), Thermal Time Constant (τ_thrm) & Transmission Time (Δt_trans). With our tool, you need to enter the respective value for Time Between Switching Activity, Thermal Time Constant & Transmission Time and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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