Coldstream reduces design cycle time, enabling rapid iterations and optimizations that are crucial in the fast-paced EV market.
Mesh quality and accuracy bear direct implications on the credibility of your simulation results.
To demonstrate the robust security measures in its software, Diabatix recently hosted a conversation with a renowned Belgian cybersecurity firm.
ColdStream software integrates generative design to push the boundaries in the creation of cooling components.
Read why Diabatix says that the ColdStream platform stands out from conventional design software and generative design tools.
Automated meshing procedures are crucial in CFD simulations and generative thermal design. In this article, we'll explore why using a robust and automated meshing procedure in ColdStream is important and the benefits it can bring to your simulation projects.
Phase change is the process by which a substance changes from one state of matter to another. The most common phase changes include the transition from solid to liquid (melting), liquid to solid (freezing), liquid to gas (evaporation), and gas to liquid (condensation). The laws of thermodynamics govern these changes, which are caused by changes in temperature and pressure.
This blog post details how an AI-powered generative design tool, ColdStream, can significantly reduce engineering time. Let’s go over more details about each one of the approaches.
This recorded webinar features a ColdStream demonstration exploring how topology optimization for conjugate heat transfer is applied to design battery cold plates.
Simulating fluid flow and heat transfer phenomena with satisfying accuracy is an incredibly complex task generally achieved using CFD. ColdStream is not an exception to this rule and runs all simulations and optimizations through CFD calculations. But solving physical equations simultaneously for millions or even hundreds of millions of small discrete portions of space is a task of complexity well beyond what an average computer can do.
This recorded webinar provides a ColdStream demonstration and explores how topology optimization for conjugate heat transfer is applied to design battery cold plates.
Learn how ColdStream is improving research and development efforts at Formula Electric Belgium to enhance efficiency and cooling for future custom drives.
GLM is investing in the great potential of the 800V Silicon Carbide (SiC) inverter. Using SiC permits faster, more efficient, and lightweight drivetrains and, with ColdStream, a more efficient cooling system.
Taking advantage of our cloud-based platform ColdStream, Formula Student Team Delft could generate a more efficient cooling jacket for their racing car.
