Wavetable synthesis

Source: Wikipedia, the free encyclopedia.
This article is about digital audio synthesis. For the physics demonstrator for planar waves, see Ripple tank.
Not to be confused with Sample-based synthesis.

Wavetable synthesis is a

sound synthesis technique used to create quasi-periodic waveforms often used in the production of musical tones or notes
.

Development

Wavetable synthesis was invented by Max Mathews in 1958 as part of MUSIC II. MUSIC II “had four-voice polyphony and was capable of generating sixteen wave shapes via the introduction of a wavetable oscillator.”[1]

Access
. It is currently used in hardware synthesizers from Waldorf Music and in software synthesizers for PCs and tablets, including apps offered by PPG and Waldorf, among others.

It was also independently developed by Michael McNabb, who used it in his 1978 composition Dreamsong.[5][6]

Principle

Wavetable synthesis is fundamentally based on periodic reproduction of multiple arbitrary, single-cycle waveforms.[7] In wavetable synthesis, some method is employed to vary or modulate the selected waveform in the wavetable. The position in the wavetable selects the single cycle waveform. Digital interpolation between adjacent waveforms allows for dynamic and smooth changes of the timbre of the tone produced. Sweeping the wavetable in either direction can be controlled in a number of ways, for example, by use of an LFO, envelope, pressure or velocity.

Many wavetables used in PPG and Ensoniq synthesizers can simulate the methods used by analog synthesizers, such as pulse-width modulation by utilising a number of square waves of different duty cycles. In this way, when the wavetable is swept, the duty cycle of the pulse wave will appear to change over time. As the early Ensoniq wavetable synthesizers had non resonant filters (the PPG Wave synthesizers used analogue Curtis resonant filters), some wavetables contained highly resonant waveforms to overcome this limitation of the filters.

Confusion with sample-based synthesis (S&S) and Digital Wave Synthesis

In 1992, with the introduction of the

FM synthesis
.

S&S (Sample and Synthesis) and Digital Wave Synthesis was the main method of sound synthesis utilised by digital synthesizers starting in the mid 1980s with synthesizers such as Sequential Circuits Prophet VS, Korg DW6000/8000 (DW standing for Digital Wave), Roland D50 and Korg M1 through to current synthesizers.

Ableton addressed some confusion in an article:[10]

Wait, so isn't this just sampled synthesis? Let's pause here to address a common confusion. While sampled synthesis involves the use of a static digital sample, wavetable synthesis allows for the (optional) evolution of a waveform; this is to say, while wavetable synths can sound like sampled synthesis, the evolving option (which is enabled by default on most classic wavetable sounds) differentiates it.

Often they now have displays showing a real time 3d graphs of the wave table being played back with the current waveform highlighted which is the signature feature common in modern wavetable synths.

User wavetables

The creation of new wavetables was previously a difficult process unless supported by specialized editing facilities and (near) real-time playback of edited wavetables on the synthesizer. Such editors often required the use of extra hardware devices like the

frequency-domain
representation are exact equivalents of each other and both can be used simultaneously to define waveforms and wavetables.

Practical use

During playback, the sound produced can be harmonically changed by moving to another point in the wavetable, usually under the control of an

synth pads
, where the sound changes slowly over time.

It is often necessary to 'audition' each position in a wavetable and to scan through it, forwards and backwards, in order to make good use of it, though selecting random wavetables, start positions, end positions and directions of scan can also produce satisfying musical results. It is worth noting that most wavetable synthesizers also employ other synthesis methods to further shape the output waveform, such as subtractive synthesis (filters), phase modulation, frequency modulation and AM (ring) modulation.

Table-lookup synthesis

An example of lookup table, where the data at addresses from 63 to 67 are zoomed.
(based on Figure 2.1 on Nelson 2000)

On

sinusoidal wave
.

Table-lookup synthesis

sound synthesis methods using the waveform tables by table-lookup
, called "table-lookup oscillator" technique. The length of waveforms or samples may be varied by each sound synthesis method, from a single-cycle up to several minutes.

Terminologies

The term "waveform table" (or "wave shape table" as equivalent) is often abbreviated to "wavetable",[14] and its derived term "wavetable oscillator"[15] seems to be almost the same as "table-lookup oscillator" mentioned above, although the word "wave" (or "waveform", "wave shape") may possibly imply a nuance of single-cycle waveform.

However, the derived term "wavetable synthesis" seems slightly confused by the later developments of derived algorithm.

(1) Wavetable synthesis[15]
Its original meaning is essentially the same as "table-lookup synthesis",[16][17][15][18] and possibly several actions on waveform(s) may be expected. ⇒See (2), (3)
(2) Wavetable-modification algorithm[19]
For example, Karplus–Strong string synthesis[20] is a simple class of "wavetable-modification algorithm" known as digital waveguide synthesis.[19]
(3) Multiple wavetable synthesis[21]
In the late-1970s, Michael McNabb[5][6] and Wolfgang Palm[4] independently developed the multiple wavetable extension on the table-lookup synthesis[note 1] which was typically used on PPG Wave and known as wavetable sweeping.[22] Later, it was referred as "multiple wavetable synthesis" by Horner, Beauchamp & Haken 1993.[21]
(4) Sample-based synthesis
Simultaneously, since the late-1970s, sample-based synthesis using relatively long samples instead of single-cycle waveforms has become pervasive due to the introduction of the Fairlight CMI and E-mu Emulator.

Background

On the above four terminologies for the classes of sound synthesis methods — i.e., (1) Wavetable synthesis, (2) Wavetable-modification algorithm, (3) Multiple wavetable synthesis, and (4) Sample-based synthesis — if these had been appropriately used to distinguish each other, any confusions could be avoided, but it seems failed historically. In the 1990s at the latest, several influential

AC97 optional hw acceleration wavetable synth[24]
). In the mid-2000s, confusion in terminology cropped up yet-again. A subclass of generic wavetable synthesis, i.e. McNabb and Palm's multiple wavetable synthesis, tends to be erroneously referred as if it was a generic class of whole wavetable synthesis family, exclusively.[25]

As a result, the difficulty of maintaining consistency between concepts and terminology during rapid technological development is noteworthy. For this reason the term "Table-lookup synthesis" is explained at length in this article.

See also

Notes

  1. ^ "Multiple wavetable synthesis" (Horner, Beauchamp & Haken 1993) developed by Michael McNabb and Wolfgang Palm in the late-1970s, is merely one of the techniques employed to realize dynamically-changing waveforms, by using an array of single-cycle waveforms in table-lookup synthesis. With this synthesis technique, the waveform can be animated in a similar manner as a flip book.

References

  1. ^ Crab, Simon (2013-12-26). "'MUSIC N', Max Vernon Mathews, USA, 1957". 120 Years of Electronic Music. Retrieved 2022-05-26.
  2. ^ A sampling of techniques for computer performance of music by Hal Chamberlin, Byte, September 1977
  3. ^ Palm 2009.
  4. ^ a b Andresen 1979.
  5. ^
    Smith III, Julius O. "Viewpoints on the History of Digital Synthesis: Taxonomy of Digital Synthesis Techniques"
    . Stanford, CA: Stanford University. Retrieved February 24, 2015.
  6. ^ a b McNabb, Michael. "Dreamsong: The Composition" (PDF). Computer Music Journal. 5 (4). Retrieved February 24, 2015.
  7. ^ Bristow-Johnson 1996.
  8. ^ "Sound Blaster ISA Cards - Information and Troubleshooting". Creative Worldwide Support. Archived from the original on 2012-02-02.
  9. ^ "Wavetable Synthesis". WikiAudio. 2018-04-05.
  10. ^ "The New Wave: An In-Depth Look at Live 10's Wavetable". Ableton. Nov 29, 2017.
  11. ^ Nelson, Jon Christopher (2000). "2. Understanding and Using Csound's GEN Routines". The Csound book. Cambridge, MA, USA:
    ISBN 0-262-52261-6
    .    "Csound uses lookup tables for musical applications as diverse as wavetable synthesis, waveshaping, mapping MIDI note numbers and storing ordered pitch-class sets. These function tables (f-tables) contain everything from periodic waveforms to arbitrary polynomials and randomly generated values. The specific data are created with Csound's f-table generator subroutines, or GEN routines. ..."
  12. ^ Roads 1996, p. 87, Introduction to Digital Sound Synthesis, "This chapter outlines the fundamental methods of digital sound production. Following a brief historical overview, we present the theory of table-lookup synthesis—the core of most synthesis algorithms. ..."
  13. ^ Roads 1996, p. 125, Sampling Synthesis, "Pitch-shifting ... variation technique as used in 'wavetable-lookup synthesis described in chapter 3."
  14. ^
    JSTOR 40731292
    . The samples in the wave shape table ...", "FIGURE 1 ... 16 K × 14 BIT WAVETABLE
  15. ^ a b c
    doi:10.1162/014892602320991356.
    "For example, the wavetable oscillator used in Fig. 1
    made its first appearance in Mathews's Music II (two, not eleven) in the late 1950s. Music II was only one in a long sequence of MUSIC N programs, but the idea of wavetable synthesis has had a pervasive influence throughout the computer music discipline."
  16. ^
    ISBN 978-0-262-28860-6
    . In this section ... we will be introduce the table-lookup method for generating waveforms. This method is also called wavetable synthesis ... / Wavetable synthesis is a technique based on reading data that has been stored in blocks of contiguous computer-memory locations, called tables. This sound-synthesis technique was one of the very first software synthesis methods introduced in the MUSIC I-MUSIC V languages developed by Max Mathews at Bell Labs in the late 1950s and the early 1960s. ... / With table-lookup synthesis, it is sufficient to calculate only a single cycle of a waveform, and then store this small set of samples in the table where it serves as a template. ..."
    Note: on the preceding quotation, the authors paraphrased the section title "table-lookup oscillators" as follows: "table-lookup method", "wavetable synthesis", and "table-lookup synthesis".
  17. ^ Hosken, Dan (2012). "The Oscillator". Music Technology and the Project Studio: Synthesis and Sampling. Routledge. p. 72–73.
    ISBN 978-1-136-64435-1
    . The oscillator generates a cycle of some waveform the appropriate number of times per second for the desired fundamental frequency. This is referred to variously as fixed-waveform synthesis, table-lookup synthesis, or wavetable synthesis.
  18. ^ Cullen & Howell 2006, "SOS contributor Steve Howell replies: Wavetable synthesis is actually quite easy to understand. In the early days of synthesis, (analogue) oscillators provided a limited range of waveforms, such as sine, triangle, sawtooth and square/pulse, normally selected from a rotary switch. This gave the user a surprisingly wide range of basic sounds to play with, especially when different waveforms were combined in various ways.
    (HTML version available)
  19. ^ a b US application 5212334,
    Karplus–Strong algorithm. Stanford University owns the patent rights for digital waveguide synthesis and signed an agreement in 1989 to develop the technology with Yamaha
    .")
  20. ^
    JSTOR 3680062
    . Wavetable Synthesis: One standard synthesis technique is the wavetable synthesis algorithm. ... The wavetable-synthesis technique is very simple but rather dull musically, since it produces purely periodic tones. ... All the algorithms described in this paper produce the variation in sound by modifying the wavetable itself.
  21. ^ a b Horner, Andrew; Beauchamp, James; Haken, Lippold (1993). "Methods for multiple wavetable synthesis of musical instrument tones" (PDF). J. Audio Eng. Soc. 41 (5) (published May 1993): 336–356. Multiple wavetable synthesis, the subject of this paper, is based on a sum of fixed waveforms or periodic basis functions with time-varying weights.
  22. ^ Cullen & Howell 2006, "However, in the late '70s, Wolfgang Palm used 'wavetable' digital oscillators in his innovative PPG Wave synths. Instead of having just three or four waveforms, a wavetable oscillator can have many more — say, 64 — because they are digitally created and stored in a 'look-up table' ... Now, if the waveforms are sensibly arranged, we can begin to create harmonic movement in the sound. ... you approach something not unlike a traditional filter sweep. ..."
  23. ^ Scheirer, Eric D. (MIT Media Lab); Ray, Lee (Joint E-Mu/Creative Technology Center) (1998). "Algorithmic and Wavetable Synthesis in the MPEG-4 Multimedia Standard". 105th Audio Engineering Society (AES) Convention (San Francisco, California).
    CiteSeerX 10.1.1.35.2773
    . 2.2 Wavetable synthesis with SASBF: The SASBF wavetable-bank format had a somewhat complex history of development. The original specification was contributed by E-Mu Systems and was based on their "SoundFont" format [15]. After integration of this component in the MPEG-4 reference software was complete, the MIDI Manufacturers Association (MMA) approached MPEG requesting that MPEG-4 SASBF be compatible with their "Downloaded Sounds" format [13]. E-Mu agreed that this compatibility was desirable, and so a new format was negotiated and designed collaboratively by all parties.
  24. ^ "1.4 Integrating AC '97 into the System" (PDF). AC '97 Component Specification Revision 2.3 Rev 1.0. Intel Corporation. April 2002. p. 11. Figure 2. AC '97 System Diagram: AC '97 Digital Controller / Optional hw acceleration / SRC*, mix*, 3D positional*, wavetable synth*
  25. ^ Cullen & Howell 2006, "Other synths have employed wavetable synthesis in one guise or another since then, and there are several software synths available today which incorporate wavetable synthesis capabilities."
    Note: Regarding the previous quotation, a specific wavetable synthesis developed by Wolfgang Palm, known as "multiple wavetable synthesis", is ambiguously referred as "wavetable synthesis".

Bibliography

External links
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