Introducing Nevermore, a reproduction of the famous Yamaha SPX 90 preset Symphonic
Today I would like to introduce Nevermore, which reproduces Witchpig's Yamaha SPX 90 Symphonic.
It doesn't spread to stereo, so it can't be used for the purpose of spreading left and right, but it gives a low-bit Lo-Fi feeling.
However, it looks just like SoundToys' effect.
To use it with FL Studio, you need to change the following settings.
If you leave it as it is, the sound when "NOISY" is set will be strange.
Settings for use with FL Studio
There are two changes.
① Enable the setting of "Use fixed size buffers" from the gear icon
② Check "Process maximum size buffers" in "More"
Sound demo
First, I played a preset with a simple sine wave chord and changed the parameters.
As a similar type, FL Studio users can use the attached "vintage chorusIs recommended.
Overview
SPX Nevermore is an attempt to recreate the Symphonic presets of the 1990s Yamaha SPX 90 rack effector.This was a cheap 12-bit digital FX unit and was notorious for being noisy, so we enabled the 'Noisy' and '12 Bit' switches by default.I found that I needed this low bitrate and background noise in the signal before the stereo flanger effect to get closer to the lo-fi sound of the original.
The SPX Symphonic preset is famous for being used on Nirvana's bass on the 'NEVERmind' album and Zakk Wylde's guitar on Ozzy's 'No MORE Tears'.
Download
You can download it without registration.
Go to the above link and click "DOWNLOAD SPX NEVERMORE"
Since it will transition to DropBox, click "Download"
This will start the download.
Installation
Unzip the downloaded file and put "Nevermore.vst3" in the folder below.
C: \ Program Files \ Common Files \ VST3
Summary
It's not bad as it is, but I think it's a bit of a shame as the concept is very good.
It feels good to be Lo-Fi, but if the noise level changes with "MIX", the usability will be greatly different.
Also, I feel that the current "12BIT" and "24BIT" switches are not working.
I think that it will be a pretty good plugin if the functions around here are improved.
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