![]() ![]() The target can be any reference audio file on the user's computer, or one of our pre-made genre targets, which were derived from analyzing the latest chart-topping hits. By measuring the microdynamics of the source and knowing the microdynamics of the target, the Impact module can be set to match the source to the target. Since the Impact module is multiband, the auto-gain ensures that each band stays level and the tonal balance of the signal is not significantly adjusted.įinally, this new module allows the Master Assistant to perform a groundbreaking multiband microdynamics match between a user's audio and a target. ![]() This is paired with a powerful auto-gain that combines static and dynamic balancing of output to match the input. This enables a more intuitive control over the expansion or compression of the dynamic range of the signal in each band. The new processing that powers the Impact module directly adjusts that relative measurement of microdynamics via a single user-facing parameter. By using a ratio, this relative measurement is unaffected by the macrodynamic changes in loudness between various sections of a song. This measurement is defined by the ratio between a short and long term amplitude envelope. Our new processor builds upon research into perceived measures of microdynamics. Studies have shown that "Loudness Dynamic Range" (LDR) matches well with how humans perceive microdynamics. Records with high levels of microdynamics will be perceived as "punchy" or "snappy." Microdynamics, on the other hand, are the short term changes in loudness between the transient and sustain of a note or drum hit. The term "microdynamics" is relatively new in the audio engineering vocabulary, so it's worth defining: Macrodynamics refer to loudness changes over a long time-scale, like the relative volume of a verse to a chorus. ![]()
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