raytracing as a Service

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Photorealistic Objects

Key Features

Simulations: Powerful, Adaptive, and Insightful

Elevate your electromagnetic simulation to unprecedented heights with an advanced 3D Ray Tracer, engineered to meet the most demanding research needs with exceptional precision and performance. Built on cutting-edge ray tracing algorithms and high-performance computational methods, it models and investigates structurally complex propagation environments (up to 2 THz), material interactions, and system behaviours, delivering rapid feedback on design changes, perfect for randomized and dynamic environments.

  • Adjustable parameters for transmitter frequency, input power, antenna types, and material properties in the propagation environment.
  • Real-time simulation status monitoring and performance insights streamline your workflow.
  • Automated result post-processing simplifies reporting and enables direct comparison.

3D Scenario: Visualize, Experiment, Mobility, and Perfect

Transform theoretical models into immersive 3D scenarios with film-like visuals and scientific mobility. Build, edit, and analyze real-world electromagnetic propagation contexts, including urban structures, custom devices, and biological materials, using intuitive drag-and-drop tools and a responsive, dynamic viewport.

  • Edit scenarios interactively in 3D using community-driven tools like Bforartists, MakeHuman, and Blender: place transmitters, objects, and receivers with precise controls.
  • Scenario library: begin with ready-made templates or design new scenes from scratch, and export high-resolution scientific images and detailed animations for presentations or further analysis tasks.

User Interfaces

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FAQs

The raytraaS is designed for electromagnetic simulations from GHz up to 2 THz supporting research and engineering needs even for sub-THz and low-THz systems. It provides an affordable entry point for THz research while ensuring accuracy across a wide range of applications limited to far-field simulations.
Yes, the raytraaS allow full customization of antenna types, including array geometry, polarization, frequency, and user-defined patterns. Input power and bandwidth are also adjustable.
Users can specify frequency-dependent material properties, such as permittivity and conductivity for diverse objects within various environments, including urban, residential, industrial, and biological settings. This flexibility and capability compute outputs (results) for complex, heterogeneous materials across different scenarios.
The raytraaS features a real-time progress dashboard showing current ray-tracing status, resource utilization, and estimated completion time facilitating iterative design and optimization of the simulated environment whether it involves a full scenario or a single object.
Automated post-processing provides detailed visualizations of path loss, delay spread, power profiles, angular spreads, complex impulse responses, and other key metrics essentials for electromagnetic analysis. Direct export of processed results enables seamless scenario-to-scenario comparisons, supports report generation, and facilitates data sharing for collaborative research and decision-making.
The raytraaS offers easy-to-use drag-and-drop editors along with seamless import options compatible with Blender, MakeHuman, and Bforartists. Users can quickly build and customize detailed 3D scenarios either by starting with ready-made templates or creating new scenes from scratch. This flexible approach supports layered scenario construction, interactive editing, and precise control over objects and elements, making it accessible for both beginners and advanced users alike
Yes, receivers, transmitters, transceivers, and obstacles can be programmed to move, enabling the representation and simulation of realistic, time-varying scenarios. This encompasses dynamic entities such as flying drones, moving vehicles, humans, insects, or swaying foliage, allowing for modeling of changing environments and their influence on electromagnetic wave propagation. Moreover, physical parameters of the atmosphere such as temperature, pressure, and humidity particularly significant at THz frequencies can be integrated to enhance simulation fidelity and accuracy.
The raytraaS supports the generation of high-resolution scientific images, annotated data plots, and dynamic animation exports. These visualization outputs are ideal for scientific presentations, technical reports, and peer-reviewed publications, facilitating clear communication of complex simulation results with precision and visual clarity.
The raytraaS uses advanced forward ray-tracing engines optimized for electromagnetic propagation, with support for transmission, specular reflection, diffraction, (diffuse) scattering, and atmospheric attenuation effects.
Fully randomized object placement, material properties assignment, and channel profiles are available to model dynamic and statistical channels in time-varying environments.

Choose your plan

Free

0/year
  • 5MB files upload
  • Limited configurations
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Academic

3000/year
  • 4 Cores CPU
  • 8GB RAM
  • 240GB Storage
  • Unlimited users
  • Unlimited projects
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Enterprise

22000/year
  • 32 Cores CPU
  • 64GB RAM
  • 2TB Storage
  • Unlimited users
  • Unlimited projects
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Twin as a service

Transform your laboratory into an interactive 3D experience with our Digital Twin Creation Service. By simply providing us with basic lab details and dimensionally accurate photos, we will deliver a high-resolution digital twin that allows for remote access, virtual tours, asset tracking, and workflow optimization. Ideal for research teams, facility managers, and safety trainers, our service captures every detail of your lab space with precision and clarity. Whether you're showcasing to stakeholders or enhancing internal operations, our digital twins bring your environment to life—securely, accurately, and ready for the future.

Email

twin@raytraas.com