Computer Music Melodian PDP-8/A (a
minicomputer).Computer Music Melodian (1976) was developed based on it was based on
Digital Equipment Corporation's PDP-8 computer. It included hand-wired digital-to-analog and analog-to-digital conversion functions, as well as tracking
anti-aliasing filters. The Melodian was first used by
Stevie Wonder on his album ''
Stevie Wonder's Journey Through "The Secret Life of Plants"'' (1979). The Melodian was a monophonic synthesizer with 12-bit analog-to-digital sampling at rates up to 22 kHz. It was designed to be compatible with analog synthesizers and had a feature allowing it to synchronize to the pitch of an analog synthesizer, such as an
ARP 2600. This meant that the Melodian captured all frequency modulation effects, including those produced through the ARP's touch ribbon control. It also could trigger off the ARPs keyboard, thus functioning somewhat as a hybrid of sampler and analog synthesizer and making the most of the technology available at the time.
Synclavier The
Synclavier System was an early digital synthesizer and sampler, manufactured by New England Digital. First released in 1977, it proved to be highly influential among both music producers and electronic musicians, due to its versatility, its cutting-edge technology and distinctive sound.
Synclavier Systems were expensive – the highest price ever paid for one was about $500,000, although average systems were closer to about $200,000 – $300,000. Although this made it inaccessible for most musicians, it found widespread use among producers and professional recording studios, and it competed in this market with other high-end production systems, such as the
Fairlight CMI. Though scarce, the
Synclavier remains in use in many studios to this day.
Fairlight Instruments Fairlight Instruments was started in Sydney, in 1975 by
Peter Vogel and
Kim Ryrie. The company was originally established as a manufacturer and retailer of video special effects equipment. The
Fairlight CMI or Computer Music Instrument, released in 1979, started life as the Qasar M8. The M8 was handwired and legend has it that it took two hours to boot up. The CMI was the first commercially available polyphonic digital sampling instrument. The original Fairlight CMI sampled using a resolution of 8 bits per sample, at a rate of 24 kHz, and used two 8-bit
Motorola 6800 processors (later upgraded to the more powerful 16/32-bit
Motorola 68000). It was equipped with two
six-octave keyboards, an alphanumeric keyboard, and an interactive
video display unit (VDU) where soundwaves could be edited or even drawn from scratch using a
light pen. Software allowed for editing, looping, and mixing of sounds which could then be played back via the keyboard or the software-based sequencer. It retailed for around US$25,000. Fairlight later released the Series IIx, which increased the sampling rate to 32 kHz
WaveFrame AudioFrame WaveFrame was an American
digital audio technology company founded in 1986 in Boulder, Colorado. Its flagship product, the
AudioFrame, was an integrated
digital audio workstation system, introducing fixed-rate digital
sampling synthesis, multi-phase interpolation, hard-disk recording, automation, and
SMPTE-time code based non-linear editing. Memory expansion was up to 120 MB. A detailed, 4-part review and analysis of the products was written by Chris Meyer The pitch shifting was accomplished with digital, poly-phase interpolations, allowing further processing without analog to digital re-conversion. ''"The Sampling Synthesizer cards create 512 points for every existing sample. The bonus that falls out of this is that these 511 extra points are also used to pick zero crossings from for looping. Therefore, there's a better chance of picking a point where the original signal would have actually crossed zero, and single-cycle waves are better in tune (no need to settle for points just short or just long of where the signal would have crossed)."''
E-mu Systems E-mu Emulator (1981) was
E-mu Systems' initial foray into sampling, and saved the company from financial disaster after the complete failure of the
Audity due to a price tag of $70,000. The name 'Emulator' came as the result of leafing through a thesaurus and matched the name of the company perfectly. The Emulator came in 2-, 4-, and 8-note polyphonic versions, the 2-note being dropped due to limited interest, and featured a maximum sampling rate of 27.7 kHz, a four-octave keyboard and 128 kB of memory.
E-mu Emulator II (1984) was designed to bridge the gap between the
Fairlight CMI and
Synclavier and the
Ensoniq Mirage. It featured 8 notes polyphony, 8-bit sampling, 512kb of RAM (1mb in the EII+ though only accessible as two independent 512kb banks), an 8-track sequencer, and analog filtering. With the addition of the hard disk option, the Emulator II was comparable to samplers released 5 years later.
E-mu SP-12 (1986) was a forerunner of
E-mu SP-1200.
E-mu Emulator III (1987) was a 16-bit stereo digital sampler with 16-note polyphony, 44.1 kHz maximum sample rate and had up to 8 MB of memory. It featured a 16 channel sequencer, SMPTE and a 40 MB hard disk.
E-mu SP-1200 (1987) was, and still is, one of the most highly regarded samplers for use in
hip-hop related production. Its 12-bit sampling engine gave a desirable warmth to instruments and a gritty punch to drums. It featured 10 seconds of sample time spread across four 2.5-second sections.
E-mu Emax, sold between 1985 & 1995, and aimed at the lower end of the market.
E-mu ESI-32 (1994) was a stripped down, far cheaper, and simplified EIIIx, and could use the same samples. The unit could accommodate up to 32 MB RAM, 32-note polyphony and sounds could be routed internally to one of four polyphonic outputs. Via optional SCSI interface, the ESI-32 could access external CD-ROM, Zip-100, and hard drives.
Akai Akai entered the electronic musical instrument world in 1984 when
Roger Linn, the creator of the
Linn LM-1, the
Linn 9000, and the
LinnDrum, partnered with the Japanese/Singaporean
Akai Corporation to create samplers similar to the ones created at Linn's own company,
Linn Electronics. With this came the first in a series of affordable samplers, the S612, a 12 bit digital sampler module. The S612 was superseded in 1986 by the S900. The
Akai S900 (1986) was the first truly affordable digital sampler. It was 8-note polyphonic and featured 12-bit sampling with a frequency range up to 40 kHz and up to 750 kB of memory that allowed for just under 12 seconds at the best sampling rate. It could store a maximum of 32 samples in memory. The operating system was software based and allowed for upgrades that had to be
booted each time the sampler was switched on. The
Akai MPC60 Digital Sampler/Drum Machine and MIDI Sequencer (1988) was the first non-rack mounted model released. It is also the first time a sampler with touch sensitive trigger pads was produced by AKAI, giving birth to the popular
MPC series of sampler sequencers. The
Akai S950 (1988) was an improved version of the S900, with a maximum sample frequency of 48 kHz and some of the editing features of the contemporary S1000. The
Akai S1000 (1988) was possibly the most popular 16-bit 44.1 kHz stereo sampler of its time. It featured 16-voices, up to 32 MB of memory, and 24-bit internal processing, including a digital filter (18 dB/octave), an LFO, and two
ADSR envelope generators (for amplitude and filtering). The S1000 also offered up to 8 different loop points. Additional functions included Autolooping, Crossfade Looping, Loop in Release (which cycles through the loop as the sound decays), Loop Until Release (which cycles through the loop until the note begins its decay), Reverse and Time Stretch (version 1.3 and higher). Other samplers released by AKAI include the S01, S20, S700, S2000, S2800, S3000, S3000XL, S3200, S5000, S6000,
MPC500, MPC1000, MPC2000, MPC2000XL, MPC2500, MPC3000, MPC3000XL, MPC3000LE, MPC4000, MPC5000, Z4 and Z8.
Roland Roland Corporation manufactured the S series. These were true samplers that provide all of the features described above, including sampling, sample editing, pitch transposition, and keyzone mapping: • Roland S-10 •
Roland S-50 • Roland S-330 •
Roland S-550 • Roland S-760 • Roland S-770 More recently, Roland introduced the
Groove Sampler concept. These devices are renowned for their ease of use, but a few lack the pitch transposition and keyzone mapping capabilities that most samplers have. Some have limits to rendering loops or sound effects samples that are played back at the same pitch they were recorded. Although these machines are equipped with a wide range of built-in effects, a few lack pitch transposition and keyzone mapping that diminishes their utility significantly. The Roland
Groove Sampler line includes the following: •
Roland DJ-70MKII •
Roland DJ-70 • Roland JS-30 •
Roland MC-909 •
Roland MC-808 •
Roland MC-09 •
Roland MS-1 • Roland MV-8800 • Roland MV-8000 •
Roland SP-808EX •
Roland SP-808 •
Roland SP-404 •
Roland SP-606 •
Roland SP-555 •
Roland W-30 • Roland SPD-SX
Boss Being a division of the Roland Corporation, Boss also contributed to the
Groove Sampler/Groove Box concept with several samplers. •
Boss SP-202 •
Boss SP-303 •
Boss SP-505 Sample storage Most older samplers use SCSI as the protocol for getting sample data in and out of the machine. SCSI interfaces were either standard on the sampler or offered as an option. SCSI provides the ability to move large quantities of data in and out of a sampler in reasonable times. Hard drives, CD-ROM drives, Zip drives and removable cartridge drives such as Syquest and Iomega Jaz drives are the most popular SCSI devices used with samplers. Each has its own strengths and weaknesses, with hard drives being the fastest devices. Modern (after 2000) samplers use solid-state memory cards (such as compact Flash or SmartMedia) for sample storage and transfer. ==Software samplers==