MULTIPLATFORM SPATIAL AUDIO
A solid foundation for immersive experiences
An infrastructure designed to build immersive experiences. Its combination of precision, real-time performance, and flexibility makes it the ideal core for interactive applications, spatial narratives, and advanced sound environments.
Community
Free
For learning and prototyping
(*) Limit of up to 10 nodes, without advanced effects or subgraphs, and with community support.
Professional (Beta)
Ask
For advanced production environments
(*) Unlimited nodes, specialized effects, visualization, and dedicated support.
GRAPH ARCHITECTURE
Modular and scalable architecture
I/O is built on a directed acyclic graph (DAG) of interconnected nodes, offering a clear, extensible, and flexible architecture. Each signal flow can be dynamically configured, expanded, or reordered, allowing you to create everything from simple chains to complex processing systems without altering the stability of the engine or its temporal consistency.
MULTIPLATFORM
Multiplatform spatial audio
I/O integrates spatial audio from its core, allowing sound sources to be positioned and moved in three-dimensional environments with perceptual accuracy. Its multi-platform design ensures a consistent experience across different operating systems, without compromising fidelity or performance, and enables everything from advanced panning to HRTF-based binaural rendering.
LOW LATENCY
Low-latency processing
Designed to operate under real-time demands, I/O maintains minimal latencies and deterministic execution even in high DSP load scenarios. Its block-based processing model, separation between control and rendering threads, and absence of dynamic allocations in the audio thread ensure immediate response and stable playback.
SIGNAL PROCESSING
Advanced processing nodes
I/O provides a comprehensive and extensible set of DSP nodes for audio transformation, analysis, and spatialization. From equalization, dynamics, and temporal effects to convolution and real-time spectral analysis, each node is optimized to integrate seamlessly into the routing graph while maintaining sample-accurate control.
CONTACT
Designed in Buenos Aires, Argentina
community@comdigis.com