"The Art of Noises " by Luigi Russolo :: Italian Futurist

'The Art of Noises'
Luigi Russolo

Dear Balilla Pratella, great Futurist composer,

In Rome, in the Costanzi Theatre, packed to capacity, while I was listening to the orchestral performance of your overwhelming Futurist music, with my Futurist friends, Marinetti, Boccioni, Carrà, Balla, Soffici, Papini and Cavacchioli, a new art came into my mind which only you can create, the Art of Noises, the logical consequence of your marvelous innovations.

Ancient life was all silence. In the nineteenth century, with the invention of the machine, Noise was born. Today, Noise triumphs and reigns supreme over the sensibility of men. For many centuries life went by in silence, or at most in muted tones. The strongest noises which interrupted this silence were not intense or prolonged or varied. If we overlook such exceptional movements as earthquakes, hurricanes, storms, avalanches and waterfalls, nature is silent.

Amidst this dearth of noises, the first sounds that man drew from a pieced reed or streched string were regarded with amazement as new and marvelous things. Primitive races attributed sound to the gods; it was considered sacred and reserved for priests, who used it to enrich the mystery of their rites.

And so was born the concept of sound as a thing in itself, distinct and independent of life, and the result was music, a fantastic world superimposed on the real one, an inviolatable and sacred world. It is easy to understand how such a concept of music resulted inevitable in the hindering of its progress by comparison with the other arts. The Greeks themselves, with their musical theories calculated mathematically by Pythagoras and according to which only a few consonant intervals could be used, limited the field of music considerably, rendering harmony, of which they were unaware, impossible.

The Middle Ages, with the development and modification of the Greek tetrachordal system, with the Gregorian chant and popular songs, enriched the art of music, but continued to consider sound in its development in time, a restricted notion, but one which lasted many centuries, and which still can be found in the Flemish contrapuntalists' most complicated polyphonies.

The chord did not exist, the development of the various parts was not subornated to the chord that these parts put together could produce; the conception of the parts was horizontal not vertical. The desire, search, and taste for a simultaneous union of different sounds, that is for the chord (complex sound), were gradually made manifest, passing from the consonant perfect chord with a few passing dissonances, to the complicated and persistent dissonances that characterize contemporary music.

At first the art of music sought purity, limpidity and sweetness of sound. Then different sounds were amalgamated, care being taken, however, to caress the ear with gentle harmonies. Today music, as it becomes continually more complicated, strives to amalgamate the most dissonant, strange and harsh sounds. In this way we come ever closer to noise-sound.

This musical evolution is paralleled by the multiplication of machines, which collaborate with man on every front. Not only in the roaring atmosphere of major cities, but in the country too, which until yesterday was totally silent, the machine today has created such a variety and rivalry of noises that pure sound, in its exiguity and monotony, no longer arouses any feeling.

To excite and exalt our sensibilities, music developed towards the most complex polyphony and the maximum variety, seeking the most complicated successions of dissonant chords and vaguely preparing the creation of musical noise. This evolution towards "noise sound" was not possible before now. The ear of an eighteenth-century man could never have endured the discordant intensity of certain chords produced by our orchestras (whose members have trebled in number since then). To our ears, on the other hand, they sound pleasant, since our hearing has already been educated by modern life, so teeming with variegated noises. But our ears are not satisfied merely with this, and demand an abundance of acoustic emotions.

On the other hand, musical sound is too limited in its qualitative variety of tones. The most complex orchestras boil down to four or five types of instrument, varying in timber: instruments played by bow or plucking, by blowing into metal or wood, and by percussion. And so modern music goes round in this small circle, struggling in vain to create new ranges of tones.

This limited circle of pure sounds must be broken, and the infinite variety of "noise-sound" conquered.

Besides, everyone will acknowledge that all musical sound carries with it a development of sensations that are already familiar and exhausted, and which predispose the listener to boredom in spite of the efforts of all the innovatory musicians. We Futurists have deeply loved and enjoyed the harmonies of the great masters. For many years Beethoven and Wagner shook our nerves and hearts. Now we are satiated and we find far more enjoyment in the combination of the noises of trams, backfiring motors, carriages and bawling crowds than in rehearsing, for example, the "Eroica" or the "Pastoral".

We cannot see that enormous apparatus of force that the modern orchestra represents without feeling the most profound and total disillusion at the paltry acoustic results. Do you know of any sight more ridiculous than that of twenty men furiously bent on the redoubling the mewing of a violin? All this will naturally make the music-lovers scream, and will perhaps enliven the sleepy atmosphere of concert halls. Let us now, as Futurists, enter one of these hospitals for anaemic sounds. There: the first bar brings the boredom of familiarity to your ear and anticipates the boredom of the bar to follow. Let us relish, from bar to bar, two or three varieties of genuine boredom, waiting all the while for the extraordinary sensation that never comes.

Meanwhile a repugnant mixture is concocted from monotonous sensations and the idiotic religious emotion of listeners buddhistically drunk with repeating for the nth time their more or less snobbish or second-hand ecstasy.

Away! Let us break out since we cannot much longer restrain our desire to create finally a new musical reality, with a generous distribution of resonant slaps in the face, discarding violins, pianos, double-basses and plaintive organs. Let us break out!

It's no good objecting that noises are exclusively loud and disagreeable to the ear.

It seems pointless to enumerate all the graceful and delicate noises that afford pleasant sensations.

To convince ourselves of the amazing variety of noises, it is enough to think of the rumble of thunder, the whistle of the wind, the roar of a waterfall, the gurgling of a brook, the rustling of leaves, the clatter of a trotting horse as it draws into the distance, the lurching jolts of a cart on pavings, and of the generous, solemn, white breathing of a nocturnal city; of all the noises made by wild and domestic animals, and of all those that can be made by the mouth of man without resorting to speaking or singing.

Let us cross a great modern capital with our ears more alert than our eyes, and we will get enjoyment from distinguishing the eddying of water, air and gas in metal pipes, the grumbling of noises that breathe and pulse with indisputable animality, the palpitation of valves, the coming and going of pistons, the howl of mechanical saws, the jolting of a tram on its rails, the cracking of whips, the flapping of curtains and flags. We enjoy creating mental orchestrations of the crashing down of metal shop blinds, slamming doors, the hubbub and shuffling of crowds, the variety of din, from stations, railways, iron foundries, spinning wheels, printing works, electric power stations and underground railways.

Nor should the newest noises of modern war be forgotten. Recently, the poet Marinetti, in a letter from the trenches of Adrianopolis, described to me with marvelous free words the orchestra of a great battle:

"every 5 seconds siege cannons gutting space with a chord ZANG-TUMB-TUUMB mutiny of 500 echos smashing scattering it to infinity. In the center of this hateful ZANG-TUMB-TUUMB area 50 square kilometers leaping bursts lacerations fists rapid fire batteries. Violence ferocity regularity this deep bass scanning the strange shrill frantic crowds of the battle Fury breathless ears eyes nostrils open! load! fire! what a joy to hear to smell completely taratatata of the machine guns screaming a breathless under the stings slaps traak-traak whips pic-pac-pum-tumb weirdness leaps 200 meters range Far far in back of the orchestra pools muddying huffing goaded oxen wagons pluff-plaff horse action flic flac zing zing shaaack laughing whinnies the tiiinkling jiiingling tramping 3 Bulgarian battalions marching croooc-craaac [slowly] Shumi Maritza or Karvavena ZANG-TUMB-TUUUMB toc-toc-toc-toc [fast] crooc-craac [slowly] crys of officers slamming about like brass plates pan here paak there BUUUM ching chaak [very fast] cha-cha-cha-cha-chaak down there up around high up look out your head beautiful! Flashing flashing flashing flashing flashing flashing footlights of the forts down there behind that smoke Shukri Pasha communicates by phone with 27 forts in Turkish in German Allo! Ibrahim! Rudolf! allo! allo! actors parts echos of prompters scenery of smoke forests applause odor of hay mud dung I no longer feel my frozen feet odor of gunsmoke odor of rot Tympani flutes clarinets everywhere low high birds chirping blessed shadows cheep-cheep-cheep green breezes flocks don-dan-don-din-baaah Orchestra madmen pommel the performers they terribly beaten playing Great din not erasing clearing up cutting off slighter noises very small scraps of echos in the theater area 300 square kilometers Rivers Maritza Tungia stretched out Rodolpi Mountains rearing heights loges boxes 2000 shrapnels waving arms exploding very white handkerchiefs full of gold srrrr-TUMB-TUMB 2000 raised grenades tearing out bursts of very black hair ZANG-srrrr-TUMB-ZANG-TUMB-TUUMB the orchestra of the noises of war swelling under a held note of silence in the high sky round golden balloon that observes the firing..."

We want to attune and regulate this tremendous variety of noises harmonically and rhythmically.

To attune noises does not mean to detract from all their irregular movements and vibrations in time and intensity, but rather to give gradation and tone to the most strongly predominant of these vibrations.

Noise in fact can be differentiated from sound only in so far as the vibrations which produce it are confused and irregular, both in time and intensity.

Every noise has a tone, and sometimes also a harmony that predominates over the body of its irregular vibrations.

Now, it is from this dominating characteristic tone that a practical possibility can be derived for attuning it, that is to give a certain noise not merely one tone, but a variety of tones, without losing its characteristic tone, by which I mean the one which distinguishes it. In this way any noise obtained by a rotating movement can offer an entire ascending or descending chromatic scale, if the speed of the movement is increased or decreased.

Every manifestation of our life is accompanied by noise. The noise, therefore, is familiar to our ear, and has the power to conjure up life itself. Sound, alien to our life, always musical and a thing unto itself, an occasional but unnecessary element, has become to our ears what an over familiar face is to our eyes. Noise, however, reaching us in a confused and irregular way from the irregular confusion of our life, never entirely reveals itself to us, and keeps innumerable surprises in reserve. We are therefore certain that by selecting, coordinating and dominating all noises we will enrich men with a new and unexpected sensual pleasure.

Although it is characteristic of noise to recall us brutally to real life, the art of noise must not limit itself to imitative reproduction. It will achieve its most emotive power in the acoustic enjoyment, in its own right, that the artist's inspiration will extract from combined noises.

Here are the 6 families of noises of the Futurist orchestra which we will soon set in motion mechanically:

1 2 3 4 5 6
Rumbles Whistles Whispers Screeches Noises obtained by percussion on metal, wood, skin, stone, tarracotta, etc. Voices of animals and men:
Roars Hisses Murmurs Creaks Shouts
Explosions Snorts Mumbles Rustles Screams
Crashes Grumbles Buzzes Groans
Splashes Gurgles Crackles Shrieks
Booms Scrapes Howls
Laughs
Wheezes
Sobs

In this inventory we have encapsulated the most characteristic of the fundamental noises; the others are merely the associations and combinations of these. The rhythmic movements of a noise are infinite: just as with tone there is always a predominant rhythm, but around this numerous other secondary rhythms can be felt.

Conclusions

1. Futurist musicians must continually enlarge and enrich the field of sounds. This corresponds to a need in our sensibility. We note, in fact, in the composers of genius, a tendency towards the most complicated dissonances. As these move further and further away from pure sound, they almost achieve noise-sound. This need and this tendency cannot be satisfied except by the adding and the substitution of noises for sounds.

2. Futurist musicians must substitute for the limited variety of tones posessed by orchestral instruments today the infinite variety of tones of noises, reproduced with appropriate mechanisms.

3. The musician's sensibility, liberated from facile and traditional Rhythm, must find in noises the means of extension and renewal, given that every noise offers the union of the most diverse rhythms apart from the predominant one.

4. Since every noise contains a predominant general tone in its irregular vibrations it will be easy to obtain in the construction of instruments which imitate them a sufficiently extended variety of tones, semitones, and quarter-tones. This variety of tones will not remove the characteristic tone from each noise, but will amplify only its texture or extension.

5. The practical difficulties in constructing these instruments are not serious. Once the mechanical principle which produces the noise has been found, its tone can be changed by following the same general laws of acoustics. If the instrument is to have a rotating movement, for instance, we will increase or decrease the speed, whereas if it is to not have rotating movement the noise-producing parts will vary in size and tautness.

6. The new orchestra will achieve the most complex and novel aural emotions not by incorporating a succession of life-imitating noises but by manipulating fantastic juxtapositions of these varied tones and rhythms. Therefore an instrument will have to offer the possibility of tone changes and varying degrees of amplification.

7. The variety of noises is infinite. If today, when we have perhaps a thousand different machines, we can distinguish a thousand different noises, tomorrow, as new machines multiply, we will be able to distinguish ten, twenty, or thirty thousand different noises, not merely in a simply imitative way, but to combine them according to our imagination.

8. We therefore invite young musicians of talent to conduct a sustained observation of all noises, in order to understand the various rhythms of which they are composed, their principal and secondary tones. By comparing the various tones of noises with those of sounds, they will be convinced of the extent to which the former exceed the latter. This will afford not only an understanding, but also a taste and passion for noises. After being conquered by Futurist eyes our multiplied sensibilities will at last hear with Futurist ears. In this way the motors and machines of our industrial cities will one day be consciously attuned, so that every factory will be transformed into an intoxicating orchestra of noises.

Dear Pratella, I submit these statements to your Futurist genius, inviting your discussion. I am not a musician, I have therefore no acoustical predilictions, nor any works to defend. I am a Futurist painter using a much loved art to project my determination to renew everything. And so, bolder than a professional musician could be, unconcerned by my apparent incompetence and convinced that all rights and possibilities open up to daring, I have been able to initiate the great renewal of music by means of the Art of Noises.

Switched On: Early Electronic Oddities

EARLY ELECTRONIC ODDITIES is an exploration of the strange and subliminal sounds of early electronic musical instruments from 1860 to 1970, and many now almost obsolete daring and experimental creations like the Mixtur-Trautonium, the Ondes-Martenot, the Rhythmicon, the Ondioline, the RCA synthesizer, electro-theremin and the inventions of the Italian Futurists and Raymond Scott. Live discussions, field recordings and amazingly unearthed rare recordings presented by two theremin players, Miss Hypnotique and Bruce Woolley. Features recorded contributions by Bob Moog and Jean-Jacques Perrey.
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Download MP3's of the archived broadcast:

[Early Electronic Oddities Pt. 1 (33 MB)] // [Early Electronic Oddities Pt. 2 (30 MB)]

(*Originally broadcast 10/29/04 on London's Resonance 104.4fm.)

Playlist:

Part 1:
1. Radio Nottingham - the Radiophonic Workshop
2. Chorale - Antonio Russolo
3. Celestial Nocturne - Samuel Hoffman (theremin)
4. Concerto for Ondes-Martenot - Andre Jolivet featuring Jeanette Martenot
5. Various soundtracks - Paul Tanner plays Electro-theremin
6. Now in heaven you can hear the latest Fall album - Hypnotique (Rhythmicon)
7. Jean-Jacques talk about the Ondioline
8. Demonstration from Fantasy for Mixtur-Trautonium - Oscar Sala
9. Telstar - The Tornadoes (Clavioline)

Part 2:
10: Bob Moog - talks about the RCA Synthesizer (background music: the Man from Uranus)
11: Nola - Felix Arndt (RCA synthesizer)
12. Return of the Elohim Pt 1- Zorch (VSC3)
13. CoilANS - Coil (ANS synthesizer)
14. Silver apples of the moon - Morton Subotnik (Buchla Modular)
15: Bob Moog talks about Raymond Scott (music from 'Manhattan Space Research')
16: Zwi Zwi oo oo oo - Delia Derbyshire (Wobbulator)
17: Modified clarinet - Reed Ghazal (Circuit Bent instrument)
18: In a Delian Mode - Delia Derbyshire (Radiophonic Workshop)
19. Return of the Elohim Pt 2 - Zorch (VSC3)
20: Futurama (Raymond Scott advert)

Written resources:

Early Sound Experiments

Even before the invention of electricity, man has experimented with mechanics to produce sound, from ancient Tibetan prayers wheels and the Greek's Aeolian Harp's which were played by the wind, through to the first wind up barrel organ in the sixteenth century, and in the eighteenth century, mechanical birds and the glass harmonica which anticipated the sound of electronics.

In 1752, the world became, quite literally Switched On, when Benjamin Franklin performed his famous experiment with a kite, drawing down electricity from the clouds and first stimulating the fusion of science and nature which is electricity. One of the founding fathers of electricity, Thomas Edison, illuminated the world with his demonstration of the light bulb in 1879, two years after inventing the phonograph. Telegraphs and telephony began to connect people, and in 1910 the first radio broadcast took place in New York. The world became connected by the power of electricity, and sound produced through electricity and electronic sound reproduction was set to take over the 20th century.

The story of early electronic instruments is the story of pioneers, dreamers, schemers and losers. It's a story of bold ideas and bad debts, bizarre lives and forgotten deaths, and events of "synchronicity" - actions which extend beyond mere coincidence. The relationship between sounds found in our environment and music has become closer, classical instruments and the old masters have become increasingly redundant, as new sonic possibilities have been unleashed to challenge the warring world.

The Futurists

Before electronic instruments became commonplace in the 1910s and 1920s, the Italian avant-garde Futurists called for an exploration into the possibilities of new sound worlds in their manifestos, like Busoni's exploration of Microtonal Harmony and the breaking of classical timbres in Russolo's Art of Noises. The futurists experimented with homemade 'sound boxes' to produce original and novel sounds. Edgar Varese, composer of percussive-sonic piece Ionisation saw the scope for 'sound producing machines' that would ultimately lead to the 'liberation of sound'.

The first electronic instruments

Towards the end of the 19th century, a number of instruments that can be considered electronic were invented by scientists and academics. Helmholtz's 1860 'Helmholtz Resonanator' used electro-magnetic vibrating glass and metal sphere to create different sensations of tone.

Although Elisha Gray was piped by Alexander Graham Bell to the patent of the telephone by just a few hours, he didn't miss a beat when he invented the Musical Telegraph in 1876 which amplified sounds from an electronic oscillator - the world's first electronic keyboard.

The greatest of the early electronic beasts, the Telharmonium, was drawn to live like Frankenstein's monster by Thomas Cahill in 1906. The 200 tonne 60 foot long sand, water and cement constructed keyboard instrument used dynamos to produce alternating current over various audio frequencies. Controlled by many keyboards, gears and wires and amplified by giant acoustic horns, the idea was to hook up the machine to a phone network to pipe music into restaurants, stores and theatres - a forerunner to Musak. So vast was the machine, during concerts it broke the stage, and the machine interfered with the phone network, so consequently it died a death before the first world war. Cahill was ahead of his time; it was to be another 50 years before electronic keyboard instruments finally caught on, as the principle of the Telharmonium formed the basis of one of the most successful electronic instruments of all time - the Hammond organ.

Vacuum tube technology

De Forest was a prolific inventor with 300 patents to his name. Shortly after a failed collaboration with Thomas "Telharmonium" Cahill, De Forest discovered a method of combining two inaudible high-frequency sound waves to produce an audible low-frequency wave, a technique called heterodyning, or beat frequency oscillation. In 1915, De Forest created the first vacuum tube instrument - a small monophonic keyboard called the Audion Piano (nicknamed by De Forest the "Squak-a-Phone"), but once more, it quacked an early death. However, vacuum tube technology was to take over the next era of electronic instruments from the 1920s onwards.

The theremin

The theremin, invented by Russian Lev Termen (also known as Leon Theremin), in 1920 remains the world's only true space control instrument - and one which has proved enigmatic, mysterious and popular for the last 85 years. Originally marketed by the RCA radio corporation as an instrument that "anyone who can hum, sing, or whistle" could play, it's unusually design of a cabinet with two aerials and nothing short of unconventional playing technique of the hands moving in the ether creating part of the electromagnetic circuit, one hand for pitch, the other for value - is visually hypnotic, but near impossible to master - which caused an untimely death, before it was revived in film soundtracks in the 1950s. The giant theremin, the Terpsitone, which the musician had to 'dance' the melody in a huge playing field was an even more challenging and bizarre incarnation which no longers exists. Only a handful of players over the years have truly mastered it, namely: 1930s Russian virtuoso Clara Rockmore, whose Art of the Theremin CD remains the classic theremin recording; Dr Samuel Hoffman, a chiropodist by day and thereminist by night who played on the soundtrack for spooky sci-fi and horror films like The Day the Earth Stood Still and Spellbound.

Nowadays, everyone who is anyone plays the theremin to standards good, bad and indifferent- from Comedians like John Otway and Bill Bailey to more serious contenders like Leon Theremin's grand-niece Lydia Kavina - considered the world's greatest living thereminist. Slide, glide, shape, gyrate, imitate, modulate or create - although just a simple pure electronic tone, the theremin remains the ultimate electronic oddity. Its scope extends far beyond the spooky sounds of sci-fi popularised in the movies, it delves into the deepest realms of the sonic imagination.

More information:
http://www.thereminworld.com/
http://www.theremin.info/
http://www.hypnotique.net/theremin/index.htm

Ondes-Martenot

Another instruments using the principle of heterodyning oscillators actually caught on a little. In 1928, French telegraphist and cellist Maurice Martenot conceived and constructed the Ondes-Martenot. Much like the theremin, Martenot's instrument was intended to be integrated into the traditional orchestra and it is still featured in orchestras across the world, principally in Olivier Messiaen's Turangalila Symphony.

Some argue that the reason for the Ondes Martenot's success was that, unlike the theremin, it used a traditional keyboard layout, with a separate finger control for glissando and vibrato as well as keys to adjust the timbre. Martenot wowed the French academia to love and admire his instrument, even at the curse of more commercial electronic instruments like the Ondioline, and to an extent Martenot had a stranglehold over other electronic instruments being used in serious contemporary music, thanks to the support of French composers like Varese and Messiaen. The Ondes-Martenot also found its way into the sounds of Hollywood with Franz Waxman's 1936 score for The Bride of Frankenstein and the three Ondes-Martenot's score for Hitchcock's film Rebecca. Today the instrument is still manufactured and ever-popular, even Johnny Greenwood from Radiohead plays one on their albums Kid A and Amnesiac.

Electro-theremin

This instrument really does give off Good Vibrations, as it was used on THAT Beach Boys track. The electro-theremin is not actually a theremin as it isn't played in space, but uses an oscillator with a guiding keyboard base to allow for better pitch accuracy - a sort of cross between an Ondes Martenot and a Hawaiian slide guitar. The sound is closer to that of the Ondes than the theremin as it is less rich, using only a sine wave and no vibrato, sounding more 'other worldly' than the vocalistic theremin sound. The electro-theremin was created by actor and electronics wizard, Bob Whitsell in 1958, and it was made famous by former Glen Miller Trombonist Paul Tanner on the album Music from Heavenly Bodies, numerous TV and film soundtracks, and recordings with the Beach Boys. Tanner sold his electrotheremin in the late 1960s to a hospital to use for checking hearing when he felt keyboard synthesizers were taking over.

More information:
http://www.electrotheremin.com/

Rhythmicon

The brainchild of American avant-garde composer Henry Cowell in 1916, the Rhythmicon was the first prototype of a drum machine and sequencer. Cowell commissioned Russian inventor Leon Theremin to build him a machine capable of transforming harmonic data into rhythmic data and vice versa, which used broken up light playing on a photo-electric cell. Cowell wrote only two piece on the instrument before losing interest. The Rhythmicon featured in some movies in the 1950s and 60s including Dr Strangelove and the Tangerine Dream album Rubicon. No working instruments exist today, but you can use a four part digital simulation on the internet on The Online Rhythmicon website, and record your 'hit' to their internet database.

More information:
The online rhythmicon

Ondioline

A rival instrument to the institutionally powerful Ondes-Martenot, the Ondioline achieved a little popularity in cabaret and popular music - and it was possibly the first instrument capable of imitating the sound of other instruments. Few working Ondiolines exist today, but one who has championed its cause is composer Jean-Jacques Perrey on his early albums with Gershon Kingsley like Kalaeidoscopic Vibrations and The In Sound From Way Out.

The Clavioline and Joe Meek

M Constant made the Clavioline in 1947, a monophonic, portable keyboard which can control octave, timble, attack, and vibrato. It recreated sounds of brass and string in a natural way, and was widely manufactured as a dance-hall organ, marketed as being suitable for "twist, trad and rock". The Clavioline was made popular by pop musicians like The Beatles, Sun Ra, and Joe Meek with the Tornadoes hit Telstar, inspired by the 1962 first satellite transmission. Meek added the sound of the Clavioline to create an otherworldly sound, and he also supposedly added the sound of a flushed toilet played backwards. The weird space-age single rocketed straight to No. 1 and became a worldwide smash hit. Symbolically, when the Telstar satellite became damaged, Meek's life became more and more shattered as his career failed and demons took him over. He killed his landlady in Holloway Road in London before taking his own life in 1967, aged just 37. Meek was a true sonic pioneer and his "Meeksville sound" of compression and close-micing influenced a generation of music producers.

More information:
http://www.clavioline.com/

Trautonium

In 1930, Dr. Friedrich Trautwein invented the Trautonium, the only instrument in the world capable of producing subharmonics, which are the mirror opposite of harmonics, or 'ghost' note like playing a string on a violin only half held down. Oscar Sala, a young student of Trautwein's, pioneered the development of the instrument and made the Mixtur-Trautonium, an improved polyphonic instrument which was used in the soundtrack of Alfred Hitchcock's film The Birds, as the instrument sounded more ominous than the sound of real birds. The Trautonium has advantages over a synthesizer giving freedom of intonation like a fretless string instrument to play microtones and continuous, unrestricted variations of pitch, tone and volume. The player makes contact with a wire stretched over a metal strip to create a circuit. It was a forerunner to the modular synthesizers of the 1960s. Nearly all knowledge of the performance and workings of the Trautonium has died with Oscar Sala in 2002, but the album My Fascinating Instrument, which is available today, is testament to Sala's musical genius.

The evolution of the synthesizer

By the end of the 20th century, synthesizers had take over the world's aural landscape. To synthesize means to take many parts and make it whole, which is basically what a synthesizer does. It is a purely electronic instrument, in other words, it won't make a sound until you amplify it. The early synthesizers were analogue and huge - a whole room full of equipment - but 1970s transistor technology allowed for more portable instruments - and thus classic analogue synths like Bob Moog's Mini Moog, which is still being manufactured today, the ARP Odyssey and the WASP are still revered by techno and electronic musicians today for their "phat" and squelchy sounds. Electronic music took over the world - the highly conservative Musician's Union condemned synthesizers as non-musical, worried that they would replace the need for real, acoustic trained musicians - which indeed they have, as virtually every popular music track now uses synthesized, sampled and sequenced parts. The Japanese 1980s electronics boom made a cheap keyboard possible in every home - with Casio, Yahama and Roland models now available from only a few pounds.

RCA synthesizer

The synthesizer revolution started in 1956 when RCA unveiled its Electronic Music Synthesizer. Originally invented in the 1940s by engineers Harry Olson and Herbert Belar, they produced a machine based on random probability, which would be capable of creating melodies based on the folk songs of Stephen Foster . It used Sixteen Function Binary Selection and pitch sequencing, but the device failed miserably in its intention, as the machine was incapable of determining characteristics that only a human ear can - idiosyncrasies of form, structure and melody. Olson and Belar intended this prototype synthesizer not to explore new sonic worlds yearned for by the avant-garde, but to reproduce the conventional. The result was a series of seemingly random notes and bleeps. Their prototype synthesizer was eagerly seized by the intellectual music academia of Princeton University and the avant-garde composer Milton Babbit, and premiered in 1956 as the RCA MK 1. It featured vacuum tube oscillators and a punch paper interface that allowed the user to program and control a wide range of sound parameters, a little like a 19th century pianola. The output was fed to disk recording machines, which stored the results on lacquer-coated disks.

More information:
- Peter Forrest's The A-Z of Analogue Synthesizers, RCA synth
- Mike Schutz's RCA synthesizer page

Synthesizers, their technologies and inventors have come and gone like the winds from world fairs to car boot sales in a flash. Here are a few of the more esoteric and innovative synthesizers:

EMS Synth

The EMS studios, founded in 1969 by English engineers and composer Peter Zinnovieff, created some of the more important synthesizers of their era, including the forerunner to software synthesis. The VCS3 was their classic synth which is still made today - operated with a joystick and a pinboard (instead of bulky patch leads) - making it also perfect for a game of battleships. The amazing sounds of the VCS 3 are unmatchable and great for ethereal sound effects. Zorch were Britain's first all synthesizer band who headlined the first Stonehenge Festival, their psychedelic "head" music was matched with a mind blowing lightshow. Their first album "Ouroboros" is the only album ever recorded at Peter Zinovieff's EMS studio in 1975, featuring the classic VCS3 Synthi 100.

More information:
- Zorch's official website
- EMS Studios Homepage

ANS glass synthesizer

The ANS is a photo-electronic instrument from Russia, made in 1958. Based on the photo-optic sound recording used in cinematography to create a visible image of a sound wave, the machine has a rotating glass disk with 144 optic phonograms of pure tones, or sound tracks, from high in the centre to low at the rim; the player selects a tone from a "score" made from a glass disk. The ANS is capable of producing 720 pure tones of everything from microtones to white noise.
You can hear the mysterious and somewhat "glassy" sounds in the new album COILANS by Coil members Jhon Balance, Peter Christopherson and Thighpaulsandra who recorded the album during a few days at the Moscow State University.

More information:
www.martin.homepage.ru/ans.htm

Buchla Modular

Don Buchla has been making world class modular synths since 1963, his latest invention the Piano Bar - a way of converting sounds from an acoustic piano to a midi (computerized) map - is now manufactured and produced by his old competitor, Bob Moog. With Serialist composer Morton Subotnik, they produced the seminal work, Silver Apples On The Moon (1967), the first work to be commissioned for record rather than live performance. A 'studio art' work, they believed it could be played, via a phonograph, by anybody, in intimate surrounds - a kind of 20th century chamber music style. Subotnik believed that using both programmed and random parameters allowed him complete artistic control, and "…the flexibility to score some sections of the piece in the traditional sense; and to mould other like a piece of sculpture". The Buchla allowed for evolving timbres during a single note duration, making possible "sustained yet transforming streams of sound".

More information:
www.buchla.com/

Inventors & pioneers

The evolution of electronic music, until the corporate 1980s, was driven by inspired individuals - inventors, scientists, musicians who were more often than not part-genius and part-lunatic. Many created equipment and instruments to create new sounds for their own recordings, purely out of a desire to produce something new more than for commercial gain. Here are a few of Switched On's favourite electronic pioneers:

Raymond Scott

In the early 40s, Raymond Scott, the young leader of the CBS radio house band found fame composing quirky jazz-influenced scores for Warner Brothers' "Merrie Melodies" and "Loony Toons" cartoons. Despite his success with his quintet, Scott preferred working in the studio with machines rather than the musicians who could never quite match his exacting standards. Jazz singer Anita O'Day believed that Scott "reduced musicians to something like wind-up toys."

In 1946 Scott founded Manhattan Research, Inc., "Designers and Manufacturers of Electronic Music and Musique Concrete Devices and Systems," where he focused his efforts on creating the machines that could meet his requirements. In 1949, Scott remarked:
"Perhaps within the next hundred years, science will perfect a process of thought transference from composer to listener. The composer will sit alone on the concert stage and merely THINK his idealized conception of his music. Instead of recordings of actual music sound, recordings will carry the brainwaves of the composer directly to the mind of the listener".

He created a sound effects machine called the Karloff, and his most commercially successful instrument, the Clavivox, like a theremin played with a keyboard. To realize his notion of "thought transference" composition, Scott spent twenty years working on the Electronium, an "instantaneous composition-performance machine". It had no keyboard, only switches and settings, and was a pitch and rhythm sequencer that controlled a bank of oscillators, a modified Hammond organ, an Ondes-Martenot and a few Clavivoxes. In 1960 on the Electronium he produced his three-volume work of minimalist synthesized lullabies, Soothing Sounds for Baby.

Despite his success, Scott was very protective, perhaps even paranoid, of people stealing his ideas, thus Manhattan Research remained purely research. In 1955 a young theremin maker, 20 year old Robert Moog, called at his studio on Long Island, and he was given a job assembling the Clavivox. Raymond Scott's work was to directly influence the next generation of electronic instrument designers who went on to realise his dream of what he called the "artistic collaboration between man and machine."

BBC Radiophonic Workshop & the Wobbulator

In 1957, a group of BBC producers used radiophonic technique to create music for dramas, modifying natural sounds using tape loops, tape modulations and splicing, similar to Pierre Schaeffer's academic technique of music concrete. In the 1960s, the Radiophonic workshop became a household name with their pioneering recordings on the BBC science fiction show Dr Who. Stars of the workshop including Delia Derbyshire and its founder Daphne Oram, who created the technique of Oramics - drawing onto strips of 35mm film read by photo-electric cells which controlled the sound characteristics - a technique developed from the RCA synthesizer. Daphne later left the BBC to pursue her career of creating serious art music. Early on, the Workshop acquired a wobbulator, originally designed as a test tone generator, it created a tone varied by a second oscillator which providing sweeping waves of sound. Delia Derbyshire's Ziwzih Ziwzih OO-OO-OO, composed for a sci-fi play based on an Isaac Asimov story, uses backwards voices and the tones of the Wobbulator.

More information:
Radiophonic workshop: an engineering persective

Reed Ghazalas Circuit bending

Reed Ghazalas is know as 'the father of circuit bending' - he's been doing it since the 1960s. The circuit-bent instrument, often a re-wired audio toy or game, creates a new instrument and a new musical vocabulary, which is part of Reed Ghazalas' 'anti theory' of opening up electronic to all audio frontiers, creating chance music and unpredictable audio events. You don't need to be have money, expensive instruments, or knowledge of electronics - just a speak-and-spell machine and a few parts from a radio store! Body contact is encouraged for the electricity to flow through the player's flesh and blood. Don't try this one at home, kids!

More infomation:
www.anti-theory.com

As electronic hardware is increasingly replaced with electronic software, perhaps the era of electronic oddities, bizarre boxes with sliders to fade, knobs to twiddle, and keys to hammer, is drawing to a close. Yet in the 1990s, musicians brought their old synthesizers, machines and theremins our of the bargain bin and began to recognize again the magical sounds which had so nearly become lost. So why not invent your own electronic oddity? It could prove to be the sounds of the future.

1920s NOISE MACHINES - Italian Futurist's - Russolo

'Ancient life was all silence. In the nineteenth century, with the invention of the machine, Noise was born. Today, Noise triumphs and reigns supreme over the sensibility of men.' -- Luigi Russolo

Luigi Russolo was a painter determined to open our ears to the noise of the modern age. His musical vision embraced 'the coming and going of pistons, the howl of mechanical saws, the jilting of a tram on its rails' – the symphonic blending of sounds that defined life in the urban metropolis of the early 1900s.

Russolo wrote his manifesto in 1913 entitled 'The Art of Noise,' a bold treatise declaiming the end of conventional Western music, and the dawning of a new music based on the grinding, exploding, crackling and buzzing of mechanical instruments.

'Every manifestation of life is accompanied by noise. Noise is therefore familiar to our ears and has the power to remind us immediately of life itself. Musical sound, a thing extraneous to life and independent of it... has become to our ears what a too familiar face is to our eyes' – Luigi Russolo

Luigi Russolo and his assistant Ugo Piatti built one of the first mechanical orchestras, the 'intonarumori' (noise machines), 27 different types of inters, each producing a unique sound in several folloies or 'families' of instruments, including 'howlers,' 'exploders,' 'crumplers,' 'hissers,' and 'scrapers.' In the 1920s, Russolo performed numerous concerts with these outrageous instruments emitting their startling sounds.

The 'Intonarumori' ('Noise Machines'),
built by Italian Futurist Luigi Russolo circa 1920s

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~ Lifted from www.zakros.com & reprinted here without permission ~

A History of Electronic Music Pioneers [Part 1: 1750-1930]

[Note: the following text is an excerpt from an essay by David Dunn, which was written for a catalog that accompanied the exhibition: 'Pioneers of Electronic Art', held in Austria, 1992]

...One of the earliest documented musical instruments based upon electronic principles was the Clavecin Electrique, designed by the Jesuit priest Jean-Baptiste Delaborde in France, 1759. The device used a keyboard control based upon simple electrostatic principles.

The spirit of invention which immediately preceded the turn of this century was synchronous with a cultural enthusiasm about the new technologies that was unprecedented. Individuals such as Bell, Edison, and Tesla became culture heroes who ushered in an ideology of industrial progress founded upon the power of harnessed electricity. Amongst this assemblage of inventor industrialists was Dr. Thaddeus Cahill, inventor of the electric typewriter, designer and builder of the first musical synthesizer and, by default, originator of industrial muzak. While a few attempts to build electronic musical instruments were made in the late 19th century by Elisha Gray, Ernst Lorenz, and William Duddell, they were fairly tentative or simply the curious byproducts of other research into electrical phenomena. One exception was the musical instrument called the Choralcelo built in the United States by Melvin L. Severy and George B. Sinclair between 1888 and 1908. Cahill's invention, the Telharmonium, however, remains the most ambitious attempt to construct a viable electronic musical instrument ever conceived.

Working against incredible technical difficulties, Cahill succeeded in 1900 to construct the first prototype of the Telharmonium and by 1906, a fairly complete realization of his vision. This electro-mechanical device consisted of 145 rheotome/ alternators capable of producing five octaves of variable harmonic content in imitation of orchestral tone colors. Its principal of operation consisted of what we now refer to as additive synthesis and was controlled from two touch-sensitive keyboards capable of timbral, amplitude and other articulatory selections. Since Cahill's machine was invented before electronic amplification was available he had to build alternators that produced more than 10,000 watts. As a result the instrument was quite immense, weighing approximately 200 tons. When it was shipped from Holyoke, Massachusetts to New York City, over thirty railroad flatcars were enlisted in the effort.

While Cahill's initial intention was simply to realize a truly sophisticated electronic instrument that could perform traditional repertoire, he quickly pursued its industrial application in a plan to provide direct music to homes and offices as the strategy to fund its construction. He founded the New York Electric Music Company with this intent and began to supply real-time performances of popular classics to subscribers over telephone lines. Ultimately the business failed due to insurmountable technical and legal difficulties, ceasing operations in 1911.

The Telharmonium and its inventor represent one of the most spectacular examples of one side of a recurrent dialectic which we will see demonstrated repeatedly throughout the 20th century history of the artistic use of electronic technology. Cahill personifies the industrial ideology of invention which seeks to imitate more efficiently the status quo. Such an ideology desires to summarize existent knowledge through a new technology and thereby provide a marketable representation of current reality. In contrast to this view, the modernist ideology evolved to assert an anti-representationist use of technology which sought to expand human perception through the acquisition of new technical means. It desired to seek the unknown as new phenomenological and experiential understandings which shattered models of the so-called "real".

The modernist agenda is brilliantly summarized by the following quote by Hugo Ball:

"It is true that for us art is not an end in itself, we have lost too many of our illusions for that. Art is for us an occasion for social criticism, and for real understanding of the age we live in...Dada was not a school of artists, but an alarm signal against declining values, routine and speculations, a desperate appeal, on behalf of all forms of art, for a creative basis on which to build a new and universal consciousness of art."

Many composers at the beginning of this century dreamed of new electronic technologies that could expand the palette of sound and tunings of which music and musical instruments then consisted. Their interest was not to use the emerging electronic potential to imitate existent forms, but rather to go beyond what was already known. In the same year that Cahill finalized the Telharmonium and moved it to New York City, the composer Ferruccio Busoni wrote his Entwurf einer neuen Asthetik der Tonkunst ('Sketch of a New Aesthetic of Music') wherein he proposed the necessity for an expansion of the chromatic scale and new (possibly electrical) instruments to realize it. Many composers embraced this idea and began to conceptualize what such a music should consist of. In the following year, the Australian composer Percy Grainger was already convinced that his concept of 'Free Music' could only be realized through use of electro-mechanical devices.

By 1908 the Futurist Manifesto was published and the modernist ideology began its artists' revolt against existent social and cultural values. In 1913 Luigi Russolo wrote The Art of Noise, declaring that the "evolution of music is paralleled by the multiplication of the machine". By the end of that year, Russolo and Ugo Piatti had constructed an orchestra of electro-mechanical noise instruments (Intonarumori) capable of realizing their vision of a sound art which shattered the musical status quo. Russolo desired to create a sound based art form out of the noise of modern life. His noise intoning devices presented their array of "howlers, boomers, cracklers, scrapers, exploders, buzzers, gurglers, and whistles" to bewildered audiences in Italy, London, and finally Paris in 1921, where he gained the attention of Varese and Stravinsky. Soon after this concert the instruments were apparently only used commercially for generating sound effects and were abandoned by Russolo in 1930.

tag(s): early electronic music ~ Telharmonium ~ Futurist Manifesto