Sample-based synthesis: Difference between revisions

{{UnreferencedMore citations needed|date=DecemberFebruary 20092024}}

'''Sample-based synthesis''' is a form of audio synthesis that can be contrasted to either [[subtractive synthesis]] or [[additive synthesis]]. The principal difference with sample-based synthesis is that the seed waveforms are [[sample (signal)|sample]]d sounds or instruments instead of fundamental waveforms such as [[sine wave|sine]] and [[saw wave]]s used in other types of synthesis.<ref>''Synthesizer Basics''. United States, H. Leonard Books, 1988. 72f.</ref>

When sample-based synthesis was first developed,{{When?|date=June 2018}}{{Who?|date=June 2018}} most affordable consumer synthesizers{{what?|date=June 2018}} could not record arbitrary samples, but instead formed [[timbre]]s by combining pre-recorded samples from [[Read-only memory|ROM]]{{citation needed|date=June 2018}} before routing the result through [[analog electronics|analog]] or [[Digital data|digital]] [[electronic filter|filters]]. These synthesizers and their more complex descendants are often referred to as [[ROMpler|ROMplers]].

Sample-based instruments have been used since the [[Computer Music Melodian]], the [[Fairlight CMI]] and the NED [[Synclavier]]. These instruments were way ahead of their time and were correspondingly expensive. The first recording using a sampling synthesizer was "[[Stevie Wonder's Journey Through "The Secret Life of Plants"]]" (1979){{citation needed|date=June 2018}} which used the [[Sampler (musical instrument)#Computer Music Melodian|Computer Music Melodian]] to create complex melodies and rhythms{{citation needed|date=June 2018}} from sampled sounds from nature. The first tune Wonder recorded was "The First Garden" where he used a sampled bird chirp as the lead sound in the song. More affordable{{Peacock term|date=June 2018}} sample-based synthesizers available for the masses with the introduction of the [[Ensoniq Mirage]] (1984), [[Roland D-50]] (1987) and the [[Korg M1]] (1988), which surfaced in the late eighties. The M1 also introduced{{citation needed|date=June 2018}} the ''[[music workstation]]'' concept.

==Advantages of sample-based synthesis==

A sample-based synthesizer's ability to reproduce the nuances of natural instruments is determined primarily by its library of sampled sounds. In the earlier days of sample-based synthesis, [[computer memory]] was expensive and samples had to be as short and as few as possible. This was achieved by [[Loop (music)|looping]] a part of the sample (often a single wave), and then using a volume [[Envelope (waves)|envelope curve]] to make the sound fade away. An amplifying stage would translate key velocity into [[Gain (electronics)|gain]] so that harder playing would translate into louder playback. In some cases key velocity also modulates the [[attack time]] of the instrument, leading to a faster attack for loud passages.

A more flexible sample-based synthesis design allowing the user to record arbitrary waveforms to form a sound's basic timbre is called a [[sampler (musical instrument)|sampler]]. Early samplers were very expensive, and typically had low [[sample rate]]s and [[Audio bit depth|bit depth]], resulting in grainy and [[aliasing|aliased]] sound. Since the late-1980s, however, samplers have featured specifications at least as good as [[Compact disc|CD]]s. By the late 1990s, the huge increases in computer processor speed permitted the widespread development of [[software synthesizer]]s and [[software sampler]]s. The vast storage capacity of modern computers was ideally suited to sample-based synthesis, and many samplers have thus migrated to software implementations or been superseded by new software samplers.