Engineering Spheres

TASS Applications

Understanding the diverse environments where the TASS engine is deployed, from consumer playback platforms to professional digital audio workstations and VR spatial modeling.

Section 01

headphones DimenPlay Unified Playback

In the consumer sphere, TASS operates as a real-time, non-destructive spatial overlay integrated directly into **DimenPlay 3.0**.

DimenPlay Interface

Volumetric Streaming Expansion

When users play stereo tracks from Spotify, Tidal, or Jellyfin, the TASS engine identifies spatial frequencies and spreads them into a three-dimensional field without altering the original mix's tone.

Section 02

equalizer Professional Studio & DAW Plugins

For audio engineers, TASS is packaged as VST3, AU, and AAX plugins, bridging the gap between track tracking and final space grounding.

Skeletal DAW Grounding

Allows producers working in Logic Pro, Pro Tools, or Ableton to "ground" specific elements—such as dry guitar riffs or low-frequency bass lines—within simulated acoustic chambers before mastering.

SonicAI Co-Processors

Integrates with the SonicAI suggestive audio engine to analyze DAW dynamic timelines and dynamically adjust wet/dry ratios to complement tempo patterns automatically.

Section 03

view_in_ar Virtual Reality & 6DOF Spatial Engines

TASS is built with VR/AR spatial calculations at its core, enabling head-tracked spatial alignment in Six Degrees of Freedom (6DOF).

  • explore_nearby
    Dynamic Voxel Mapping: The system maps physical structures in a simulated volume to calculate absorption, diffraction, and reflections based on environmental geometry.
  • anchor
    Head-Tracking Alignment: Maintains absolute placement of audio objects even as the user rotates or moves through virtual space, avoiding delay artifacts.
Section 04

science ACT Lab Scenario Certification

TASS works hand-in-hand with our Acoustical Certification Template (ACT) to verify output alignment across various profiles.

done_all

Automated Calibration Checks

Runs thousands of automated scenario sweeps to verify phase coherence, temporal lead alignment (Δt), and full-body skeletal grounding metrics across standard headphones and dynamic home speaker setups.