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What is product simulation

A virtual product design validation process

Computer-based calculation

For estimating and verifying the product properties 
(thermal, mechanical…) or comparing different designs

Evaluate the feasibility of the design throughout the whole product development stages

Accelerate the R&D process

Save the sample preparation time and cost

Why we need product simulation

What can we get from the product simulation

Thermal properties

Thermal resistance (℃/W)

Temperature plot

Fluid dynamics properties

1. Heatsink P-Q curve
2. Radiator P-Q curve
3. Fan P-Q curve
4. Pump P-Q curve

Mechanical properties

Product deformation under specific spring loading

What product can we simulate

Component level

1. Air cooler: 1U, 2U, 3U, active, passive, heat pipes, VC, etc.
2. Liquid cooler: cold plate, radiator, fans

System level

1. Sever chassis
2. Sever cabinet
3. PC case

What product can we simulate

1. Product 3D design files (3D CAD)
2. Product materials specification
3. Environment: ambient temperature, air flow rate
4. Heater power and materials
5. Fan & pump properties if needed
​6. Other specified information

A new simulation run is needed if any of the items above is changed.

Simulation time

3D file pre-processing and simulation environment set up

Usually 0.5 hrs.~2.5 hrs., depends on the product complexity

Component level simulation

Air cooler: Usually 10~30 mins for each run
Liquid cooler: Usually 1~3 hrs. for each run

System level simulation

Usually 4hrs. ~ 1 day for each run

Simulation procedure

1. Sales and engineers collect product requirement from the clients
2. Perform the product simulation run according to the product requirement
3. Send simulation results to client for reviewing
4. Revise the product and run the simulation if there’s any feedback from client
5. Physical sample prepare and test
​6. Revise the product and run the simulation based on the physical sample test (if needed)

Case example(An air cooler project)

Client requirement: aim to beat a market model A

Simulation tools used when performing the

1. Thermal resistance simulation at the initial design stage
2. Fin pitch/thickness optimization
3. Fin tower size optimization
4. Heat pipe position arrangement optimization

Simulation results and physical sample test on the thermal resistance(℃/W)

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