Built as a virtual instrument through the use of physical modeling techniques (ACS), ResonHeart has to be considered as a natural born acoustic machine made of clockwork components, air pumps, motors, pneumatic valves and complex resonator blocks (one per voice). Each resonator block consists of a set of sixteen universal Helmholtz resonators (which can be individually triggered and tuned) arranged in a characteristic modal-synthesis disposal. This particular design makes ResonHeart genuinely capable to imitate the peculiar sound of a wide range of acoustic systems, including rigid-body or membrane-based percussions and cymbals - one of the hardest things to simulate using physical modeling.
With no electronic components involved in its sound generation process, ResonHeart is a real mechanical synthesizer, an articulated acoustic instrument which can also mimic the tones and flavors of other acoustic instruments - and its extended set of mechanical automations and modulation units will also provide manifold, evolving dynamics to the final sound.
Also, ResonHeart's simplified interface makes the sound designing process seamless, since all the controls and parameters are always in plain sight, arranged on its single-view panel.
Trig the main pump motor, provide energy to the air turbulence and modify the cross-sectional area of the ducts. Change the internal volume and the embouchures aperture for each of the Helmholtz resonators and take control of every nuance of your tone by assigning different modulations for each of the pneumatic valves.
Finally, place each of the resonator blocks inside an accurately modeled hall space and be prepared to reach expressive performances, organic and evocative sounds that will go far beyond what ordinary electronic or acoustic instruments can do.
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Physical modeling simulation of a complex acoustic sound generator machine, achieved by the adoption of the Advanced Component Simulation (ACS) approach
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Full 64-bit processing accuracy for every single aspect of the simulation
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A 100% original aerophone-based mechanical acoustic instrument, featuring an articulated modal architecture and capable of mimicking other acoustic instruments' tones and flavours
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Entirely made of mechanical components (resonators, motors, valves) which have been modeled after existing, commercially available parts
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Air pump motors with dedicated automations and retrig control
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Venturi valves
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Swing motors and valves (from 0.1 Hz up to 20 Hz)
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Pneumatic solenoid valves (with a 3-ms aperture, 2-ms disclosure timing)
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Air turbulence dispersion control
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A complex resonator block (one per voice) made of sixteen universal Helmholtz resonators, each with independent tuning (internal volume) and pressure (embouchure) controls
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A dedicated modulation for resonators' tuning, featuring Swing, Contour, Velocity and Pitch Follower controls
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A dedicated modulation for resonators' pressure, featuring Swing, Contour, Velocity and Pitch Follower controls
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Operates as a monophonic or polyphonic (4-voices) instrument
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True polyphony, achieved by simulating separate, fully-independent mechanical sound generators
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Separate controls for global tuning, voices detune (spread), pitch bending (amount) and portamento
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An accurate room / hall simulation (resonator-based)
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A spatial displacement engine, arranging the instrument's four voices/blocks inside the room space
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Including a 130+ ready-to-use factory presets collection, covering different styles and genres, including deep and solid basses, real-world cymbals and crashes, membranes and percussions, woodwinds, plucked strings, ethnic bells and whistles, organic motion pads, symphonic strings and choirs sections, evolving soundscapes, psychoacoustic sound effects and more
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MIDI automation
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Support for sample rates from 44.1 kHz up to 192 kHz
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Available in multi-size GUI resolutions
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