Yamaha Genos USA pricing

News flash! The Yamaha Genos™ will come in one model: 76 keys. USA manufacturer’s suggested retail price, also known as “MSRP” or the retail “list price,” will be $6799. The minimum advertised price, known as “MAP” or the “street price,” will be $5,499. All prices are U.S. Dollars (USD).

Until October 31, 2017, purchase a new Yamaha Tyros 5 and receive: two free premium expansion packs, a ½GB expansion card and an iPad Holder. See the Yamaha promotions page for details.

Be sure to take advantage of this deal. Yamaha have moved to internal flash expansion memory and the flash memory expansion memory is on its way out. When buying a MOXF, too, be sure to negotiate and get flash expansion memory thrown into the deal.

[Update: A lot of people don’t realize that dealers can sell below the Minimum Advertised Price (MAP). Be sure to call your dealer. I purchased my PSR-S950 from Frank at Audioworks CT, (203) 876-1133. Frank specializes in and gigs with arranger keyboards. An all round good guy! Check out Frank’s blog post about Genos.]

Take control of your music

With nine drawbar sliders, six knobs, three articulation buttons, and an assignable rotary speed button, I wonder if Yamaha are making a play against the Nord Stage?

Both products (will) command a premium price. However, with superior acoustic and electric pianos, drawbar organ using Reface technology, an incredibly expressive sample-based synth engine, and capacious expansion memory, the Genos could make a play. Might be some credibility to this assertion given the rumor of a 76-key only Genos offering. Perhaps Yamaha will eventually roll out a lighter 61-key model, if the demand is there and vocal.

We’ll see and hear. October 2.

Once the pictures hit Facebook…

I’m still not sure if we are seeing final units. Enjoy, anyway. [Please click images to enlarge.]

Copyright © 2017 Paul J. Drongowski

Genos teaser video three

Yamaha Genos™ teaser video number three: Alex Christensen & The Berlin Orchestra – Infinity

Treat yourself to the video first before reading. There is a spoiler ahead!

Another track with orchestra and the occasional driving four on the floor. The video follows up with the visual and musical themes established in the second teaser video.

Very good production values, of course!

The first commenter was kind enough to leave bookmarks for the Genos:

Was anything missed? Be sure to go over this video frame by frame. 🙂

The first snippet is the Style Control section. If you’re a Yamaha Tyros or PSR S-series player, no surprises here. We see the now well-known sliders and “cooling tower” knobs for real-time control. Was the finger hitting the MAIN D section button an important hit point in the music? Didn’t seem that way to me. [Please click images to enlarge.]

The big pan. This will be dissected in so many ways over the next week until the fourth teaser video drops. We do see Voice and Part selection buttons, One Touch Setting (OTS) buttons, Multi Pad Control buttons, six assignable buttons (A-F), six lighted navigation buttons, data wheel, INC, DEC and EXIT buttons — all to the right of a rather nice looking wide-screen touch panel. Can’t really tell if the panel tilts. The USB port for your jump drive also makes an appearance.

The lighted navigation buttons were a bit of a surprise. Leaked images did not show the button legends. I can just make out HOME, STYLE and VOICE in the teaser video. My guess is that these buttons are an alternative, fast way into the menu structure — very important for visually impaired musicians. I’ll let younger eyes or those with CIA image enhancement software make out the other legends (MENU? PLAY LIST? SET?)

The big pan got one enormous belly laugh: “USB device is disconnected.” The display shows a style selection page and what’s that? A pop-up alert box! All this money on a video and they disconnect the jump drive?

Five tabbed pages of Dance styles. About fifty dance styles? The exact number is not really significant at this stage.

What’s up with the saxophone? I hear horns. That better be Cubase!

The third video deepens the mystery created in the second teaser video. What is the exact relationship between the sounds that we hear and the Yamaha Genos digital workstation? There are quite a few repetitious musical phrases (ostinato). Did the Genos produce those sounds or were those sounds sampled as the basis for new audio styles which combine with MIDI? The same question could be asked about the melody lines. Are we hearing the Genos or were the musicians and their instruments sampled and turned into Genos voices? Stay tuned. (No pun intended.) The answer to all of these questions may be “Yes.”

That’s it for this week except for unbridled speculation. The Genos will be shown in New York City to select Yamaha dealers on September 22nd. Martin Harris will be one of the demonstrators. The fourth teaser video will be released on September 29th. Genos will finally (finally!) be announced on October 2nd.

Oh, that unverified image? It’s probably the real deal.

Update

At 02:23, we catch a glimpse of the Yamaha Genos™ in the lower right hand corner of the frame.

My European and sleepless North American colleagues on the PSR Tutorial Forum have worked out the six assignable button legends: HOME, MENU, STYLE, VOICE, SONG, and PLAYLIST. Someone should get a free Genos from Yamaha for working this out!

Copyright © 2017 Paul J. Drongowski

This is the place(ment)

Alex Christensen & the Berlin Orchestra, Classical remake of “Snap! Rhythm Is a Dancer.”

Now that’s what a big production budget and product placement will buy you!

Wot? It’s not an ad for Yamaha headphones?

This is the second teaser video for the new Yamaha GENOS™ Digital Workstation.

I found three video clips showing the GENOS. If you found more, congratulations! You have less of a life than I do. 🙂 [Please click images to enlarge.]

At least we know where the “Direct Access” button is.

A nice, clean, flat user interface. Too bad recent research shows that users navigate a flat interface 22% slower than an interface with shadows, etc.

Yep, looks like the knobs adjust parameters and the display shows the current value.

The second video does not reveal much more than the first “pixie dust” teaser video. However, you can rest assured that Yamaha means and sanctions these video snippets. Yes, it has sliders, knobs, a color touch panel, and a parameter display above the knobs.

The main editorial question, however, is what role did the Yamaha GENOS™ play in the actual musical production of Mr. Christensen’s album? Or, vice versa?

Back to the crass business of marketing, Yamaha clearly want to reach a younger customer base without offending the old folks. (I am an old folk, by the way.) That’s perfectly fine by me as the Yamaha innovation engine needs fuel from many sources. If indeed the GENOS has styles combining MIDI and audio phrases, the development cost of that content alone must be staggering. (Do not think GENOS will come cheaply.)

We await more. Always more.

Related posts:

Original material Copyright © 2017 Paul J. Drongowski

A hoax image?

An unverified image of the Genos™ surfaced on the Web overnight. I will not publish this image here until I’m sure of its veracity.

If this image is genuine, it confirms features seen in the teaser video. Although the image depicts familiar PSR/Tyros features (e.g., style/section control buttons, registration buttons, One Touch Setting buttons, and multi-pad buttons), it has many new features over the current Tyros:

  • Color touch panel
  • Six control knobs
  • Display above the knobs (showing parameters?)
  • Nine drawbars
  • Six assignable buttons

The Tyros voice select buttons (far right just above the keyboard) indicate RIGHT1, RIGHT2, RIGHT3 and LEFT voices — typical for Tyros. A USB host port is above and to right of the voice select section. That’s a lot of unused real estate between the six assignable buttons and the USB bay by the way.

Current PSR/Tyros models provide a matrix of style selection buttons and a matrix of voice selection buttons. The image does not show these button groups. This would imply that all voice and style selection is made through the touch panel.

The Montage user interface supports user actions through both the touch panel and physical front panel buttons. This “duality” accommodates musicians with certain perceptual disabilities; Yamaha were lauded for this accommodation. Judging from this image, the Genos would not support this kind of “duality.”

The lower left corner of the keyboard does not appear to have pitch bend or modulation wheels. It looks more like a joystick.

The keyboard has 76 keys. Given the layout of the panel buttons, the space used by the panel buttons, etc. would preclude a 61-key version. This would be a break with current Tyros and Montage product lines that always provide a 61-key model.

Well, folks, there’s the image. A well done hoax? I’d like to believe, but I strongly recommend waiting for Yamaha’s verification on this one. We’ll know for sure, soon. Three more teaser videos are due over the next few weeks.

Copyright © 2017 Paul J. Drongowski

Genos is coming soon

Well, it’s official. Yamaha have created a special web site for Genos™ related announcements. The first posting is the teaser video which was accidentally released over the weekend. New videos will appear on September 15, 22 and 29. Dealer previews are scheduled during the last two weeks of September. Of course, we’re all dying to see the manuals and the data list PDF!

There’s one key graphic in the Yamaha annual report with the goal: Develop Products with Distinctive Individuality: Add original value to excellent basic functions and develop products others cannot imitate.

That’s a direct quote.

So, please review my summaries of recent Yamaha patents:

This is Yamaha staking out its claim in synth and arranger technology. Patents are expensive and Yamaha do not seek patent protection frivolously.

Hey, hey, serious stuff, but exciting!

Yamaha have filed several patents on styles and style playback using both MIDI data and digital audio. Not just audio drums, but pitched, melodic instrument parts.

When you hear a cello in the demo, that may very well be a recording of a real human being playing a real cello.

The playback engine tracks left hand chords. With respect to audio parts, the engine selects the most appropriate audio phrase from its library of audio recordings according to chord type. Time-stretching (etc.) adjusts for tempo and pitch-shifting adjusts for transposition. Thus, the recorded audio phrase is pitch- and tempo-matched against the musical clock and MIDI. Sounds easy, but try to do it right and do it in real-time!

I’m making a leap from patent filings to product, but my gut feeling as an engineer is strong about this one. (Feel the force, Luke.)

Or, we’ll all have a good laugh.

Copyright © 2017 Paul J. Drongowski

Flash dance?

So, is someone having a good laugh at us or is someone in trouble for accidentally releasing the Yamaha Genos teaser video? Or, is this a planned flash dance to get the fan base stirred up?

Debate is already raging on the PSR Tutorial Forum about the authenticity of the video. If it’s a fake, then hat’s are off to someone with brilliant production skills.

If you’ve seen the video, the instrument is not shown definitely. Rather, two hands conjure pixie dust into a stylized, 3-Dish instrument. There are one or two brief flashes of the rear view. (Not meaning to be crude, here.) The hands are disconnected from any meaningful musical gestures except for one deliberate gesture at roughly 46 seconds. A hand moves a slider in sync with an sforzando sweep in the soundtrack. Shades of Montage’s “Music in Motion” theme.

Observations include: six knobs, nine sliders, ten registration buttons, (probable) touch screen. Yamaha seem to have cornered the market on red and blue LED given this video and the Montage! Special thanks to Marcus, Maarten and Vinciane on the PSR Tutorial Forum for their keen eyes and steady disposition.

Here are a few captures from the unverified teaser video for the new Yamaha Genos arranger workstation. First up, the Genos logo. [Click on images for higher resolution.]

Next, is a close view of the knobs and faders. Mid-range PSR and Tyros models have a drawbar mode. Perhaps Yamaha have now given the drawbars proper faders? If true, Genos could be a terrific stage gig machine for the non-EDM types who crave quality acoustic piano, electric piano and B-3 organ. A shame that Montage didn’t fully nail drawbar control.

Finally, not so delicately put, is the rear view, presumably with all of the usual connectors provided for.

We’ll know for sure, soon. Dealer preview dates are September 18 (Europe) and September 28 (North America).

If you’re curious about what a new Yamaha arranger might do, then please read my blog posts about recent Yamaha R&D patents:

Copyright © 2017 Paul J. Drongowski

Yamaha CSP pianos: First take

Yamaha just announced the Clavinova CSP series of digital pianos. There are two models: CSP-150 and CSP-170. The main differences between the 170 and 150 are keyboard action (NWX and GH3X, respectively) and sound system (2 x 45W and 2 x 30W, respectively). USA MSRP list prices are $5,399 to $5,999, and $3,999 to $4,599 USD.

These are not stage pianos. They are “furniture” pianos which complement and fit below the existing CLP line.

Here’s my imagined notion of the product pitch meeting:

Digital piano meets arranger meets Rock Band. Let’s say that you don’t have much (any) musical training, but you want to play along with Katy Perry. Sit down at the CSP with your smart device, install the Smart Pianist app and connect via Bluetooth. Call up “Roar” in the app and get a simple musical score. Start the song, follow the LEDs above the keys and play along with the audio. The app stays in sync with the audio and highlights the notes to be played on each beat. So, if you learned a little bit about reading music, you’re good to go.

Sorry, a little bit more than an elevator pitch, but this is first draft writing! 🙂

That is CSP in a nutshell. The CSP is a first-rate piano and it has a decent collection of non-piano voices and arranger styles. The CSP even includes the Hammond-ish “organ flutes” drawbar organ voices. So, if you want to jam out with electric guitar, you’re set. If you want to play chords with your left hand and freestyle it, the CSP is ready.

If you’re looking for a full arranger workstation, though, you’re missing some features. No pitch bend wheel, no mod wheel, no multipads, no accompaniment section (MAIN, FILL, …) buttons. No voice editing; all voices are preset.

And hey, there’s no display either! The Smart Pianist app is your gateway to the CSP feature set. You can select from a few voices and styles using the FUNCTION button and the piano keyboard, but you need the app to make full use of the CSP. Eliminating the CLP’s touch panel, lights and switches takes a lot of cost out of the product, achieving a more affordable price point.

I could see the CSP appealing to churches as well as home players given the quality of the piano and acoustic voices. Flipping the ON switch and playing piano is just what a lot of liturgical music ministers want. The more tech savvy will dig in. Pastors will appreciate the lower price of the CSP line.

From the perspective of an arranger guy, the CSP represents a shift away from the standard arranger. For decades, people want to play with their favorite pop tunes. In order to use a conventional arranger (no matter what brand), the musician must find a suitable style and the musician must have the musical skill to play a chord with the left hand, even if it’s just the root note of the chord. Often the accompaniment doesn’t really “sound like the record” and the player feels disappointed, unskilled and depressed. Shucks, I feel this way whenever I make another attempt at playing guitar and at least I can read music!

The CSP is a new paradigm that addresses these concerns. First, the (budding) musician plays with the actual recording. Next, the app generates a simplified musical score — no need to chase after sheet music. The score matches the actual audio and the app leads the player through the score in sync with the audio. Finally, the CSP’s guide lights make a game of playing the notes in the simplified score.

We’ve already seen apps from Yamaha with some of these features. Chord Tracker analyzes a song from your audio music library and generates a chord chart. Kittar breaks a song down into musical phrases that can be repeated, transposed and slowed down for practice. The Smart Pianist app includes Chord Tracker functionality and takes it to another level producing a two stave piano score.

Notice that I said “a score” not “the score.” Yamaha’s audio analysis only needs to be good enough to produce a simple left hand part and the melody. It does not need to generate the full score for a piece of music. Plus, there are likely to be legal copyright issues with the generation of a full score. (A derivative work?)

Still, this is an impressive technical feat and is the culmination of years of research in music analysis. Yamaha have invested heavily in music analysis and hold many patents. Here are a few examples:

  • U.S. Patent 9,378,719: Technique for analyzing rhythm structure of music audio data, June 28, 2016
  • Patent 9,117,432: Apparatus and method for detecting chords, August 25, 2015
  • U.S. Patent 9,053,696: Searching for a tone data set based on a degree of similarity to a rhythm pattern, June 9, 2015
  • U.S. Patent 9,006,551: Musical performance-related information output device, April 14, 2015
  • Patent 9,275,616: Associating musical score image data and logical musical score data, March 1, 2016
  • U.S. Patent 9,142,203: Music data generation based on text-format chord chart, September 22, 2015

The last patent is not music analysis per se. It may be one of several patents covering technology that we will see in the next Yamaha top of the line (TOTL) arranger workstation.

I think we will be seeing more features based on music analysis. Yamaha’s stated mission is to make products that delight customers and to provide features that are not easily copied by competitors. Yamaha have staked out a strong patent position in this area let alone climbing over the steep technological barrier posed by musical analysis of audio.

Copyright © 2017 Paul J. Drongowski

Tip-toe through the tech

Last year ’bout this time, we were all holding our collective breath awaiting the new Yamaha Montage. There are two products which I expect to see from Yamaha sometime in the next one to two years:

  1. The successor to the mid-range MOXF synthesizer, and
  2. The successor to the top-of-the-line (TOTL) Tyros arranger workstation.

NAMM 2017 seems a little too soon for both products. In the case of the MOXF successor, Yamaha conducted marketing interviews during the summer of 2015. I would guess that MOXF sales are still pretty good and no new products from the usual suspects (Korg, Roland) are visible on the horizon. The Krome and FA could both use an update themselves. Not much market pressure here at the moment. (Korg’s NAMM 2017 announcements are, so far, a little underwhelming.)

Read my MOX retrospective and interview follow-up.

I suspect that the Tyros successor is somewhat closer to launch. Speculation has been heated ever since Yamaha filed for a US trademark on the word mark “GENOS”. The word mark was published for opposition on November 15, 2016. “Published for opposition” means that anyone who believes that they will be damaged by registration of the mark must file for opposition within 30 days of publication. If “GENOS” is indeed the name for the Tyros successor, then the 30 day period ending December 15, 2016 is cutting it very close to NAMM 2017. Even more ludicruous if Yamaha were to begin manufacturing products printed with that name for a NAMM 2017 launch. Imagine the scrap if opposition was successful!

For quite some time, I have been meaning to summarize the key U.S. patents that I believe to be GENOS-related. (Assuming that “GENOS” is the name!) I’ve procrastinated because the launch date is most likely fall 2017 at the earliest as previous Yamaha mid- and high-end arranger models are typically launched in the fall in anticipation of the holiday selling season.

A much larger barrier is the task of reading and gisting the patents. Patents are written in legalese and are much more difficult to read than the worst written scientific papers! One of the folks on the PSR Tutorial forum suggested making a list of the top five technologies for the new TOTL arranger. I generally hate the superficial nature of “list-icles,” but the suggestion is a good one. Nothing will get done as long as the barrier is big because I would much rather jam and play! I’m supposed to be retired.

The 2016 Yamaha annual report states that Yamaha want to make innovative products which are not easily copied by competitors. Patents — legally protected intellectual property — are essential to achieving this goal. Generally, a company only applies for a patent on technology in which they have a serious business interest due to the significant cost of obtaining and maintaining patent protection.

So, here are a few of Yamaha patented technologies which could appear in future products — perhaps GENOS, perhaps others.

SWP70 tone generator

This may seems like old news…

The next generation SWP70 tone generator first appeared in the mid-range Yamaha PSR-S970 arranger workstation. The SWP70 made its second appearance in the Yamaha Montage synthesizer. The S970 incorporates only one SWP70 and does not make full use of the chip. (At least three major interfaces are left unconnected.) In keeping with Yamaha’s TOTL design practice, the Montage employs two SWP70 integrated circuits: one each for AWM2 sample-playback and FM. A second sample cache interface on the AWM2 side is unconnected.

The Tyros successor likely will use two SWP70 tone generators, too. The number of available tone generation channels with two SWP70s will be massive (512 channels). Yamaha could opt for a single SWP70 and still outmatch the current generation Tyros 5. Like the Montage, there will be enough insert effect DSP processors to cover each style and user part, as many as two for every part.

It will be interesting to see (and hear) if the GENOS will make use of the second sample cache interface. A second cache would not only support more tone generation channels, but might be necessary for long, multi-measure musical phrases that are needed for full audio styles (discussed below).

The SWP70 flash memory interface follows the Open NAND FLASH interface (ONFI) standard, the same as solid state drives (SSD). ONFI memory devices can be stacked on a bi-directional tri-state bus, so potentially, the GENOS could support a large amount of internal waveform storage. This flash memory will contain the “expansion memory,” that is, physical memory reserved in flash memory for user waveforms. The expansion flash memory expansion modules (FL512M, FL1024M) are dead, Jim.

If you’re interested in Yamaha AWM2 tone generation, here’s a few patents to get you started:

  • Patent 9,040,800 Musical tone signal generating apparatus, May 26, 2015
  • Patent 8,383,924 Musical tone signal generating apparatus, February 26, 2013
  • Patent 8,389,844 Tone generation apparatus, March 5, 2013
  • Patent 8,957,295 Sound generation apparatus, February 17, 2015
  • Patent 8,035,021 Tone generation apparatus, October 2011
  • Patent 7,692,087 Compressed data structure and apparatus and method related thereto, April 6, 2010

U.S. Patent 8,957,295 is the patent issued for the SWP70 memory interface. U.S. Patent 9,040,800 describes a tone generator with 256 channels — very likely the SWP70.

Pure Analog Circuit

This may seem like old news, too, since Pure Analog Circuit (PAC) debuted in the Yamaha Montage.

Pure Analog Circuit is probably the least understood and least appreciated feature of the Montage. It’s not just better DACs, people. The high speed digital world is very noisy as far as analog audio is concerned. Yamaha separated the analog and digital worlds by putting the DACs and analog electronics on their own printed circuit board away from noisy digital circuits. Yamaha then applied old school engineering to the post-DAC analog circuitry, paying careful attention to old school concerns like board layout for noise minimization and clean power with separate voltage regulation for analog audio. Yamaha’s mid- to high-end products have always been quiet — PAC is pristine.

Since the PAC board is a separate, reusable entity, I could see Yamaha adopting the same board for GENOS.

Styles combining audio and MIDI

Yamaha are constantly in search of greater sonic realism. Existing technologies like Megavoices and Super Articulation 2 (Advanced Element Modeling) reproduce certain musical articulations. However, nothing can really match the real thing, that is, a live instrument played by an experienced professional musician. PG Music Band-in-a-Box (BIAB), for example, uses audio tracks recorded by studio musicians to produce realistic sounding backing tracks. The Digitech TRIO pedal draws on the PG Music technology for its tracks. (“Hello” to the Vancouver BC music technology syndicate.)

Yamaha have applied for and been granted several patents on generating accompaniment using synchronized audio and MIDI tracks. Here is a short list of U.S. patents:

  • Patent 9,147,388 Automatic performance technique using audio waveform data, September 29, 2015
  • Patent 9,040,802 Accompaniment data generating apparatus, May 26, 2015
  • Patent 8,791,350 Accompaniment data generating apparatus, July 29, 2014
  • Application 13/982,476 Accompaniment data generating apparatus, March 12, 2012

There are additional patents and applications. Each patent covers a different aspect of the same basic approach, making different claims (not unusal in patent-land). Yamaha have clearly invested in this area and are staking a claim.

The patents cite four main motivations, quoting:

  1. The ability to produce “actual musical instrument performance, human voices, natural sounds”
  2. To play “automatic accompaniment in which musical tones of an ethnic musical instrument or a musical instrument using a peculiar scale”
  3. To exhibit the “realism of human live performance”
  4. To advance beyond known techniques that “provide automatic performance only of accompaniment phrases of monophony”

Your average guy or gal might say, “Give me something that sounds as natural as Band-in-a-Box.” Yamaha sell into all major world markets, so the ability to play ethnic instruments with proper articulation is an important capability. Human voice, to this point, is limited to looped and one-shot syllables, e.g., jazz scat. The new approach would allow long phrases with natural intonation. [Click on images in this article for higher resolution.]

audio_accompaniment_tracks

Currently, mid- and high-end Yamaha arrangers have “audio styles” where only the rhythm track is audio. The patents cover accompaniment using melodic instruments in addition to rhythm instruments. The melodic audio tracks follow chord and tempo changes just like the current MIDI-based styles. Much of the technical complexity is due to synchronization between audio and MIDI events. Synchronization is troublesome when the audio tracks contain a live performance with rubato. Without good synchronization, the resulting accompaniment doesn’t feel right and sounds sloppy.

Accompaniment from chord chart

This next feature will be very handy. U.S. Patent 9,142,203 is titled “Music data generation based on text-format chord chart,” September 22, 2015. If you use textual chord charts (lyrics plus embedded chord symbols), you will want this!

chord_chart_example

Simply put, the technique described in this patent translates a textual chord chord to an accompaniment. The accompaniment is played back by the arranger. The user can select tempo, style, sections (MAIN, FILL IN) and so forth.

The translator/generator could be embedded in an arranger or it could be implemented by a PC- or tablet-based application. Stay tuned!

Selectively delayed registration changes

A registration is a group of performance parameters such as the right hand voice settings, left hand voice settings, accompaniment settings, and so forth. Mid- and high-end arrangers have eight front panel buttons where each button establishes a set of parameter values (“readout”) when the button is pushed. It’s the player’s job to hit the appropriate button at the appropriate time during a live performance to make voice settings, etc. A player may need a large number of buttons, if a musical performance is complicated.

Usually only a few parameters are different from one registration to the next. Recognizing this, the technique described by U.S. Patent 9,111,514 (“Delayed registration data readout in electronic music apparatus,” August 18, 2015) delays one or more parameter changes when a button is pushed. The user specifies the parameters to be delayed and the delay (such as the passage of some number of beats or measures, etc.) Thus, a single registration can cover the work of multiple individual registrations.

delayed_registration

I’ll have to wait to see the final product to assess the usefulness of this feature. Personally, I’d be happy with a configuration bit to keep OTS buttons from automatically turning on the accompaniment (ACCOMP). Sure would make it easier to use the OTS buttons for voice changes.

Ensembles / divisi

Tyros 5 ensemble voices assign played notes to individual instrument voices in real time, allowing a musician to perform divisi (divided) parts. Tyros 5 ensembles can be tweaked using its “Ensemble Voice Key Assign Type List.” Types include open, closed, and incremental voice assignment. U.S. Patent 9,384,717, titled “Tone generation assigning apparatus and method” and published July 5, 2016, extends Tyros 5 ensemble voice assignment.

The technique described in 9,384,717 gives the musician more control over part assignment through rules: target depressed key, priority rule, number of tones to generated, note range, etc. The rules handle common cases like splitting a single note to two or more voices.

ensemble_rules

These extensions could lead to some serious fun! I didn’t feel like the Tyros 5 ensemble feature was sufficiently smart and placed too many demands on the average player, i.e., less-than-talented me. The rules offer the opportunity to shift the mental finger work to software and perhaps could lead to more intuitive ensemble play. Neat.

Voice synthesis

As I alluded to earlier, arrangers make relatively primitive use of the human voice. Waveforms are usually limited to sustained (looped) or short (one-shot) syllables.

Yamaha have invested a substantial amount of money into the VOCALOID technology. VOCALOID draws on a singer database of syllable waveforms and performs some very heavy computation to “stitch” the individual waveforms together. The stitching is like a higher quality, non-real time version of Articulated Element Modeling (AEM).

VOCALOID was developed through a joint research project (led by Kenmochi Hideki) between Yamaha and the Music Technology Group (MTG) of the Universitat Pompeu Fabra in Barcelona, Spain. VOCALOID grew from early work by J. Bonada and X. Serra. (See “Synthesis of the Singing Voice by Performance Sampling and Spectral Models.”) More recent research has stretched synthesis from the human voice to musical instruments. Yamaha hold many, many patents on the VOCALOID technology.

Patent 9,355,634, titled “Voice synthesis device, voice synthesis method,” is a recent patent concerning voice synthesis (May 31, 2016). It, too, draws from a database of prerecorded syllables. The human interface is based on the notion of a “retake,” such as a producer might ask a singer to make in a recording studio using directives like “put more emphasis on the first syllable.” The retake concept eliminates a lot of the “wonky-ness” of the VOCALOID human interface. (If you’ve tried VOCALOID, you know what I mean!) The synthesis system sings lyrics based on directions from you — the producer.

An interface like this would make voice synthesis easier to use, possibly by novices or non-technically oriented musicians. The big question in my mind is whether voice synthesis and editing can be sped up and made real time. Still, wouldn’t it be cool if you could teach your arranger workstation to sing?

Music minus one

This work was conducted jointly with the MTG at the Universitat Pompeu Fabra. A few of the investigators were also involved in VOCALOID. Quoting, “The goal of the project was to develop practical methods to produce minus-one mixes of commercially available western popular music signals. Minus-one mixes are versions of music signals where all instruments except the targeted one are present.”

This is not good old center cancellation. The goal is to remove any individual instrument from a mix regardless of placement in the stereo field. You can hear a demo at http://d-kitamura.sakura.ne.jp/en/demo_deformation_en.htm.

I doubt if this technique will appear on an arranger; the computational requirements are too high and the method is not real time. However, “music minus-one” is very appealing to your average player (that is, me). My practice regimen includes playing with backing tracks. I would love to be able to play with any commercial tune on whim.

There are patents:

  • US Patent 9,002,035 Graphical audio signal control
  • US Patent 9,224,406 Technique for estimating particular audio component
  • US Patent 9,070,370 Technique for suppressing particular audio component

and there are scientific papers:

  • “Audio Source Separation for Music in Low-latency and High-latency Scenarios”, Ricard Marxer Pinon, Doctoral dissertation, Universitat Pompeu Fabra, Barcelona, 2013.
  • D. Kitamura, et al., “Music signal separation by supervised nonnegative
    matrix factorization with basis deformation,” Proc. DSP 2013, T3P(C)-1, 2013.
  • D. Kitamura, et al., “Robust Music Signal Separation Based on Supervised Nonnegative Matrix Factorization with Prevention of Basis Sharing”, ISSPIT, December 2013.

Music analysis

Yamaha have put considerable resources into what I would call “music analysis.” These technologies may not (probably will not) make it into an arranger keyboard. They are better suited for PC- or tablet-based applications.

I think we have seen the fruits of some of this labor in the Yamaha Chord Tracker iPad/iPhone application. Chord Tracker identifies tempo, beats, musical sections and chords within an audio song from your music library. It displays the extracted info in a simple chord chart and can even send the extracted “lead sheet” to your arranger. The arranger plays back the “lead sheet” as an accompaniment using the selected style.

We’re probably both wondering if Chord Tracker will integrate with the chord chart tool described above. Stay tuned.

Yamaha Patent 9,378,719 (June 28, 2016) is a “Technique for analyzing rhythm structure of music audio data.” Patent 9,117,432 (August 25, 2015) is an “Apparatus and method for detecting chords.” I wouldn’t be surprised if Chord Tracker draws from these two patents.

Yamaha has also investigated similarity measures and synchronized score display:

  • Patent 9,053,696 Searching for a tone data set based on a degree of similarity to a rhythm pattern, June 9, 2015
  • Patent 9,006,551 Musical performance-related information output device, April 14, 2015
  • Patent 9,275,616 Associating musical score image data and logical musical score data, March 1, 2016

I’m not sure where Yamaha is going with similarity measures and searching. Will they use similarity measures to selected accompaniment phrases? Who knows?

The work on score display synchronizes the display of the appropriate part of a musical score with its live or recorded performance. These techniques may be more appropriate to musical education and training, particularly for traditional brass, string and woodwind players. Yamaha derives considerable revenue from traditional instruments and this is perhaps a way to enhance their “ecosystem” for traditional acoustic instruments.

Score display is one possible application of Yamaha’s patented technique to transmit performance data via near-ultrasonic sound. The technique borrows one or more tone generation channels to generate the near-ultrasonic data signal. See my earlier post about U.S. Patent 8,779,267 for more details.

So long for now!

That’s it! I hope you enjoyed this brief tour through a few of Yamaha’s recent patent grants and filings.

If you want more information about a particular patent, then cruise on over the the U.S. Patent and Trademark Office (USPTO) web site. Navigate to patent search and plug in the patent number.

Copyright © 2017 Paul J. Drongowski

The long view

Here’s some information attributed to Martin Harris from Yamaha. Martin is one of the key sound developers at Yamaha:

  • Better Pianos
  • New Strings – 70 piece Seattle Symphony Orchestra Mega
  • New Orchestral Brass – highly dynamic
  • New Tuned Percussion – Glock, Xylo, Marimba and Vibes (with motor on)
  • New Mega guitars – Telecaster with Finger and Plectrum
  • SA2 Celtic Violin
  • New Synth Voices
  • New Classical Choir – Cathedral ambience
  • New Gospel Choir – Various articulations and Ad libs
  • New Pop Vocals – 4 session singers, 2 male and 2 female
  • Singing many dynamics and many articulations (wave cycling)

Montage? No, Tyros 4. The “SA2” should be a clue as the Montage does not provide Super Articulation 2 (SA2) voices.

My purpose here is not to be tricky, but to make the case that sample-based workstations or synthesizers draw from the sound pool that is available at development time, much the same way that hardware designers draw on the pool of available components. Products cannot be composed of imaginary circuits (“sand”), software, and sounds, after all.

To better illustrate this point, here is a rough timeline for the Tyros and Motif product lines with a few mid-range products (S9xx and MOX) thrown in:

             Tyros                        Motif/Montage
----   ------------------  ------------------------------------------
Year   Model     Physical  Model     Physical  Uncompressed waveforms
----   ------------------  ------------------------------------------
2001                       Motif      48MB     84MB 1,309 waveforms
2002   Tyros      96MB
2003                       Motif ES   96MB     175MB 1,859 waveforms
2004
2005   Tyros 2   192MB
2006
2007                       Motif XS  128MB     355MB 2,670 waveforms
2008   Tyros 3   256MB
2009
2010   Tyros 4   512MB     Motif XF  256MB     741MB 3,977 waveforms
2011                       MOX       128MB     355MB 2,670 waveforms
2012   PSR-S950  256MB
2013   Tyros 5   768MB     MOXF      256MB     741MB 3,977 waveforms
2014
2015   PSR-S970    2GB
2016                       Montage     4GB     5.67GB 6,347 waveforms

I included physical wave memory size for each product. I also included the uncompressed total sample size and number of waveforms for each member of the Motif/Montage line.

Clearly, Yamaha know how to ride the memory technology curve. Memory technology has progressed to the point where it is no longer a significant hardware design factor. Rather, the amount of wave memory in a product depends more upon the ability of the sound designers to fill it with quality content and mid- versus premium-product grading (i.e., the target market segment and price point for the model). For example, note that the mid-range S970 has more than twice the physical wave memory than the Tyros 5. Although the “expansion memory” is reserved in the S970’s physical wave memory, the S970 waveform content is substantially smaller than the Tyros 5.

The other characteristic to note is how the Tyros and Motif lines tend to leapfrog each other. Generally, the Tyros line leads the Motif line in physical wave memory and content. This is partly due to the higher memory requirements of SA2 voices, which require many additional articulation samples.

Both the Tyros 4 and Motif XF were released in 2010. Both machines use two SWP51L tone generators. (Newer products like the Montage use the SWP70 tone generator.) The Tyros 4 has twice the physical wave memory capacity with respect to the Motif XF. Yet, the Tyros 4 has sample content which did not make it to a deliverable product in the Motif line until the Montage in 2016: Seattle strings, orchestral brass, Celtic violin, vocals (choir and scat), Telecaster guitar and suitcase electric piano.

Tyros 5 expanded this content in 2013. The Motif XF, on the other hand, received a significant update in January 2014. The V.150 update added the “Real Distortion” effects implemented by the Tyros 5. (A few Real Distortion effects actually premiered in the mid-range S950.) The V1.50 update and the “White Motif” color job were life-extenders for the Motif line. I’ve conjectured before that Montage development was late and this is further evidence.

So, what can we expect in the Tyros successor which I’m calling the “Tyros++”. (Yamaha have trademarked the name “GENOS” which may be the name of the follow-on. Only Yamaha really knows.) Personally, I’m hoping for the new orchestral woodwinds from Montage. These are superbly expressive voices. I’m also expecting improved electric pianos, again, of comparable quality to the Montage.

SA2 voices will probably remain exclusive to the Tyros line. Many folks hoped that Montage would have SA2 and it didn’t. SA2 is an important product differentiator — kind of like the premium “Natural” piano voices are to the Clavinova line. I suspect that FM voices will be a differentiator for the premium Montage line in years to come as well. Yamaha tends to think of these three product lines as distinct, so cross-over is carefully controlled and limited.

All of this talk about samples and wave memory size is overly reductionist. The three main (DMI) product lines — Tyros, Motif/Montage, Clavinova — have distinct personalities and features. Motif/Montage is a synthesizer for stage and production studio. Clavinova is primarily a home or church piano. Tyros serves double duty as a home keyboard and as a workstation for performing professionals. (Oddly, many USA customers scoff at this latter role.)

Although these are all fine instruments, the personalities have quirks. Upper-range Clavinovas are Tyros-in-disguise except for multi-pads, third RIGHT voice (i.e., only two voice layers in the right hand), and no expansion memory. Tyros does not have the deep editing or modulation features of the Motif/Montage. The Motif and Montage — strangely! — do not have a tonewheeel organ mode. This latter omission is hard to understand since the Montage competes against other “stage” products like the Korg Kronos and Nord Stage.

Having compared voice programming between PSR-S950 (Tyros 3 without SA2 voices) and MOX (Motif XS sound set), the product lines are voiced (programmed) differently. Motif/Montage effect programming has a harder edge than the Tyros, which is oriented toward oldies, pop and jazz standards. (Yes, Virginia, the Tyros does have latent EDM potential to be tapped.) If the Tyros++ includes the orchestral woodwinds, for example, they will probably be programmed rather differently than Montage. Tyros++ four-part divisi ensembles with the new orchestral woodwinds would be simply brilliant. Can’t wait to see and hear what happens!

One finally editorial comment. The world is filled with product reviews. Publications like Keyboard magazine, Electronic Musician, etc. focus on individual products and rarely present a deep, long-term perspective on products. Sound On Sound reviews occasionally give historical background — usually for esoteric, retro studio pieces. As consumers, we need the long view in order to make the most informed choice.