Accurate Thermal Simulation for Every Device
High-performance ICs have areas with very high power density, causing excessive temperature variations. PathWave Thermal Design computes a 3D temperature profile of your chip and inputs thermal analysis data into your circuit simulation. It works with several IC design tools, including Cadence Virtuoso. Let PathWave Thermal Design neutralize your device’s adverse temperature effects before you commit to fabrication.
- Compute the full temperature profile of your device
- Uncover temperature variations in mixed-signal designs
- Simulate temperature without laborious data preparation
- Input thermal analysis data in your circuit simulator
- Analyze geometric features at the submicron scale
- Detect reliability issues with realistic temperature data
Reveal Thermally-Induced Circuit Failures Before Tape-Out
Temperature variations cause measurement and simulation uncertainty. Taking the average temperature of a chip to run a circuit simulation does not provide enough accuracy for your device. Learn how PathWave Thermal Design eliminates the need to estimate device temperature by revealing thermally-induced circuit failures with resolution and accuracy.
PathWave Thermal Design was previously known as HeatWave.
Find the Model That's Right for You
Find the Product that's Right for You
|W2590ET||HeatWave Electro-Thermal Simulator||Includes both transient and steady-state thermal solvers that work with third-party circuit simulators, and a user-interface for visualizing 3D thermal results||Learn More|
|W2591ET||HeatWave Steady-State Analog Electro-Thermal Simulator||Allows for transient circuit simulations and produces average temperature results. The number of devices that can be modeled as power sources is limited to 50,000 in this configuration||Learn More|
Extend the Capabilities of PathWave Thermal Design
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Data Sheets 2020.03.09
PathWave Thermal Design Temperature-Enabling Your Simulations