Euclid
Euclid is a modular scientific CAD platform designed to simplify the design of complex research
devices across multiple engineering domains. Built as the core design engine behind tools like Fractal (Microfluidics) and upcoming Terahertz (THz) device workflows, Euclid provides an intuitive and scalable environment for researchers and engineers to prototype,visualize, and refine scientific
systems.
Our Features
Domain-Adaptive Design Engine
Euclid provides a unified design environment capable of adapting to multiple scientific domains. While the underlying interaction model remains consistent, each module introduces specialized components, workflows, and visualization tools tailored to its field.
Component-Driven Scientific Workflow
The platform introduces a component-based design approach that allows users to build complex devices by assembling modular elements. This workflow reduces repetitive manual geometry creation and enables faster experimentation during early-stage research and prototyping.
Scalable Interaction Framework
Euclid’s interface is built around a scalable interaction model that supports multiple design modes, including 2D layouts, 3D visualization, and future cross-section analysis. This framework ensures the platform can evolve as new scientific tools and research domains are integrated.
Current Capabilities
• Interactive 2D design environment for scientific device layouts
• Component-based workflow for constructing complex systems
• Layer-based architecture for multi-layer device structures
• Grid-guided design for precision placement and alignment
• Integrated design engine supporting domain-specific modules such as Microfluidics
Future Roadmap
• Integrated 3D visualization and spatial navigation
• Cross-section viewing for layered device analysis
• Expansion to additional scientific domains such as Terahertz (THz) devices
• Simulation-ready design workflows
• Advanced component libraries and parametric device generation
Euclid was developed to rethink how researchers interact with scientific CAD tools. Many traditional engineering platforms were originally designed for mechanical or electronic design workflows, which makes them difficult to adapt to emerging research fields like microfluidics and terahertz
device engineering. Euclid introduces a modern interaction framework that prioritizes clarity, usability, and modular design.
Service Name
At its core, Euclid functions as a flexible design engine capable of supporting multiple scientific
domains while maintaining a consistent user experience. The first implementation of this framework powers Fractal – Euclid Microfluidics, enabling researchers to design and prototype microfluidic devices more efficiently. The same architecture will also support future modules such as Euclid–THz, extending the platform to electromagnetic and semiconductor-related device design.
Why Us?
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(Admin Office)
8-1-97, Level-2, Ninithaas Highs, Main Road, Peda Waltair, Visakhapatnam-530017
(Innovation Studio)
Meity Nasscom Center of Excellence to for IoT & AI,
Andhra University North Campus,
Visakhapatnam - 530003 India
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