Performance Synthesizer
The Jupiter 8 looms large in synthesizer history,
and any synth bearing the name has a lot to live up to. Is the Jupiter
80 destined for the same legendary status? Find out in our
world‑exclusive review...
I have friends who
have been waiting nearly three decades for a successor to the Roland
Jupiter 8. Their hearts went all a‑flutter when 1991’s JD800 was
announced but, while this is now a minor classic in its own right, it
wasn’t what they had envisaged. They went through the same set of
emotions when the JP8000 appeared in 1997, only to be disappointed
again. But now there’s a synth that says to the world, “Let there be no
confusion; I am a Roland Jupiter”. Launched amid a flurry of
speculation, praise and diatribes in equal measure from people who had
never been within 100 miles of one, let alone heard one, it’s the
Jupiter 80.
Physically, it’s somewhat larger and
heavier than Roland’s most recent and now discontinued 76‑note
workstation, the Fantom G7. Its colourful control panel is reminiscent
of a Jupiter 8, but only in a superficial way, and it’s clear even
before switching it on that most of the action is going to take place on
the 800 x 480-pixel touchscreen that dominates its control panel. The
touchscreen is good news; I’ve lost track of the number of times I’ve
poked a Fantom’s display in the expectation that something will happen.
The
Jupiter 80 generates its sounds using the Supernatural technology first
heard on the ARX boards introduced for the Fantom G series, married to
a significantly cut‑down version of the APS (Articulative Phrase
Synthesis) technology found in the V‑Synth GT. However, despite the
justified clamour from Fantom owners, there are only three ARX boards
(one each for drums, electric pianos and brass), and the set of
polyphonic APS sounds in the Jupiter 80 does not overlap fully with the
APS sources and Phrase Models in the GT, so it’s clear from the outset
that the new synth is not simply a mélange of existing engines presented
in a colourful new box.
What’s even more
apparent is that the Jupiter 80 is not based on any conventional synth
architecture, because it eschews the conventional patch and performance
structures that have dominated synth architectures for the past 20 years
or so. The lowest level (or so Roland claims) is the ‘Tone’, and there
are two distinct Tone generators: Supernatural Acoustic (which,
confusingly, also contains the APS sounds) and Supernatural Synth. The
next level up is the ‘Live Set’, which can comprise up to four Tones in
‘Layers’. The top level is the ‘Registration’, which comprises four
‘Parts’: a single Tone in the Perc Part, a Live Set in the Lower Part,
another Live Set in the Upper Part, and another Tone in the Solo Part.
Confused? I’m not surprised; so was I. But I have to admit that, by the
end of the review, I found it simple to use, if rather unusual.
Tones
Resemblance
to its ancestor aside, the Jupiter 80’s large, colourful buttons and
simple control panel make it especially useful for live performance.
Let’s start at the lowest level and look at the
Supernatural Acoustic Tones. There are 117 of these, divided into
categories such as pianos, basses, strings, guitars, and so on. A closer
look shows that some sounds are presented in two versions, with the
second prefixed by the letters ‘APS’. Consequently, you have (for
example) 0062:Oboe and 0104:APS Oboe, both of which sound like oboes but
nevertheless sound quite different from one another. There’s nothing to
worry about here, although Roland seem to have got themselves into
a bit of a semantic tangle when combining the Supernatural and APS
technologies, because the literature also talks about something called
Behavior Modeling Technology (the company’s spellings, not mine) which,
like APS, also claims to emulate the behaviour of a given instrument
when you play its physical model. Are APS and BMT components of
Supernatural Acoustic, or is Supernatural Acoustic the initial sound
generator and are APS and BMT independent performance modifiers? Or is
APS a component of BMT? Who shot JFK? Damned if I know!
So
let’s turn to Supernatural Synth, where things should be simpler.
Except that they’re not. Indeed, I found the Synth mightily confusing
until I realised that Roland’s claim that the Tone is the lowest level
of sound creation is wrong. I initially approached Supernatural Synth on
that basis, but I got myself into a tangle because I wasn’t
differentiating between the controls that affect a Supernatural Synth
Tone as a whole, and those that programme the three miniature
synthesizers (‘Partials’) that comprise it.
A
Partial is a powerful synthesizer in its own right. Its oscillator
appears to offer eight waveforms, but the six analogue‑type waves each
have three variants, and pulse width and PWM are programmable where
appropriate. The depth of the Super Saw (the seventh option) is also
programmable, while the eighth option allows you to select any one of
380 PCMs that include many of the underlying waveforms from earlier
generations of Roland’s digital synths. There’s also a dedicated AD
pitch envelope, a ring modulator between Partials 1 and 2, and
a waveshaper that can act upon any of the resulting sounds, whether
Virtual Analaogue or PCM digital. Similar flexibility is apparent when
you turn to the multimode (low-pass, high‑pass, band-pass and peaking)
filter with its 12dB/oct and 24dB/oct slopes, and to the amplifier.
There are even two LFOs, one for conventional duties, and a second
dedicated to the modulation joystick. This is all good stuff, and
a polysynth built on three of these (ie. a single Supernatural Synth
Tone) would be a very powerful instrument in its own right.
Live Sets
Largely
eschewing the knobs and sliders of its forebear, the Jupiter 80’s synth
engine is accessed mostly via the 800 x 480-pixel touchscreen.
Moving up a level, you can select any four Tones —
whether generated by Supernatural Acoustic or Supernatural Synth — to
insert into the four Layers in a Live Set. Strangely, this is also the
level at which Tone editing (as opposed to Synth Partial editing) takes
place, so before I can tell you about the facilities provided by the
Live Set itself, I need to tell you about what it lets you do to the
Tones that comprise it.
Let’s say that you want
to layer a couple of Tones — one generated by Supernatural Acoustic and
the other generated by Supernatural Synth — within a Live Set. To do so,
you place the first in, say, Layer 1, and the second in, say, Layer 2
of the Set. (You have to do this when the Live Set is inserted within
either the Upper or Lower Part of a Registration, but let’s ignore that
for the moment.) Now let’s say that you want to edit the first of these
Tones. Punching the appropriate Edit button reveals a handful of
parameters that are relevant to the instrument in question, so, for
example, the piano model offers control over string resonance, key-off
resonance, hammer noise, stereo width, nuance and tone character, while
the flutes offer noise level, growl sensitivity and ‘variation’, while
the electric pianos offer just a single parameter: key-off noise. In
contrast, the most complex of the models, the electric organ, is based
on a Hammond generator with all nine drawbars, percussion, keyclick,
leakage, and even subtleties such as the unusual behaviour of the 1‑foot
drawbar correctly implemented. Frustratingly, there’s no user memory
for edited Acoustic sounds, so you can only save the modified Tone
within the Live Set in which you edited it. I can see that this saves
memory but if, for example, I want to create and store a range of Honky
Tonk pianos, I can’t do so except by using up Layers and Live Sets.
Perhaps the reasoning was that there are so few parameters in
a Supernatural Acoustic sound that any edits could be recreated
elsewhere without too much hassle.
Moving across
to Supernatural Synth, inserting a Tone into a Live Set provides what
looks like a complete set of synthesis parameters in addition to those
found at the Partial level. However, these are not absolute, they are
modifiers that override some of the values in the Partials (such as
switching the filter type to a new setting) or provide offsets that
affect the Partials’ values. This is a weird architecture. The system
is, in effect, treating the Partials as an ‘expert’ level, allowing
novice users to regard Synth Tones as immutable building blocks and to
tweak them into shape using the controls provided at the Live Set level.
However, the advantage of this is that a Synth Tone moulded into a new
shape in one Live Set is not affected when inserted into another, which
is not a trivial benefit.
Once you have inserted
and, if desired, edited the Tones within a Live Set, you can apply
effects and other facilities to them. On the surface, the effects
section within a Live Set looks good, with four assignable MFXs
(multi‑effects) offering 76 effect types, plus a global reverb.
Unfortunately, the routing of the MFXs is fixed. While you can determine
the level of the signal sent from each Layer to each MFX, to the
reverb, and to the outside world, the four MFXs are permanently arranged
in parallel, so there is no way to pass signal from one to the next.
This means that you cannot send sounds sequentially through them to
create (for example) an organ’s effects path of chorus, reverb,
overdrive and rotary speaker, or through common guitar effects paths
such as compression, overdrive, EQ, chorus, and delay. I discussed this
with Roland, whose engineer’s response was, “we could make the routing
more flexible, but this might have ramifications in other areas, so we
should consider this carefully”. In other words: don’t hold your breath.
Notwithstanding this, the quality of the effects themselves is up to
Roland’s usual high standards, which is hardly surprisingly since many
of them are augmented versions of the Fantom G effects, enhanced by the
welcome addition of a three‑band parametric EQ.
A
Live Set also offers a variation on the concept of morphing from one
patch to another. Called ‘Tone Blending’, this allows you to move from
one state to another, with multiple parameters such as level, filter
cutoff, resonance and effect send levels being affected simultaneously
by a single knob or the onboard D‑Beam controller. You can define the
start and end points of the transition for each of the Layers in the
Live Set, which makes it possible to do things as simple as introducing
a sound into an existing mix, as interesting as morphing from an
Acoustic sound to a Synth sound and back again, or as experimental as
turning civilised patches into over‑effected sonic mayhem. Then, if you
stumble across something that you like anywhere within the blending
range, you can save this as another Live Set, which is an innovative way
to generate new sounds.
Registrations
The
Jupiter 80’s rear panel hosts all the connections you’d expect to see,
and a couple more besides. A full list can be found in the ‘Abridged
Specification’ box.
We now come to the top level, the Registration. There
are 32 of these (A‑1 to D‑8) in a ‘Set’, and eight Sets (called [01] to
[08]), giving a total of 256 Registrations, each of which comprises the
aforementioned four Parts — Perc, Lower, Upper and Solo — that can be
played in isolation, layered in a variety of ways, or split into
a maximum of four regions across the keyboard. If you want to change the
whole setup at the touch of a button, this is the level at which it’s
done, using the buttons under the keyboard.
Given
that the Solo Part comprises just a single Tone, you simply insert the
one that you want, determine the keyboard range over which it will play,
and set up things such as its level, pitch and pan. The modifying
parameters aren’t as extensive as those provided by a Live Set, and the
Solo Part’s effects structure — which offers just compression, EQ and
delay in series — is quite different from a Live Set’s, so a given Tone
can sound quite different when inserted and played here.
If
anything, the Perc Part is the weirdest of them all. With its Manual
Percussion option selected, this sets aside the bottom 15 notes of the
keyboard for a selection of percussion sounds. There are eight sound
sets provided but, given the limited number of notes available, these
are not laid out in conventional GM fashion. Alternatively, you can
select the Drums/SFX option, which gives you access to 16 drum kits,
either across the entire keyboard or limited to the region defined by
the Lower Part. You can also insert any Supernatural Tone here, again
accessible across the whole keyboard if no splits are on, or in the same
range as the Lower Part. This can be very useful, although you have to
remember that the Perc Part’s editing and effects have the same
structure as the Solo Part’s.
With more than
a nod toward live performance, the Jupiter 80 offers two additional
tools at the Registration level that can be applied to the Live Sets
inserted into the Upper and Lower Parts. The first is a powerful
arpeggiator. This can generate traditional patterns, with the usual
parameters, such as octave range, rate and shuffle, but when you start
to experiment with its Styles, Variations and Motifs, you’ll find that
it offers many more possibilities, encompassing everything from simple
patterns to guitar licks and strums, walking bass patterns and more. You
can even create up to 128 new ‘User’ styles by importing and saving
Standard MIDI Files of up to 500 notes. The second tool is called
Harmony Intelligence, and this adds a harmony to the topmost note that
you play in the Upper Part, calculated from the notes that you play in
the Lower. There are 17 types of ‘intelligence’, and these determine the
nature of the harmonies that are generated. Names such as Big Band,
Strings, Hymn, Country and Gospel tell you exactly what Roland’s
engineers had in mind, but while these would be appropriate for
a domestic instrument, they seem a touch incongruous here.
The
Jupiter 80’s MIDI capabilities are as extensive as you would expect,
with independent input and output channels for each of the Parts,
a separate control channel to change Registrations, MIDI sync, extensive
MIDI CC capabilities, and the ability to transmit parameter changes as
SysEx data. There’s also an extensive menu for controlling external
sounds, and this allows you to set up things such as velocity ranges and
key zones for each of the 16 channels. In addition to this, the Jupiter
80 offers Roland’s proprietary V‑Link protocol and is compatible with
the new MIDI Visual Control specification, both of which allow players
to control still images and video clips using MIDI note numbers and CCs.
I would love to have access to this technology for my band’s stage
shows, but as I don’t own a MIDI‑controlled video presenter or
projector, I can only assume that this works as it should.
Finally,
the Jupiter 80 incorporates a USB‑based song player and recorder. Copy
a suitable file (or files) to a USB drive and stick it in the USB slot
on the control panel, press the Song button and you’re ready to go. In
playback mode, you can fast‑forward and rewind, loop within a file,
chain files, alter the sound using the dedicated four‑band EQ, and
perform karaoke‑style centre cancellation. You can also alter the
playback speed and pitch, and although the algorithms for these
functions are not state‑of‑the‑art, they are adequate. You can even
record audio back onto the memory stick as 44.1kHz, 16‑bit WAV files,
mixing your own performance with any audio being presented to the USB or
analogue audio inputs. I like this player; it’s simple and intuitive,
and the independent speed and pitch controls will allow you to work out
all those fiddly Emerson Lake & Palmer piano solos that have been
bothering you for years [he’s not kidding — Ed]. Nonetheless, I’m
unimpressed by the repeated exhortation that one should, “never insert
or remove a USB memory stick when the power is on”. Given that the same
port is used for saving and backing up the Jupiter 80’s memories, you
would think that an ‘eject’ command and hot‑swapping would be taken for
granted, not precluded with dire warnings of the sky falling in!
In Use
The
Jupiter 80’s keyboard is very pleasant to play; a good compromise given
the range of keyboard duties — from grand pianos, to organs, to
orchestral imitations, to synth solos — that it will be asked to
perform. I suspect that this is in part because the size and weight of
the Jupiter 80 lends the keyboard a reassuring solidity, while the
instrument as a whole still remains more manageable than most synths
based on 88‑note piano‑weighted keybeds. This has to be a good thing for
an instrument designed to spend much of its life on the road. What’s
more, the fact that the Jupiter 80 boots up markedly faster than
a V‑Synth or a Fantom makes it more suitable for live use in at least
one other sense: there must be nothing worse than standing on stage and
telling the audience you’ll start playing again in a few minutes once
the keyboards have rebooted! Other things also suggest that Roland have
thought carefully about on‑stage use, and the area in which this is most
obvious is, perhaps, that of patch selection. The 27 large, colourful
buttons running behind the keyboard allow you to punch your choices from
54 predetermined Tones and Live Sets into the Parts of the
current Registration, and the Tone Remain function holds any existing
sound(s) until you release those keys, so there are no glitches on
changeover. What’s more, you can specify the Tones and Live Sets that
are attached to each button, and you’re not constrained to sounds that
conform to their names, so the system can be very flexible.
So
now we come to the sound of the Jupiter 80. Starting with the
Supernatural Acoustic sounds, I have strong suspicions that, rather than
being a pure ‘physical modelling’ synth in the way that I would
historically have used that term, Supernatural Acoustic is similar to
Roland’s Structured Adaptive Synthesis (SAS), which built its piano and
electric piano sounds using parametric models derived from sample
analysis. Given that a similar technology was recently used for the
V‑Piano, I emailed Roland to ask whether I was correct and whether the
piano sounds in the Jupiter 80 were the same as those found on other
Supernatural pianos such as the RD700 and FP7F. I hit a corporate brick
wall. The official response was, “we are unwilling to share this
information”, and when I asked for a list of the behaviours that
comprise Articulative Phrase Synthesis and Behavior Modeling Technology,
I obtained the same answer. Nonetheless, the Jupiter 80 is, as Roland
claim, a remarkably playable and expressive synthesizer, and many of its
Supernatural Acoustic sounds — such as the superb Clavinets, the
accordions and the excellent acoustic bass — are impressive, and the
subtle but sometimes important performance benefits of BMT and APS
shouldn’t be overlooked. Let’s take an example. If you select one of the
acoustic guitars — say, 0035:SteelStr Guitar — and isolate this from
all the other sounds, you’ll find that you can play it conventionally
and it will sound equivalent to patches from elsewhere. You could also
switch on the ‘Strum Mode’, so that chords are strummed in a realistic
fashion. But, again, this is nothing new. However, BMT becomes apparent
when you play two notes, either one or two semitones apart, quite hard
and almost simultaneously. You then hear a realistic glissando from the
first note to the second. If the interval is any greater, you obtain
a strum or a picked chord because BMT assumes than any interval above
two semitones is fretted separately or played on a different string.
Other easily audible examples of APS/BMT can be heard when you trill
rapidly and slur brass sounds, but there are some Tones for which the
effects are either so subtle that I’m missing them, or nothing is
implemented. Unfortunately, given Roland’s reticence to discuss the
matter, I can’t be any more informative.
Turning
now to Supernatural Synth, I can only restate how powerful the Jupiter
80 is in this department. You can stack three Partials in a Tone and up
to 10 Tones in a Registration to create some monstrous patches combining
analogue waveforms, Supersaw and PCMs! Or course, it’s much more
sensible to create useful Tones and then layer them in Live Sets to
create some luscious sounds, but I suspect that the main question on
everyone’s lips is, ‘does it sound like a Jupiter 8?’. As you might
expect in a synth called the Jupiter 80, there are numerous Tones, Live
Sets and Registrations called ‘Jupiter 8 something or other’, and
a cynic might expect these to be nothing more than an appeal to the
gullible. However, notwithstanding a touch of aliasing at the highest
pitches, I found the Jupiter 80 to be capable of some remarkably good
imitations of the old lady. What’s more, these comparisons weren’t
against dim recollections of how a JP8 sounded when I heard one in
a shop in Middlesbrough on a soggy afternoon in 1982... I placed my
Jupiter 8 next to the Jupiter 80 and compared them directly. Of course
there were differences, but in a blind test of some brass and string
patches, I couldn’t tell which synth was generating which. This was not
what I had expected! Nonetheless, there is in my view one significant
shortcoming in Supernatural Synth; while you can affect the loudness and
brightness of a sound using aftertouch, you can’t introduce vibrato,
tremolo or growl. For a synth that prides itself on its performance
capabilities, this seems a lamentable oversight.
Conclusions
You
may have expected that something bearing the Jupiter name would offer
fistfuls of knobs and sliders, and a signal path harkening back to the
heyday of analogue synthesis. The Jupiter 80 does neither. So should we
conclude that its name and colour scheme are no more than a cynical
marketing exercise designed to drag cash out of the wallets of the
unwary? Certainly, it bears no more relation to a Jupiter 8 than a Juno
Stage bears to a Juno 60, so it’s easy to leap to this conclusion. But
you must also remember that the Jupiter name only assumed its current
cachet some time after the original series had been superseded by the
JX8P and the Super JX10. In 1981, the Jupiter 8 was merely Roland’s
interpretation of the current state of the art, designed to compete
head‑to‑head with the Prophet 5 and Oberheim OBX, so in the sense that
the Jupiter 80 is a performance synth based on the latest technology,
its name is not inappropriate. Nonetheless, it’s going to continue to
annoy a lot of people.
Such issues aside, I’m
relieved that Roland let me have the pre‑release Jupiter 80 for such an
extended period, because at the start of this review I couldn’t
understand why they had designed such a strange synth. But, as I learned
how to approach its Tones, Live Sets and Registrations, and as I began
to work with what its effects structure could do rather than complain
about what it could not, I started to discover what a remarkably
expressive musical instrument the Jupiter 80 is. I also began to realise
that, had it been manufactured elsewhere, somebody in the marketing
department would have been bouncing up and down and proclaiming loudly
the multiple physical models that comprise Supernatural Acoustic,
whereas Roland have been commendably conservative in their lack of
hyperbole.
Of course, the Jupiter 80 is not for
everybody, and if you need a workstation capable of providing a dozen
splits with multitimbral effects assignments, you’re looking at the
wrong instrument. But if you’re after something that provides some
top‑notch piano and orchestral sounds, a remarkably powerful VA synth
that can imitate the best of the real thing, and the ability to build
these into complex, involving sonic structures, the Jupiter 80 has a lot
going for it. Sitting somewhere between a preset stage
piano/organ/synth and a fully featured workstation, it’s a brave design,
and — like me — potential purchasers need to take the time to overcome
their preconceptions of what they think it should be, and begin to
appreciate it for what it really is.
