Treble
Cloud-based acoustic simulation platform for room design and audio research.
About Treble
Treble: Acoustic Simulation Platform for Machine Learning & AI
Treble is a cloud-based acoustic simulation platform engineered to deliver fast, accurate, and usable room acoustic modeling for professionals in audio research, development, and design. Treble offers real-time collaboration, immersive auralization, and hybrid simulation engines that empower users to optimize acoustic environments for any scale or complexity.
Key Features
Hybrid Wave/Geometrical Acoustics Engine:
Provides highly accurate modeling of sound propagation and boundary interactions using advanced wave-based methods.Real-Time Collaboration:
Allows teams to work together on acoustic simulations from anywhere, enabling efficient design and review cycles.Immersive Auralization:
Generates perceptually authentic audio-visual listening experiences instantly, shareable across the web with a single click.Python-Based SDK:
Accelerates development with scalable, high-fidelity simulations and synthetic audio data generation for machine learning and R&D.Seamless Workflow Integration:
Works directly with 3D modeling tools through a cloud-native platform, eliminating hardware and software installation requirements.Pinpoint Acoustic Treatment Planning:
Enables precise positioning and validation of acoustic measures, reducing time and costs for professional spaces.Fast Simulation Processing:
Reduces simulation times from weeks to minutes, outperforming traditional modeling software.
Use Cases
Room acoustics and loudspeaker placement design for auditoriums, studios, and commercial spaces
Audio hardware algorithm prototyping and virtual testing
Generative data augmentation for machine learning tasks in audio and speech
Collaborative stakeholder review and immersive spatial audio demonstration
Getting Started
Website: https://www.treble.tech
Treble empowers audio professionals and researchers with cloud-native simulation tools, enabling the design and optimization of acoustic environments quickly and cost-effectively—from single rooms to large venues.