| . |
|
. |
SCOTT'S SECRET SCIENCE
Many of Raymond Scott's playful riffs - originally recorded from 1937 to 1939 by the Raymond Scott Quintette - are genetically encoded in almost every human being, thanks to their use by Warner Bros. music director Carl Stalling in 120 episodes of Merrie Melodies and Looney Tunes animated classics.
More recently, these and other themes were featured in a dozen
episodes of Nickelodeon's Ren & Stimpy Show. The popular
rediscovery of Scott's original novelty jazz recordings (which
began with the 1992 Columbia CD release Reckless Nights and
Turkish Twilights) led to a belated reappraisal of Scott's timeless - and long forgotten - genius...
- Raymond Scott's music has been covered by the Kronos Quartet, Rush, They Might Be Giants, Don Byron, Louis Armstrong, Gwar, Benny Goodman, Foetus, Devo, Holland's Metropole Orchestra, the Beau Hunks, and countless other admirers. David Harrington of the Kronos Quartet said his first introduction to Scott's music in 1992 "was like being given the name of a composer I feel I have heard my whole life, who until now was nameless. Clearly he is a major American composer."
- Awareness of the other side of Raymond Scott's career, as an electronic music pioneer, began in 1997 with the reissue of Scott's 1963 Soothing Sounds for Baby trilogy. These albums,
largely overlooked upon their original release, contained gentle
- and all-electronic - works meant to calm and delight infants.
Scott's pioneering and little-heard explorations of synthesized
rhythmic minimalism and low-key ambience foreshadowed the subsequent
conjurings of Terry Riley, Phillip Glass, Kraftwerk, and Brian
Eno. That most of Scott's ethereal music was performed on vacuum
tube and transistor-rigged music machines - ones he designed
and built - made the reemergence of these recordings seem like
the Dead Sea Scrolls of electronica.
- But Soothing Sounds for Baby
couldn't possibly prepare the world for the exotic artifacts
found on the recent two-CD set, Manhattan Research
Inc.
The 69 tracks on Manhattan Research Inc. cover Raymond Scott's groundbreaking electronic work from 1953 to 1969. Forays into abstract musique concrete can be heard alongside decidedly nonkiddie collaborations with a young, pre-Muppet Jim Henson.
- In addition, Manhattan Research
Inc. presents some of the first TV and radio commercials
to employ electronic music soundtracks. The package moved Can's
Holger Czukay to disbelief. "This is from the fifties and
sixties? Raymond Scott belongs to the phalanx of unique people
like Les Paul, Oscar Sala, and Leon Theremin, to whom we owe
so much in developing our own musical identity today," Czukay
says.
ELECTRIFIED SWING
 - Before Scott embarked on a professional music
career in 1931 - at his older brother's insistence - he intended
to pursue engineering. As a result of his fascination with technology,
Scott's knowledge of radio and recording studios showed a sophistication
rarely seen among composers and bandleaders. Throughout his life,
Scott explored music technology with a Nobel laureate's dedication.
He revolutionized the art of microphone placement, and spent
many of his band's recording sessions in the control room, monitoring
the mix.
- A June 1937 article in Down Beat,
titled "Engineer-Musician Electrifies Swing World With Ideas,"
described Scott's New York City apartment as "divided into
two parts: in one the dominant note was the piano and phonograph;
and in the other was all sorts of recording equipment, with microphones
all over the place and long wires trailing across the floor."
The feature explored Scott's science of "creative acoustics,"
which involved using a mic to manipulate and capture sounds that
differ from those heard by the naked ear. A November 1937 Popular
Mechanics feature, "Radio Music of the Future,"
described Scott "placing a `dead` microphone beside the
piano and then turning it on only after the keys have been struck
[to] catch the ghostlike effect" of aftertones that are
"ethereal, disembodied, [and have] a sense of great space."
MANHATTAN R&D
- As a composer, Scott was a strict perfectionist
with little tolerance for improvisation, which triggered the
ire of many jazz purists. He earned notoriety as a session tyrant
and was commonly criticized for treating his sidemen and vocalists
as hardware. "All he ever had was machines - only we had
names," said drummer Johnny Williams. Singer Anita O'Day,
who worked briefly with Scott's early 1940s big band, called
him "a martinet" who "reduced [musicians] to something
like wind-up toys."
- In 1946 - the same year he composed
the score for the Mary Martin/Yul Brynner Broadway production
Lute Song - Scott established Manhattan Research Inc.
to expand the horizons of electronic sound generation. From 1950
to 1957, Scott financed his technological excursions by conducting
the orchestra on NBC's cornball, but highly rated, chart-countdown
show, Lucky Strike's Your Hit Parade (a gig he allegedly
despised for its banality). Raymond and his second wife, singer
Dorothy Collins, were seen on the little screen in millions of
American households every week. However, few suspected the alter
ego lurking behind the conductor's forced stage smile.
- Scott advertised Manhattan Research
Inc. as "the world's most extensive facility for the creation
of Electronic Music and Musique Concrete." A slogan for
his venture was "more than a think factory - a dream center
where the excitement of tomorrow is made available today."
- By spending more of his time soldering
circuits and less with union-scale sidemen, Scott eventually
dispensed with the human element altogether. He was more comfortable
around machines; Scott spoke their language - or taught them
to speak his. As Electronic Music Foundation president Joel Chadabe
says, "Scott's music is so perfectly crafted, so lyrical
and easy, so completely charming and good-natured, that it seems
all the more wonderful, even mysterious, that much of it was
created with the sophisticated and complex technology he invented.
Scott developed his instruments to make his music and did it
so well that what you hear is the music."
- The inventions evolved according to
the whims of Scott's boundless curiosity. In March 1946, he patented
an electromechanical synthesizer called the Orchestra Machine.
An obscure ancestor of the tape loop-based Mellotron, it featured
a keyboard that could simulate an ensemble of traditional musicians.
"This machine is a device incorporating a number of multiple
soundtrack units, that may be selected as would the musical instruments
in an orchestra," Scott wrote in the patent disclosure.
"The entire mechanical driving system's speed may be varied
in order to select any particular musical pitch."
- Two years later, he began a decade
of work on a behemoth sound-effects generator that he eventually
christened Karloff (after horror-film legend Boris Karloff).
Scott demonstrated the unit to columnist Joseph Kaselow of the
New York Herald Tribune. "The heart of the unit is
a control panel with some hundred or so buttons and dials from
which Scott can get an infinite number of rhythms and sound combinations
- treble, bass, beeping, swishing, honking - you name it,"
Kaselow said. "Scott's machine, actually a control console
which selects, modifies, and combines sounds produced by electronic
means, has 200 sound sources and is capable of quickly producing
infinite and varied musical and electronic effects. The machine
uses several electronic tone generators, and others can be added.
The control panel directs pitch, timbre, intensity, tempo, accent,
and repetition. It can sound like a group of bongo drums. It
can give impressions which suggest common noises. It can create
the mood of musical tone-poems. And it can also produce limitless
emotional variations to suit a variety of musical styles. All,
of course, if Scott is at the controls."
WALL OF SOUND
 - A 20-year-old Columbia University student named
Bob
Moog
and his father were among the privileged few who witnessed Scott's
obsessions in action. At the time, the Moogs were building theremins
in their basement. Scott wanted to obtain the instrument's electronic
subassembly, and so he invited the Moogs to tour his facility
in Manhasset, New York.
- "First, Raymond showed us his
recording studio. Then a very large room with a cutting lathe
and all sorts of monitoring and mixing equipment," Moog
says. "The entire downstairs was a dream workshop consisting
of a large room with machine tools of the highest quality; a
woodworking shop; an electronics assembly room; and a large,
thoroughly equipped stockroom of electronic parts. My father
and I were there with our mouths hanging open."
- This encounter commenced a social and
professional relationship between Moog and Scott that lasted
for nearly two decades. "When I first worked for Scott in
the early 1950s, he had a very large laboratory," Moog says.
"One room was completely filled with rack upon rack of relays,
motors, steppers, and electronic circuits. Raymond would go around
and adjust various things to change the sound patterns. I'd never
seen anything like it. It was a huge, electromechanical `sequencer.`
" Scott called it his Wall of Sound.
- Scott used the Moogs' theremin module
in the first prototype of his keyboard synthesizer, the Clavivox,
which he patented in 1956. A few years before meeting the Moogs,
Scott fashioned a toy theremin for his daughter Carrie. "I
must have been 11 or 12, which would be around 1950 or 1951,"
says Carrie Makover. "I had seen a Broadway play called
Mrs. McThing which used a theremin, and I loved the way
it sounded. But after my dad built it, I discovered I couldn't
play it. So he took it back and made it into something else."
- The resulting synthesizer allowed a
player to glide smoothly from one note to another without a break
over a 3-octave keyboard. It could be played with an expressive
portamento rather than with discrete pitches only. Subsequent
improvements allowed staccato attacks, on/off vibrato toggling,
and many other effects. It could also simulate many traditional
instruments.
- "This was not a theremin anymore,"
Moog says. "Raymond quickly realized there were more elegant
ways of controlling an electronic circuit." In subsequent
models, Scott used photocells and a steady light source beamed
through photographic film graded from opaque to transparent.
This varied the voltage, which changed the pitch of the tone
generator. The waveform of the sound determined the tone color,
and the methods of altering the waveform were similar to modern
analog synths. "A lot of the sound-producing circuitry of
the Clavivox resembled very closely the first analog synthesizer
my company made in the mid-'60s," Moog says. "Some
of the sounds are not the same, but they're close."
RAGE AGAINST THE CLOCK
 - The discipline Scott, a relentless workaholic,
imposed on his musicians came naturally to himself. In 1957,
at age 50, he endured his first encounter with serious heart
trouble. "I had many dead spots around my body," Scott
wrote in his journal. "Cardiac specialists gave me one year
to live." Instead of slowing, Scott's pace increased. Perhaps
Scott realized that, besides outmaneuvering competitors, he was
also pitted against the undertaker's pocket watch.
- Around 1959, Scott designed and built
the
Circle Machine,
a more compact electronic sequencer. Dr. Thomas Rhea, music synthesis
professor at the Berklee College of Music, visited Scott many
times in the early '70s and remembers the Circle Machine as "an
analog waveform generator that was this crazy, whirling-dervish
thing. It had a ring of incandescent lamps, each with its own
rheostat, and a photo-electric cell on a spindle that twirled
in a circle above the lights." Each bulb's intensity was
individually adjustable, as was the rotation speed of the photocell.
As the lights brightened, the pitch ascended. Arm rotation speed
governed the rhythm. The lights could be stag-gered in brightness,
and depending on the pattern, the tone sequence generated would
change. The Circle Machine was capable of a wide range of unearthly
sounds, as heard in numerous commercial jingles Scott recorded
during the late 1950s and early 1960s (many of them are included
on Manhattan Research Inc.).
- Building on the foundations of, and
cannibalizing components from, his Karloff generator and Wall
of Sound sequencer, Scott developed the first version of his
"instantaneous composition/performance machine" in
the late 1950s. He named it the
Raymond Scott Electronium (no relation to the
German Hohner electronium), and it became the most ambitious
and resource-consuming project of his life. Laboring for decades,
Scott developed it in many different incarnations, all of which
shared his artificial intelligence technology. "The entire
system is based on the concept of Artistic Collaboration Between
Man and Machine," Scott wrote in a patent disclosure. "The
new structures being directed into the machine are unpredictable
in their details, and hence the results are a kind of duet between
the composer and the machine."
- Instead of a traditional, piano-style
keyboard, the Electronium was "guided" by a complex
series of buttons and switches, arranged in orderly rows. The
system was capable of "instantaneous composition and performance"
of polyphonic rhythmic structures, as well as tasking preset
programs. With Scott controlling the sonorities, tempos, and
timbres, he and his machine could compose, perform, and record
all at once. The parts weren't multitracked; rather, voices,
rhythms, and melodies originated simultaneously in real time.
- "A composer `asks` the Electronium
to `suggest` an idea, theme, or motive," Scott wrote in
the user manual. "To repeat it, but in a higher key, he
pushes the appropriate button. Whatever the composer needs: faster,
slower, a new rhythm design, a hold, a pause, a second theme,
variation, an extension, elongation, diminution, counterpoint,
a change of phrasing, an ornament, ad infinitum. It is capable
of a seemingly inexhaustible palette of musical sounds and colors,
rhythms, and harmonies. Whatever the composer requests, the Electronium
accepts and acts out his directions. The Electronium adds to
the composer's thoughts, and a duet relationship is set up."
- "It was always this kind of metaphysical,
almost magical thing, about literally thinking things to the
point where they would happen," says Herb Deutsch, a Hofstra
University music professor who worked with Moog to develop the
first Moog synthesizer in 1964. Deutsch, who also worked for
Scott, remembered one of his colleague's visionary objectives.
"He wanted to take the work out of being a musician,"
Deutsch says. "That used to really get me upset. He said,
`Look, I just want to sit here, and I'd like to turn this machine
on, and whenever it does something good, I just want to record
it at that point.' It was not that he was a lazy guy - far from
it. He worked incredibly hard to take the work out of being a
composer."
- Circuitry expert Alan Entenman assisted
Scott. "What Ray did was to recognize that music has repetitions
and patterns, and he envisioned a machine that would incorporate
those patterns," Entenman says. "He thought of it as
`an orchestra with a thousand voices.' It had plug-in modules,
and each module was a synthesizer of his own design that was
capable of making a wide variety of sounds. Each one he would
give a different voice, and what he kept telling me was, that
if you listen to music, it's repetition. You could repeat notes
in a different tone. What made his Electronium successful was
his knowledge of composition. Being a composer, he knew how to
construct music from these things - and it really worked. "This
thing could make any kind of music you could imagine," Entenman
says. "One time he had [what] he described as this real
sexy, `raunchy jazz` coming out of this thing.
- "I understand the secret, to some
extent," Entenman says. "The harmonics are precise
mathematical multiples, and when something vibrates, there are
overtones. The way you blend these overtones, and the amount
of offset they have with one another, gives it warmth. That's
what he would do to get it to sound rich. He'd couple that with
the melodious, rhythmic patterns he built into it. He would program
how it was repeated, and in what key it would be repeated, so
it was like gears within gears."
MOTOWN MAESTRO
 - Refining the Electronium was Scott's primary
focus throughout the 1960s, when integrated circuits made smaller
and more efficient designs possible. Scott asked Moog to "sophisticate
my equipment. The concept is the same as I've had for many years
now. And you're the scientist who will make these things small,
more compact, and with fewer parts." Moog replaced Scott's
8-stage "sequential timer" relays with electronic stepping
switches.
- Despite another bout of heart trouble
in 1967, Scott continued to focus full-time on his Electronium.
By the end of the 1960s, he had invested more than a decade -
and more than a million dollars - in refining his brainchild.
But Scott's health was failing, and his once-substantial royalties
were dwindling.
- In August 1970, Motown Records founder
Berry Gordy read an article in Variety about Scott's work. The
Los Angeles-based music mogul immediately phoned Scott and asked
to see - and hear - this miraculous invention. Soon, a sizable
Motown entourage arrived at Scott's Farmingdale, New York, facility
in a fleet of limos. "It was genius meeting genius,"
Motown executive Guy Costa said in 1997. "Berry certainly
respected Ray and his knowledge, and Ray admired Berry."
- Gordy was impressed by Scott's Beethoven-in-a-box.
"Berry felt that the power of the Electronium, the ability
to numeralize the music process, was important," Costa said.
"Berry was always a formula man; he'd find a rhythm or a
progression and build on that. The Electronium gave you the ability
to play a chord, and the ability to store rhythms, and resequence
those things. To have all these new effects was a turn-on."
- One month later, Gordy placed an order
for an Electronium. The initial down payment was $10,000, but
it would eventually cost Motown millions. Costa arranged for
shipment of the device from New York to Gordy's home in Los Angeles.
Scott planned to spend six weeks tutoring the Motown chief on
the device. When Gordy asked Scott to make further modifications,
the inventor was happy to comply and continued working in Southern
California, with his client involved in the progress.
- Eventually, Gordy offered Scott a position
as head of Motown's Electronic Research and Development department.
Scott accepted, and in 1972 he relocated to the West Coast with
his third wife, Mitzi. Equipped with his own research studio
facility, Scott continued to develop the Electronium and other
technologies. "Berry was looking at the Electronium as a
source of inspiration and new ideas, and as a methodology - as
a sophisticated programmable sequencer," Costa said. "It
was an idea stimulator, a creative thought processor. Maybe [they
would] find combinations that hadn't been tried. It could have
done anything he wanted it to do."
- Following a serious heart attack in
1977, Scott retired at age 69. "Ray was a wonderful guy,"
Costa said. "I can't tell you how much fun we had together.
He was the experimenter; the mad professor." What Motown
had to show commercially for its investment remains a mystery,
as no tapes have yet surfaced from the company's vaults.
THE CLOCK RUNS
OUT
- After continued heart problems in the
late 1970s, Scott was no longer on music technology's cutting
edge. He tried to upgrade his devices with microprocessors but
lost valuable research time due to illness. "By then, he
had destroyed the Electronium by vandalizing it for parts for
other things he was working on," Costa said. "And new
electronics had come so far, that they could do with one little
chip what he had tons of wiring doing on the Electronium. It
didn't pay to keep working on it."
- But Scott didn't give up. Despite deteriorating
health (including heart bypass surgery), he continued to work,
even while bedridden. In the mid-1980s, he modified a Yamaha
DX-7 and used MIDI to connect the keyboard to his Electronium
through a PC purchased in 1981. "I got involved in an exciting
project," the 75-year-old wrote in his journal in June 1983.
"For three months I slept an average of about 50 hours weekly.
Then I folded. Symptoms of folding: extreme fatigue, wobbly walking,
accumulation of chest pains, zero energy output capability."
A major stroke in 1987 closed down the shop completely. Even
more tragic, Scott could barely speak, rendering him unable to
answer questions when interest in his work revived in 1992. He
died in February 1994 at age 85.
VISIONARY OUTLOOK
- "I understand his ideas about
the collaboration between man and machine, which to me is the
most important thing he did, in terms of electronics and music,"
says Berklee professor Dr. Thomas Rhea. "He anticipated
some artificial intelligence concepts and some compositional
concepts that people believe somebody else did. The idea of collaborating
with a machine, and allowing the machine to make certain decisions,
was pretty avant-garde.
- "I appreciate everything Cage
did, and Stockhausen," Rhea says. "But there's a whole
tradition here that's being ignored, and Raymond Scott is one
of those people." Moog recently spoke to the BBC about his
old colleague. "Raymond was the first," Moog said.
"He foresaw the use of sequencers, and the use of electronic
oscillators, to make sounds. These were the watershed uses of
electronic circuitry."
Jeff E. Winner is the creator of RaymondScott.com, and co-researcher/co-producer, with Mr. Gert-Jan Blom, of Manhattan
Research Inc., a 2-CD and book set of Raymond Scott's early electronic work.
Irwin D. Chusid's study of outsider
music, Songs in the Key of Z,
is published by A Cappella Books.
GENESIS OF
THE SEQUENCER
The following
unaddressed letter was written by Raymond Scott
c. late
1970s
Gentlemen: I have a story
that may be of interest to you.
It is not widely known who invented the circuitry concept for
the automatic sequential performance of musical pitches - now
well known as a sequencer.
I, however, do know who the inventor was - for it was I who first
conceived and built the sequencer.
Bob Moog, who visited me occasionally at my lab on Long Island,
was among the first to see and witness the performance of my
UJT-Relay sequencer.
To digress for a bit: I was so secretive about my development
activities - perhaps neurotically so - that I was always reminding
Bob that he mustn't copy or reveal my sequencer work to anyone.
I understand, now, my personal need for secrecy at that time.
Electronic music for commercials and films was my living then
- and I thought I had this great advantage - because of my sequencer.
Word naturally got around about the nature of what my device
accomplished, but Bob Moog continued to be loyal. I must say
Bob Moog is a most honorable person. He steadfastly refrained
from embodying my sequencer in his equipment line until the sheer
pressure of so many manufacturers using the sequencer forced
him to compete. Yet, he used the simplest version, though he
knew about my most advanced sequencer. Quite a gentleman, and
a super talent besides.
Now, with the passing of years, I guess I regret my secrecy and
would like for people to know of what I accomplished.
-Raymond Scott
.
|
Where Are They Now?
At least one Clavivox still exists - and still works. It is one of many vintage electronic instruments owned by the Audities Foundation in Calgary, Alberta, Canada, under the directorship of David Kean. The Clavivox was used by Tom Petty & the Heartbreakers on the album Echo.
The Motown version of the Raymond Scott Electronium was bought from Scott's widow, Mitzi, by composer/musician and Devo cofounder Mark Mothersbaugh, who currently houses it at his Mutato Muzika studios in Hollywood. At Mutato, there's a room where Scott's unique device for "Machine Powered Instantaneous Musical Composition and Performance" has been collecting dust since 1996. Partly eviscerated by the inventor for spare parts, it no longer functions. Mothersbaugh has promised to restore it to working order.
Article above is copyright © 2000-2006 Jeff E, Winner and IndustryClick Corp., a PRIMEDIA company. All rights reserved. This article is protected by United States copyright and other intellectual property laws and may not be reproduced, rewritten, distributed, redisseminated, transmitted, displayed, published or broadcast, directly or indirectly, in any medium without prior written permission.
|
