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Continuum Fingerboard

The Continuum Fingerboard is a handcrafted polyphonic music controller and synthesizer developed by Lippold Haken and hand-built by Cameron Fuller for Haken Audio in Champaign, Illinois, featuring a continuous, pressure-sensitive playing surface that enables independent control of pitch, volume, timbre, and other parameters for each finger through multi-dimensional touch sensing.^[1] This instrument, often described as an MPE+ (MIDI Polyphonic Expression) standalone synthesizer, MPE controller, and audio processor, allows performers to achieve acoustic-like expressivity, including seamless pitch slides and nuanced dynamics, without discrete keys.^[2] Development of the Continuum Fingerboard began in the early 1980s when Haken, then a student at the University of Illinois, created a polyphonic finger-tracking interface; Haken earned a Ph.D. in Electrical Engineering from the university in 1989 and refined the design through the 1990s into a stable form that has evolved over the last 25 years.^[3] The instrument's core technology tracks fingers using up to 12 Hall-effect sensors per finger, digitized by high-speed analog-to-digital converters for rapid response.^[1] Powered by the EaganMatrix Sound Engine—co-developed with audio designer Edmund Eagan over the past 20 years—the Continuum supports over 500 factory presets and customizable sounds via the Haken Editor software on Mac or PC.^[3]^[4] Available in Slim models and priced starting at $4,910, each unit includes accessories like USB-C cables and MIDI adapters, plus a two-year warranty with free repairs (excluding shipping).^[2] Notable for advancing expressive digital music performance, the Continuum's technology, including the EaganMatrix, has been adopted in instruments like the Osmose and continues to evolve through enhancements.^[5]

History

Development

The Continuum Fingerboard was invented by Lippold Haken in 1983 as a graduate student in the Department of Electrical and Computer Engineering at the University of Illinois at Urbana-Champaign, where he worked within the CERL Sound Group of the Computer-based Education Research Laboratory.^[6]^[7] This group focused on computer-based audio research, and Haken's early work aimed to create a performance interface that surpassed the limitations of discrete-key keyboards by enabling seamless musical expression.^[8] Initially conceived as a controller for experimental sound-producing algorithms, the instrument was designed to interface with custom systems such as the Platypus audio signal processor, co-developed by Haken and Kurt Hebel in 1988, and the Kyma/Capybara workstation from Symbolic Sound Corporation, which allowed real-time synthesis and processing.^[6]^[9] These integrations emphasized the Continuum's role in driving additive and granular synthesis techniques, providing performers with precise input for algorithmic sound generation during research demonstrations.^[7] Prototype development spanned from 1983 to 1998, with iterative designs prioritizing continuous pitch control to mimic the fluid intonation of acoustic instruments, drawing inspiration from early 20th-century electronic devices like the Ondes Martenot's ring-controlled glissandi and the Trautonium's wire-based pressure sensitivity.^[7]^[10] By the early 1990s, prototypes incorporated a semi-modular surface for mapping pitch, timbre, and dynamics, as detailed in Haken's 1992 presentation on the device as a polyphonic continuous keyboard.^[11] Key research contributions included the integration of three-dimensional sensing to capture finger position, pressure, and contact area for expressive control, enabling nuanced performance gestures beyond traditional MIDI.^[7] Early testing at the university evaluated polyphonic capabilities, supporting up to 16 independent voices, and optimized response times to under 1 millisecond for low-latency feedback, establishing benchmarks for continuous controllers in computer music applications.^[11]^[8] This phase culminated in 1998, paving the way for commercialization the following year.

Commercialization and Evolution

Haken Audio, based in Champaign, Illinois, began commercial sales of the Continuum Fingerboard in 1999, marking the transition from academic research to a market-available instrument.^[8]^[3] The company, founded by inventor Lippold Haken, initially offered the full-size model, measuring approximately 137 cm in length and spanning 7.79 octaves (9350 cents of pitch range), designed for comprehensive performance capabilities comparable to a full keyboard.^[12] A half-size variant followed, at about 72 cm long and covering 3.84 octaves (4610 cents), providing a more compact option while retaining the core expressive surface.^[13] These early models emphasized hand-crafted construction, with production continuing in small batches from Haken's facility.^[8] In the early 2000s, the instrument received key enhancements, including the addition of MIDI support to enable integration with external synthesizers beyond its initial focus on specialized workstations.^[14] Connectivity evolved further with a shift from FireWire (IEEE-1394) interfaces, used in models up to 2008 for high-speed data transfer to systems like the Kyma workstation, to USB ports in subsequent versions, improving compatibility with modern computers and eliminating the FireWire option after 2008.^[15] This transition facilitated broader adoption as a MIDI controller and standalone device. In January 2020, Haken Audio introduced the Slim Continuum series at NAMM, featuring thinner profiles (3 cm height), updated USB connectivity, integrated displays, and models like the 46-half-step (78 cm) and 70-half-step (110 cm) variants for enhanced portability and modern integration.^[16] The lineup expanded in 2018 with the introduction of the ContinuuMini via a Kickstarter campaign, a portable model measuring 53 cm long and offering 2 octaves (2750 cents), aimed at affordability and mobility while sharing the same sound engine as larger variants.^[17]^[18] As of November 2025, Haken Audio maintains hand-built production of all Continuum models, ensuring meticulous quality control in their Champaign workshop, with each unit assembled individually due to the instrument's complex sensing technology.^[19] Software advancements continue through regular EaganMatrix firmware updates, such as version 10.52 released in March 2025, which introduced enhanced BiqGraph filtering, additive synthesis overlays via Loris tools, and refined polyphony handling for greater sound design flexibility.^[4] In 2025, hardware evolution advanced with the January release of the EaganMatrix Micro, a compact USB-powered standalone synthesizer module, and the September introduction of the Control Voltage Converter (CVC) for high-resolution integration with Eurorack modular systems.^[20]^[21] The community has grown via events like ContinuuCon, the first international conference dedicated to the instrument held in 2016 in Asheville, North Carolina, fostering performances, workshops, and innovations among users.^[22] Subsequent gatherings, including the 2025 edition in Paris hosted by IRCAM, highlight ongoing evolution and adoption.^[23]

Design and Specifications

Physical Construction

The Continuum Fingerboard features a playing surface constructed from soft red nylon integrated over a neoprene layer, which provides the necessary friction for precise finger control while eliminating fixed keys or frets.^[7]^[24] This semi-continuous surface, approximately 19.5 cm in height, covers an underlying electromechanical sensing system and allows for smooth gliding motions across its expanse.^[8] The neoprene contributes a tactile, rubber-like feel similar to wetsuit material, enhancing responsiveness to light touch without requiring excessive force.^[25] The instrument's overall build utilizes a robust metal frame to ensure stability during performance. Current Slim models include the S46 (dimensions 78 x 19.5 x 3 cm, weight 5 kg) and S70 (110 x 19.5 x 3 cm, 7 kg).^[2] Earlier Full-Size and Half-Size models, discontinued in 2020, measured 137 cm and 72 cm in length with a 7.5 cm thickness.^[26] Each unit is handmade by Haken Audio in Champaign, Illinois, under the assembly of technician Cameron Fuller, following an electromechanical design that prioritizes long-term durability and sensitivity through precision-machined components.^[1] Accessories provided with the Continuum include a universal power supply compatible with 110/220 V and 50/60 Hz inputs, USB cables for connectivity, and MIDI adapters, though it lacks built-in speakers and relies on external audio outputs.^[2] Optional items such as protective cases and compatible stands are available separately to facilitate transport and setup on a stable surface.^[27] This modular approach underscores the instrument's focus on core physical integrity over integrated peripherals.

Technical Specifications

The Continuum Fingerboard offers a pitch range of 4600 cents, equivalent to approximately 3.83 octaves (46 half-steps), on the Slim S46 model and 7000 cents, or about 5.83 octaves (70 half-steps), on the Slim S70 model, enabling extensive glissandi and microtonal exploration suitable for various performance applications.^[2] These ranges maintain high expressive potential while being more compact than legacy models. Pitch resolution achieves better than 0.1 cents, allowing precise control over intervals down to subtle detunings, facilitated by high-density sensor arrays that capture horizontal finger positions with sub-millimeter accuracy.^[28]^[29] The instrument's response time measures 0.33 milliseconds, derived from full-surface data scanning every 330 microseconds, ensuring near-instantaneous tracking of finger movements for fluid polyphonic performance.^[30] It supports up to 16 simultaneous voices in polyphonic mode, with each voice independently controllable via MIDI channels, accommodating complex multi-note textures without latency.^[30] Control is provided along three primary axes: the X-axis maps horizontal position to pitch, enabling continuous bending within configurable ranges; the Y-axis corresponds to front-to-back finger placement for timbre modulation; and the Z-axis detects finger pressure to govern amplitude and volume dynamics.^[1] These dimensions are captured independently per finger, supporting MPE+ protocols for enhanced expressivity.^[1] Connectivity includes USB interfaces for both MIDI data transmission and digital audio output, alongside stereo TRS analog outputs for direct line-level connections to mixers or amplifiers.^[27] Standard MIDI DIN In/Out ports and optional AES3 digital audio I/O facilitate integration with external synthesizers and DAWs, while quarter-inch pedal jacks accept expression and sustain inputs.^[27] Power requirements consist of a universal AC adapter operating at 110-220 V, 50/60 Hz, drawing approximately 50 watts to support the internal DSP and sensor systems.^[31] The instrument tolerates standard indoor environmental conditions, with operation recommended in temperatures from 5°C to 40°C and relative humidity below 80% to prevent sensor drift, though it generates mild warmth during extended use.^[24]

Operation and Playing Technique

Control Dimensions

The Continuum Fingerboard employs a three-dimensional control system that captures finger position and pressure to enable expressive musical performance, surpassing the limitations of discrete-key instruments. This system tracks the X, Y, and Z axes in real time, allowing performers to manipulate pitch, timbre, and volume continuously and independently for each finger contact point.^[14]^[32] The X-axis, corresponding to horizontal finger position from left to right, determines pitch with high precision, enabling continuous pitch bending and the realization of microtonal scales that extend beyond the fixed semitones of traditional keyboards. This axis supports subtle adjustments down to 30 microns of resolution, equivalent to approximately 1/500th of a semitone, facilitating effects such as vibrato and glissandi across a full pitch range of up to 96 half-steps.^[14]^[32] The Y-axis, aligned with vertical finger position from front to back, modulates timbre or other sound parameters, permitting dynamic shaping of tonal character during play. This dimension allows for expressive shifts in brightness or harmonic content, though its sensitivity is optimized primarily in the central two-thirds of the surface, with reduced range toward the edges.^[14]^[32] The Z-axis captures finger pressure perpendicular to the surface, primarily controlling amplitude or volume to dictate note loudness and dynamics. This pressure-sensitive input, with up to 15-bit resolution, can also map to secondary effects such as vibrato intensity, providing nuanced control over expression.^[14]^[32] The instrument's polyphonic capability tracks multiple fingers—up to 16 simultaneously—independently across all three axes, assigning each to a separate MIDI channel for chords where every note receives individualized pitch, timbre, and volume adjustments. This per-finger independence supports complex, expressive polyphony with 21-bit accuracy for pitch bends and 14-bit for Y and Z controls in enhanced modes.^[14] The built-in EaganMatrix processes these inputs to generate sound directly.^[14]

Performance Techniques

The Continuum Fingerboard enables smooth glissando and portamento effects through continuous finger movement along its X-axis (pitch dimension), allowing performers to slide between notes with sub-cent accuracy, which is particularly suited for microtonal or non-tempered compositions.^[33] In monophonic mode, portamento glides pitches based on relative finger pressure (Z-axis), creating seamless transitions without retriggering attacks, while polyphonic glissandi maintain independent finger paths for complex, sliding harmonies.^[33] These techniques draw from historical instruments like the Trautonium, where finger pressure on a suspended plate modulates pitch slides, adapted here for electronic expression.^[10] Polyphonic expression is achieved by tracking up to 16 independent fingers simultaneously, each controlling pitch (X), timbre modulation (Y-axis, front-back position), and dynamics (Z-axis, pressure) on separate MIDI channels, enabling chords where individual notes vary in volume, brightness, or harmonic content without affecting others.^[33] Performers can create swells by varying pressure for dynamic crescendos or use Y-axis shifts to alter timbre mid-phrase, such as rocking the finger for vibrato or tilting for half-step adjustments in scales.^[34] For scale playing and chord construction, precise finger placement—accurate to within 3-5 cents—is essential, often aided by initial rounding to a tuning grid, though advanced players develop unassisted intonation through muscle memory.^[33] These techniques adapt elements from string and wind instruments, such as violin-like glissandi or breath-controlled articulations via pressure-sensitive attacks, but demand a lighter touch than traditional keyboards to fully exploit the surface's sensitivity.^[33] The instrument's three-dimensional control axes—Y for vertical timbre shifts and Z for pressure-based expression—facilitate these gestures, allowing nuanced performances that blend continuous pitch with polyphonic independence.^[33] Mastering the learning curve requires dedicated practice for precision and expressivity, starting with single-note dynamics and progressing to fast polyphonic passages, supported by resources like the official user guide and instructional videos.^[33]^[34]

Sound Generation

EaganMatrix Synthesizer

The EaganMatrix Synthesizer, named after its designer Edmund Eagan, was introduced in 2008 as the internal sound engine for the Continuum Fingerboard, supplanting prior synthesis approaches to enable more flexible and expressive sound generation directly within the instrument.^[29]^[35]^[36] Developed in collaboration with Lippold Haken and Christophe Duquesne, it utilizes a dedicated DSP engine to process inputs from the Continuum's surface, translating multidimensional gestures into audio signals without requiring external hardware.^[5]^[25] At its core, the EaganMatrix employs a modular architecture featuring a 16x16 patching matrix that interconnects audio and control modules, including oscillators, filters, delays, envelopes, and effects, allowing users to route signals dynamically for custom sound design.^[37] This matrix operates via patch points populated with constants, predefined functions, or user-defined formulas (such as those based on variables A through Z representing performance data), configured through the accompanying Haken Editor software on a computer.^[5]^[37] The design draws inspiration from classic modular synthesizers like the EMS VCS3 and ARP 2500, but leverages digital processing for greater precision and complexity in signal flow.^[37] The synthesizer supports a range of sound generation techniques, including physical modeling through kinetic and BiqBank modules that simulate mass-spring systems and acoustic interactions, frequency modulation (FM) via dedicated oscillator banks, and additive synthesis with up to 96 sine waves for harmonic construction.^[5]^[37] It also accommodates microtonal tuning and custom scales via adjustable pitch maps and graph functions, enabling precise intonation beyond standard equal temperament for experimental and non-Western music applications.^[5]^[37] Firmware updates to the EaganMatrix have continued through 2025, with the latest version 10.52 (as of March 2025) enhancing features such as expanded modulation capabilities and supporting polyphony up to 16 voices in newer models, ensuring compatibility across Haken Audio devices.^[38]^[4] The engine includes a library of over 500 factory presets, categorized for acoustic instrument emulations (such as saxophones and strings) and experimental textures, which users can modify or expand using the editor's tools.^[1]^[5]

Integration with External Systems

The Continuum Fingerboard supports standard MIDI protocol output, enabling control of external synthesizers, digital audio workstations (DAWs), and sequencers through up to 16 independent MIDI channels for polyphonic performance data from finger tracking.^[14] It implements MIDI Polyphonic Expression (MPE), assigning polyphony across channels 2 to P+1 where P is the maximum polyphony, with configurable pitch bend ranges via RPN 0 on channel 2, allowing nuanced control of timbre, volume, and pitch in compatible devices.^[14] Additionally, it extends MPE with MPE+, Haken Audio's enhancement providing 14-bit resolution for Y (front-back position) and Z (pressure) data at higher update rates (up to 250 Hz for Z), and optional 21-bit X (pitch) accuracy for glitch-free transmission, ensuring backwards compatibility while improving integration with MPE-supporting hardware and software.^[39] For audio connectivity, the instrument features stereo analog outputs via balanced TRS jacks, suitable for direct integration with mixers, amplifiers, or recording interfaces, and a headphone jack capable of professional-level voltage output.^[14] Digital audio I/O is provided through AES3 connectors operating at 48 kHz or 96 kHz sample rates, with the ability to sync to external word clock for synchronized operation in studio environments.^[14] USB 2.0 connectivity facilitates MIDI over USB for computer-based setups, including bidirectional communication with the Haken Editor software and virtual MIDI ports for routing to host applications.^[14] The Continuum Fingerboard integrates with DAWs such as Ableton Live and Logic Pro via USB-MIDI or traditional MIDI interfaces, leveraging MPE for expressive control of software instruments and effects within these hosts.^[14] It also supports advanced setups through compatible MIDI hosts like the iConnectivity mioXM, allowing routing to multiple external devices or virtual instruments.^[40] Historically, early models until 2008 utilized IEEE-1394 (FireWire) for high-bandwidth connections, particularly with systems like Kyma, but subsequent versions transitioned to USB 2.0 for broader compatibility and simplified integration with modern computers and peripherals.^[14]

Notable Users

Musicians and Performers

Jordan Rudess, the keyboardist for the progressive metal band Dream Theater, was among the early adopters of the Continuum Fingerboard, incorporating it into his performances and recordings starting with the band's 2005 album Octavarium, where he utilized it for intricate solos and atmospheric textures.^[41] Rudess has since featured the instrument in live settings, praising its ability to capture nuanced gestures for dynamic sound manipulation, and continues to showcase it in his solo work and tours.^[41] A.R. Rahman, the acclaimed Indian composer known for his film scores, has integrated the Continuum Fingerboard into several soundtracks, leveraging its continuous pitch control to evoke microtonal nuances resonant with Indian classical traditions. Notable uses include the ethereal lead in "Acid Darbari" from the 2010 soundtrack for 127 Hours, where Rahman performed using the instrument to interface with Kyma sound design software,^[42] and contributions to the 2009 film Delhi-6, blending it with traditional elements for tracks like "Rehna Tu."^[43] John Paul Jones, former bassist and keyboardist of Led Zeppelin, acquired a Continuum Fingerboard in 2006, incorporating it into his experimental solo projects and appreciating its keyless surface for fluid, expressive playing beyond conventional keyboards.^[44] Similarly, session keyboardist Terry Lawless, who has collaborated with artists like U2, lists the Continuum among his core studio gear, employing it for its precise control in recording sessions across rock and pop genres.^[45] In the realm of classical and experimental music, performers like Rob Schwimmer have advanced the instrument's role in microtonal compositions, as demonstrated in his 2012 piece CONTINUUM, premiered at the American Festival of Microtonal Music, which exploits the Continuum's polyphonic pitch bending for just intonation explorations.^[46] The Continuum community fosters performer development through events like ContinuuCon, an annual conference initiated in 2016 for Haken Continuum users, featuring showcases, workshops, and performances that highlight innovative techniques on the instrument and related EaganMatrix-based devices.^[47]

Applications in Media

The Continuum Fingerboard has been integrated into several high-profile film scores to produce distinctive, expressive soundscapes that enhance narrative atmospheres. Hans Zimmer employed the instrument, alongside the ContinuuMini, EaganMatrix Module, and Osmose, in the soundtrack for Dune: Part Two (2024), where it facilitated the generation of ethereal, alien-like timbres central to the film's sonic identity.^[48] Similarly, John Williams incorporated the Continuum into the orchestral score for Indiana Jones and the Kingdom of the Crystal Skull (2008), using it to double woodwinds and French horn sections for heightened emotional depth and a sense of otherworldly intrigue.^[49] In broader media applications, the instrument supports live orchestral performances tied to cinematic franchises. Composer Ramin Djawadi performs on the Continuum during his Game of Thrones Live Concert Experience tour, conducting and playing it to amplify the score's immersive qualities in real-time with a full orchestra.^[50]

References

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Continuum MPE Synthesizer - Haken Audio
Designed by Dr. Lippold Haken and hand-built by Cameron Fuller in Champaign, Illinois, each Continuum Fingerboard is meticulously assembled for optimal quality.
[2]
Continuum Fingerboards - Haken Audio
40 years in the making, the Continuum Fingerboard is an MPE+ standalone synthesizer, MPE controller and audio processor designed to be as expressive to play ...
[3]
The Haken Audio Team
Lippold started working on the Continuum Fingerboard in the early 1980s when he was a student at the University of Illinois. He tried many different designs ...Missing: history | Show results with:history<|separator|>
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Haken L. and K. Hebel, “Platypus Programmer's Reference Manual,” CERL Sound Group, Computer-based Education Research Laboratory, University of Illinois, 1988.
[5]
Indiana Jones and the incredible Continuum Fingerboard
May 21, 2008 · Built by hand at Haken Audio in Champaign, Ill., each Continuum is made of thick metal with a soft red nylon over neoprene surface. As a non- ...
[6]
Haken Audio - Taking the traditional keyboard synthesizer, and ...
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Using the Haken Audio Continuum with Kyma
Once connected, any keyboard-controlled Sound on MIDI channel 1 in Kyma automatically sets the polyphony and responds to the Continuum. Setting up the Continuum.Missing: Platypus | Show results with:Platypus
[8]
Martenot, Trautonium, Ondioline - Haken Audio
Performed using the Continuum Fingerboard's built-in EaganMatrix sound engine, and visually overlaid with midi data from the Continuum as well as Edmund ...
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In addition to that, this instrument generates audio directly. However, years later, the previous IEEE-1394 connection has been removed on the newer models.
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Nov 20, 2018 · The ContinuuMini has been designed to be a portable and more affordable version of Haken Audio's larger Continuum Fingerboards. The ContinuuMini ...<|separator|>
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Nov 21, 2018 · Since launching in 1999, Lippold Haken's Continuum Fingerboard has helped unlock expressive creativity in musicians around the globe.
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[17]
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Continuum players have a new way to play tiny intervals or unisons: Place one finger at near side of surface and another at far side, then keep each finger at ...
[18]
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Feb 11, 2016 · For fans of multi-dimensional MIDI controllers, and true performance instruments in favor of grid controllers, the first (annual?)
[19]
ContinuuCon Electronic Music Conference Coming To Paris In 2025
Oct 15, 2024 · ContinuuCon 2025, the seventh international Haken Continuum Conference, will be held in Paris March 26–28. This year's event will will be hosted by the IRCAM ...
[20]
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Jun 20, 2017 · Drag the first firmware file and drop it onto Update Firmware in Midi and Global Settings (in the cogwheel menu; see image above). The ...
[21]
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Continuums (or Continua) are built one-at-a-time by the inventor, Dr. Lippold Haken, with his father-in-law. There are only 900 or so in existence. Lippold ...Missing: CERL 1983
[22]
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Lippold Haken and manufactured by Haken Audio, the Continuum Fingerboard is a musical instrument that allows unprecedented realtime performance control. With a ...
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Mar 4, 2013 · This Continuum Fingerboard User's Guide has been formatted so that it is easy to read both in printed form and online. Each page will fit on.
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[25]
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Connectivity · Power Inlet Universal power brick and cable included with purchase · Foot Pedal Inputs Haken Audio recommends Yamaha FC3A and FC7 · 3.5 mm Midi I/O
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Continuum fingerboard | MIM
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Method and system for providing pressure-controlled transitions
... (x-axis) corresponds to pitch, up-and-down (z-axis) corresponds to loudness, and forward-and-back (y-axis) corresponds to timbre. The Continuum Fingerboard ...
[29]
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Nov 10, 2019 · The two historical electronic music instruments most like the Continuum Fingerboard are the Ondes. Martenot and the Trautonium. Like the ...
[30]
Tip du Jour - Haken Audio
Rob Schwimmer is a highly skilled Continuum Fingerboard performer. His Tip du Jour series is a compendium of playing techniques on the Haken Continuum from ...
[31]
Continuum Creator Lippold Haken On The Future Of Electronic ...
Dec 11, 2016 · Basically, in the Continuum surface, on the top you have this layer of nylon that's manufactured into the neoprene. Underneath that is aluminum ...
[32]
[PDF] Interview with Mark Vail - The Library of Congress
Fast-forward to 2008, when Ottawa-based composer Edmund Eagan paired his outstanding. EaganMatrix synth engine with Lippold Haken's Continuum Fingerboard touch- ...<|control11|><|separator|>
[33]
Sound Engine - Haken Audio
It harnesses the amazing performance response of the Continuum Fingerboard so that the performer can create nuanced, expressive, dynamic, and totally custom ...
[34]
[PDF] E a g a n M a t r i x U s e r G u i d e - Kraft Music
Oct 23, 2022 · This matrix is inspired by classical modular matrix patching synthesizers such as the EMS VCS3. However, unlike the analog predecessors, the.
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[36]
MPE+ - Haken Audio
The Continuum Fingerboard (shown on the right) produces nearly two dozen values during this time to represent the details of attack trajectory, giving the ...
[37]
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USB Power and Midi over Mini-USB Can be connected to a USB power block, or to a Mac or PC, or some USB-Midi hosts such as the iConnectivity Mio XM or XL.Missing: FireWire 2008
[38]
Expression and Sonic Authenticity | The Jordan Rudess Interview
Jul 5, 2023 · I think I used a Continuum Fingerboard on Octavarium [2005], and I also used the ROLI Seaboard a little bit on a couple of other albums here or ...
[39]
Three instruments, different sounds - Mid-day
Dec 3, 2016 · AR Rahman uses the fingerboard, that measures just 19x137 cm. Rahman magic. The continuum fingerboard was initially heard in the film, Delhi 6.
[40]
Perfecting new musical instrument an ongoing process for University ...
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[41]
Studio Equipment and Software - Terry Lawless
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[42]
'CONTINUUM', For Haken Continuum Fingerboard - Synthtopia
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[43]
ContinuuCon 2024: A View From the Inside - Synth and Software
Jun 28, 2024 · ContinuuCon began in 2016 as a conference for Haken Continuum Fingerboard players and programmers. Since then, the event has grown into a ...<|control11|><|separator|>
[44]
Dune: Hans Zimmer & Friends - Sound On Sound
“They were played on the Osmose and the Continuum, and really using the full expression of the instruments takes time,” says Christophe. “The Osmose was quite ...
[45]
External Digital Synths - retired - Haken Audio
John Williams' score for Indiana Jones and the Kingdom of the Crystal Skull features Continuum Fingerboard as part of the orchestra, often doubled by woodwinds ...
[46]
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[47]
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Feb 19, 2009 · Other famous players of this instrument include John Paul Jones of Led Zeppelin and Terry Lawless. It is good to see the efforts of the ...
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Mar 21, 2024 · The Haken Continuum And The Dune Part Two Connection ... In This Issue4 weeks ago. Podcast Episode Featuring Prog-Rock Legend Rick Wakeman.