By John Walden
In last month's Cubase column (/sos/jul12/articles/cubase.htm), I explored how to use Groove Quantize to extract the subtle rhythmic and dynamics variations that make up the 'groove' of one MIDI part, and apply them to another. Although the mechanics are slightly different, similar techniques can be used with audio parts, and that's our subject here. If you want to know more about grid-based quantisation of multi-miked, multitrack, audio (for example, from a drum kit) check out the workshop in SOS March 2012.
Prepare To Groove
To prepare the audio for groove quantising, I'll use a similar example to last month — taking a groove from a short (stereo) drum recording and applying that to other parts, such as bass and rhythm guitar. Imagine that the bass and guitar were originally recorded to a different drum performance but, in order to spice things up a little, the drum part has been replaced with a new recording which has a slightly different feel (more funky) than the original. So the task is to keep the bass and guitar parts, but give them a little more of the groove from our new drum performance.
First, double-click on the drum audio event to open it in the Sample Editor. You can now adjust the Threshold setting under the Hitpoint tab, to identify the key drum-hit thresholds. When working with drums, I tend to use a relatively low Threshold setting to capture even the quieter hits (in this case, from the hi-hat), but if Cubase has identified some additional spurious hits, you can manually disable individual hitpoints: with the Edit Hitpoints button engaged, hold down the Shift key and click on them (and move them if you don't think the algorithm has got the positioning spot-on). Don't forget the Remove All button if you decide to start from scratch.
Extraction
Having generated and sorted your hitpoints, you can make a groove preset from them directly from the Sample Editor window, via the Edit menu, or by dragging and dropping to the Quantize Panel, and it's worth noting that these three different methods don't always seem to produce consistent results (nope, I've no idea why either!). Personally, I tend to stick with the second approach, but see which works best for you.
With the drum part selected in the Project window, select the the Edit/Advanced Quantize/Create Groove Quantize Preset menu option. This uses the full length of the audio event to create the groove preset. Once done, make sure you save the preset (the name has an asterisk at the start of it when it has not been saved) and give it a meaningful name.
Groovy Application
To apply your groove to another audio performance, two different approaches may be used: AudioWarp and slicing.
For non-drum-based material, such as bass and rhythm-guitar parts, the AudioWarp approach can produce pretty decent results. First, create hitpoints for the audio that's to be quantised. When we later quantise the part, AudioWarp will time-stretch/compress the parts being quantised, so that the hitpoints align more closely with those in the groove preset.
As with any time-stretching process, though, if you ask too much of AudioWarp you can end up with all sorts of unpleasant audio artifacts. This is one reason why I suggested starting with a low hitpoint detection threshold when creating your groove preset: because there are a lot of hitpoints, it's less likely that the quantise process will have to stretch or compress any individual bit of your target audio too far.
For the target audio, I prefer to create the required hitpoints via the Sample Editor, as it lets me fine-tune the process. A hitpoint at the start of each note or chord is a good starting point, and this can easily be checked by auditioning individual slices within the Sample Editor. As shown in my bass-guitar example, the hitpoint-detection process will sometimes be fooled by things like finger or fret noise at the end of notes and chords, and I tend to find that I get smoother results if I disable these hitpoints in the Sample Editor prior to applying any quantisation. Cubase can add hitpoints automatically for you when you select the audio event in the Project window and then open the Quantize Panel — but you don't get the same level of control if you use that method.
Once you've created and fine-tuned the hitpoints, open Cubase's Quantize Panel, select the groove preset and engage the AudioWarp button. For more gradual control over the quantise process, the iQ (iterative quantise) mode is useful: as the name suggests, this allows you to get closer to the groove by degrees, rather than snapping wholly to the groove, and this means that you can make the timing progressively tighter.
As shown in the screenshot, for both the bass and guitar parts used here a setting of 25 percent for the iQ and Position controls provided a good starting point, as it allowed me to repeatedly press the Quantize button and listen as the audio was gradually quantised a little more firmly with each iteration. In addition, a Max Move setting of 16th or 32nd intervals stopped the quantise process from moving any hitpoint too far from its original position, ensuring a smoother end result.
Nice Slice Baby
Slicing is probably best used with audio tracks containing very sharp transients, such as drums or percussion, although there's nothing to stop you trying it with simple bass or rhythm guitar examples such as those we're trying to 'groove' here. When dealing with a single-track recording (rather than the multitrack drum recordings considered in SOS March 2012), the process is slightly different, as the slicing is done in the Sample Editor. Essentially, you create hitpoints as described above, and then press the Create Slices button to slice the audio at each hitpoint.
Once you've created your slices, the audio event is turned into an audio part in the Project window, containing separate events for each slice. You can now use the same combination of Position, iQ Mode and Max Move in the Quantize Panel as given in the earlier example (but leave AudioWarp switched off). The quantisation is then achieved by simply moving the start positions of each slice within the part to more closely match the hitpoints in the groove.
As with any slicing process, moving slices
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