Heat Sinks
Why ToffeeX:
- Design heat sinks with optimal geometry and airflow, for maximum heat dissipation.
- Optimize your design for conduction, natural or forced convection.
- Reduce the size of your heat sinks, while maintaining performance.
Typically, thermal management engineers select a heat sink from a catalogue by choosing parameters such as the geometry of the pins or fins and their spacing, and their preferred material.
Trying to balance these parameters to find a trade-off is often the best the designer can do. What if there was a way to design more efficient heatsinks?
ToffeeX allows you to design active and passive heatsinks tailored to your specific needs, creating optimized geometries to keep your components as cool as they need to be, improving flow around the devices and, thus, their thermal efficiency.
Stop selecting heat sinks from a catalogue, start designing your own.
Customer Say’s
Those of us in machine learning are really good at doing well on a test set, but of-concept-to-production gap .
Why Toffee
Those of us in machine learning are really good at doing well on a test set, but of-concept-to-production gap .
We put the expert team’s interest ahead of our own
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
Time to time project Handoff to Clients
Contrary to popular belief, Lorem has roots in a piece of classical Latin literature from 45 BC, making it over Sydney College in Virginia, looked up standard chunk of Lorem Ipsum used since the 1500s.
Get going when the going gets tough
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
24/7 Support Team
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
Heat Sinks Across Industries
Heat sinks are crucial components to guarantee the reliable operation of CPUs, GPUs, and Power Supply Units, by dissipating the excess heat generated.
These components need to maintain a specific operating temperature range to prevent overheating and damage to the electronics.
Heat sinks are used to regulate the temperature of essential electronic components in vehicles such as Engine Control Units (ECUs), which generate a lot of heat during operation that needs to be dissipated. Efficient heat sinks keep the ECUs within a safe operating temperature, ensuring optimal performance and preventing malfunctions.
Electronics cooling
Ricoh and ToffeeX achieved a 31% boost in thermal efficiency with an optimized heat sink design using ToffeeX’s physics-driven generative design software and Ricoh’s Aluminium Binder Jetting (BJT) technology. This collaboration marks a significant improvement in thermal management for electronics, advancing sustainable technology.
Advanced heat sink design
With the ongoing trend towards miniaturizing electronic devices, the issue of components overheating has become increasingly critical. Discover the full potential of fluid-thermal topology optimization and how it can be used to design more efficient heat sinks, resulting in superior cooling performance and reduced thermal resistance.