Microvascular system design suite
Tackle the challenges of visualizing and rendering large-scale microvascular systems with precision, optimizing complex topological designs for advanced simulation and real-time printing applications.
The Cäster from Stämm is a powerful microvascular design and simulation system tailored for the biotech and pharmaceutical industries. It excels in visualizing and rendering complex topological systems with unprecedented scale, supporting continuous, high-capacity operations. Unique in its ability to simulate systems with up to 16 million liters, it addresses the vital need for designing bioprocessors and optimizing biopharmaceutical infrastructures. The Cäster reduces disk space requirements by 6 orders of magnitude and supports real-time data streaming at 20 GB/s, ensuring seamless integration with production environments. Ideal for R&D and laboratory departments, this system streamlines the design of intricate microvascular networks essential for medical technology advancements.
Benefits
- Enhances design efficiency with seamless visualization of complex microvascular systems.
- Increases operational scalability by simulating up to 16 million liters of volume.
- Conserves storage resources through significant disk space reduction.
- Streamlines production with high-speed, real-time data streaming capabilities.
- Facilitates precision in R&D applications, driving innovation in biotechnological processes.
- Applications
- Crystallography,Microvascular systems,Bioprocessors,Biopharmaceuticals,Natural systems design
- End products
- Steps before
- Steps after
- Input ingredients
- large-scale microvascular system design,topological information,crystallography,virtual design data
- Output ingredients
- rendered microvascular system,image library,printed models,simulated bioprocessor design
- Market info
- Internal Volume Capacity
- 1 megaliter
- Volume Simulation Capacity
- 16 million liters
- Streaming Speed to Printer
- 20 GB/s
- Disk Space Reduction
- 6 orders of magnitude
- Nanotube Overlap Checking
- Real-time,millions of nanotubes
- Design capacity
- 16 million liters
- Rendering capability
- Any resolution
- Visualization of nanotubes
- 1 million checks in real-time
- Data transfer rate
- 20 GB/s
- Disk space efficiency
- Reduces by 6 orders of magnitude
- Concurrent design size
- Up to 1 megaliter
- System volume capacity
- 16 million liters
- Internal volume
- 1 megaliter
- Resolution capability
- Virtually any resolution
- Data streaming rate
- 20 GB/s
- Data reduction efficiency
- Reduces disk space by 6 orders of magnitude
- Nanotube overlap checking
- Real-time
- Resolution
- Virtually any resolution
- Simulation Capacity
- Up to 16 million liters
- Real-time Printing
- Enabled via Sclereid printer
- Image Library
- Build for later printing