I may not be as entertaining as the other paragraphs, but I was the first.
My version of menu 2 had a pair of tortillas, a big cookie, some beans, some barbecue sauce, "tropical punch flavored no fruit juice", and cheese spread with jalapenos. Some versions of the menu have orange juice instead of fruit juice.
Today we're going to have a look at MRE Menu 2: Beef Shredded, in Barbecue Sauce. As a postmodern joke I was originally going to write this article as if each paragraph was a living creature with thoughts of its own, but I realised that I would have to relinquish control of the narrative, which isn't going to happen.
So I had the paragraphs euthanised and replaced with new paragraphs of my own creation, such as this paragraph and the next one and the next one etc. I also carefully disinfected all the white spaces, because hygiene is important in these troubled times.
MREs are ready-to-eat meals first deployed by the US military in the early 1980s. They're intended as a supplement for field canteens and ordinary restaurant food; on the civilian market they don't make a lot of sense, but they're a fun novelty. I became aware of them during the first Gulf War, when their artificial plastic nature seemed to mirror Western society in the post-Cold War era. MREs have a shelf life of five years, although when stored in cool conditions they can last for much longer. The oldest MRE I have eaten was made in 2002, and although most of it was spoiled the main meal was not only edible but surprisingly good.
Top online MRE reviewer Steve1989 has eaten MREs from as far back as 1984, albeit that his example was carefully stored:
The problem from a survival point of view is that a big bag of rice, noodles, wheat etc is cheaper and will survive far longer. MREs are very bulky and use masses of plastic, and purely as sustenance they're very expensive.
Still, let's taste the whip, in love not given lightly, and try out the coffee, instant, type II:
The accessory packet includes gum, "toilet paper", and a moist towelette that doesn't claim to have any antibacterial properties so it's probably no use at fighting COVID.
As always the coffee was hard rather than smooth, but the Splenda(r) sweetener ruined it. Other MREs have actual sugar, in which case the coffee is perfectly acceptable instant coffee, but the artificial sweetener tasted sickly and wrong.
Still, let's get the main meal cooking. The FRH was super effective:
I put the beef and the beans on either side of the FRH. Let's try to kill off my kidneys by eating the big cookie and drinking the drincc:
No, Kimi, you will not have the drincc. In my experience MRE fruit drinks generally don't mix well unless you put water in the packet and aggressively slosh it around. This time I just used a spoon. The end result was chalky, not very impressive. I think I diluted it too much. The cookie was a big cookie, no more, no less. The people who make MREs have obviously mastered the art of packing cakes and cookies; they are the most consistently good parts of the MREs I have tried.
Menu 2 is unusually inflexible. The addition of crackers would improve things immensely. The problem is that it has two very similar main meals, beans and beef:
Plus barbecue sauce, but it feels odd to add sauce to a pair of meals that already have sauce. In the end I put them all onto a plate with the cheese:
It's actually much tastier than it looks. The barbecue sauce gives it a tang without being overpowering; the artificial cheese is simultaneously vile and excellent in a post-pub-food way; the beans are just beans, but the beef makes a decent stab at being stewed beef. It's not on a par with the awesome meat payload of Polish MREs, but it's pretty good. I made some tortillas with the tortillas:
In summary Menu 2 is unusually spartan. It's essentially a big cookie with two very similar main meals. Most other MREs are designed with a pudding, a main meal, and a combination of elements that can be mixed into a third food item or alternatively added to the meal; in this case you could in theory have cheese tortillas with barbecue sauce, but they would be very bland and messy.
It feels pointless having two meals that are almost the same; why not have shredded beef with black beans in a double-sized packet? But perhaps it wouldn't cook properly if it was too thick. I don't know. As is the case with most MREs the main meal would be great with chips, but without chips it feels incomplete. And so do I.
I apologise for the lateness of this post. I originally wrote it in the
style of a 1970s New Wave science fiction novel, but following complaints from
King Features Syndicate and the Catholic Church I had to rewrite large chunks
and eventually there was no point.
But it was awesome! The story culminated with a Marxist revolutionary
modelled on Pam Grier forcing Buck Rogers a character that
resembled Buck Rogers to sodomise God to death so that He would ejaculate
the stars and planets etc.
The ultimate point was that we are the abandoned children of a dead God, which is pretty darn deep if you think about it.
But let's talk about modular synthesisers instead. We can talk about New
Wave science fiction another time. Let's talk about modular synthesisers. Specifically eurorack.
What is eurorack? It's a set of physical and
electrical standards devised in the late 1990s by Doepfer Musikelektronik GmbH of Germany,
based on 1980s computer expansion boards. Before eurorack there was no
universal standard for modular synthesisers. US-based systems from
Moog, Buchla, Serge and so forth were incompatible with each other.
Eurorack took off because it was compact and relatively simple. Now there are several hundred eurorack
manufacturers scattered across the globe. Objectively the eurorack market
is tiny, but my guess is that there are far more modular synths in the world today than there were in the 1970s, when politically-aware New Wave sci-fi was all the rage. The New Wave was politically-aware, often juvenile, maddeningly erratic, occasionally brilliant, all too often as cliched as the Golden Age sci-fi it pushed aside.
It's pronounced Doop-fer by the way. The name comes from Dieter Doepfer, after whom the
company is named. The OE is pronounced "ooh", which is the noise that God
made when Buck Rogers penetrated him. The thing about New Wave sci-fi was
that the writers were mostly middle-aged white men who were steeped in the prejudices of white mainstream America, so although the genre was
ostensibly progressive their vision of liberal enlightenment
involved white heroes taking lots of drugs, using the N-word frequently,
and having orgies with sexually liberated women who were background extras
in the main character's epic life. Non-white people were noble savages and the idea of women having agency was perhaps too
transgressive for the 1970s.
We are trapped in invisible cages. We sing songs of revolution in the
language of our oppressors; we don't see the bars. Think of all the
psychedelic freak-out records of the progressive rock era that were
praised to the skies when they were new, but sound like dated jazzy
blues-rock now, because the artists involved - and the critics that
supported them - were so immersed in jazz and blues-rock that they didn't
realise they were making jazzy blues-rock.
We are trapped. And yet as a child I felt that the nihilism of cyberpunk and the thematic
emptiness of 1980s space opera revival and mass-market fantasy was unsatisfying,
and for all its faults the New Wave of the 1960s and 1970s had at
least tried to innovate, but eurorack. Let's talk about eurorack.
Big hit of cocaine and eurorack. Here are some beats made with a eurorack
synthesiser while you read about eurorack. I'm not going to talk about New
Wave science fiction any more. Not going to talk about it.
Keep away from it. Keep away from sci-fi. Eurorack emerged at a point in
time when analogue synthesisers were dead and buried. The analogue
polysynths of the early 1980s had been swept aside by sample-based
workstations such as the Korg M1 and its heirs, and indeed by samplers;
tonnes of musicians in the 1990s ignored synthesisers entirely and bought
a sampler instead. For good reason. You could do anything with a sampler. They are incredibly versatile instruments.
Back in the 1990s the analogue scene consisted of clones of the Roland TB-303 bass synthesiser and
a few legacy modular systems that were staggeringly expensive and
esoteric. The TB-303 clones - the original Novation Bass Station, the
Control Synthesis Deep Bass Nine, Doepfer's own MS-404 among others - were
analogue to varying degrees, but they were specialised tools intended for
one role only. They weren't intended to bring
analogue back for the masses.
As far as Roland and Korg and Alesis were concerned analogue was the past. The future of
electronic music in the 2000s would involve ISDN and ADAT and sample-based
digital workstations and Pro Tools and hard disk recording and a
hypothetical replacement for MIDI, and in a way they were
perfectly correct, because virtual synthesis became massive in the early
2000s and sample libraries are still with us today.
Virtually all modern television music and a large proportion of film
scores are performed with sample libraries of orchestras. Thanks to
virtual instruments millions of people have access to a recording studio
in their laptop that would have cost a fortune as recently as the late
1990s. But there comes a point when flicking through realistic strings presets gets boring. What if you want bleeps, and bloops? Rhythmic bleeps? And knobs that you can twist with your hands, instead of having to assign functions to a control surface?
An example of good modern music that (probably) wasn't recorded with
a modular synthesiser. I include this because I want to stress that I'm not a snob; the only thing that matters is how it sounds.
But analogue was just too cool to die. Hip kids wanted analogue synths because
some of their favourite records were made with them, from
Oxygene and Computer World to
Selected Ambient Works and Felt Mountain and
Second Toughest in the Infants etc. Made with them or at least with
convincing samples of them. Those kids grew up into middle-aged men with a
disposable income, and the cost of manufacturing electronic gadgets with
knobs and sliders declined, and people are nowadays willing to spend a lot
of money on toys. With the world devastated by a viral plague there's
nothing else to spend money on if you have it.
There are also good practical reasons for the analogue resurgence. The abstract nature of simple waveforms is
timeless; the simplicity and directness of the classic subtractive
synthesis model is refreshing; analogue synthesisers tend to have masses
of controls, with instant feedback, and they're all right there in front of you instead of being hidden away behind menus; analogue oscillators don't suffer from
aliasing.
And they look awesome. In the 1990s no-one could have imagined that CV/Gate would make a
comeback, or that it would be relevant in the year 2021. And yet it did. It outlasted Yamaha's mLAN and the University of California's ZIPI; it is the Morse code of musical instrument interfaces.
My first two modules.
What is CV/Gate? Back in the 1970s analogue synthesisers communicated with
each other using a mixture of control voltages and gates. Control voltages
carried note information, typically using a standard whereby an increase of one volt represented an increase of one octave. Gates were simple on/off
signals that were typically used to activate envelopes. There were also
triggers and clock pulses, which were simple click noises, and some
manufactures had proprietary interfaces, but let's concentrate on CV/Gate.
Let's not talk about New Wave sci-fi any more.
CV/Gate became unwieldy when polyphonic synthesisers took off in the late
1970s - each note required a separate CV/Gate channel - so within a few
years the world's musical instrument manufacturers ganged together and
devised MIDI, a digital protocol that used a 32kbps serial network
travelling down stubbly little cables to transmit note information.
MIDI does the job well enough and it's cheap to implement so it still
exists today. It supports sixteen channels of polyphonic note data plus
clock plus song pointers, albeit that because it's a serial protocol there
are microscopic timing issues, which are further exacerbated by USB-MIDI
interfaces.
In contrast CV/Gate transmits data at the speed of light, and furthermore
because the signals are simple voltages and the connectors are all the
same there's nothing to stop you from plugging a CV output into the control input of a filter, for
example, or an envelope generator, or an LFO etc. It's a flexible system
that encourages experimentation.
At top a work-in-progress, at bottom the final result (so far).
Modular synthesis has a reputation for appealing to tinkerers, and there's
a wealth-signalling aspect as well because it's not cheap. The leading
practitioners are drawn from the same pool of thin white men and women
that make up the roster of Mille Plateaux records; people who wear their
lack of incentive to achieve as a badge of honour. None of them like to
talk about where their parents' money came from because their parents are hedge
fund managers or lawyers or the chief finance officer of Siemens etc.
Eurorack is a bit of a mongrel dog in that respect because it's relatively
simple and affordable. Owners of Serge, Buchla, and Moog systems look down
at eurorack. "How cute", they say. There's a class system within the world
of eurorack, just as there is a class system in the world of backdated
Porsche 911s and vintage guitars and everything. If your eurorack is
stuffed with modules from Intellijel of Canada or Cwejman of Sweden you
will be respected; if you have modules from Behringer or a no-name brand
from eBay you're no fun.
I've always associated Buchla synthesisers with the kind of
wealthy Californian who owns a house next to a public beach, and has built
a wall to block the public from using the beach, and has spent the last
decade appealing against legal demands from the local council to have the
wall taken down. This person never visits the beach, he just wants to
block other people from using it. On the surface they are lovey-dovey
supporters of the arts community, but scratch the skin and they are
vipers.
I'm digressing here. What if I am the ranting maniac? No, let's move on.
I'm not going to pretend to explain the basics of synthesis or talk about
New Wave sci-fi any more. My suggestion is that you get hold of Arturia's
ARP 2600V, which models the patchable-but-not-quite modular ARP 2600, and
tinker with that for a while. For a shade under £600 Behringer makes a
recreation of the ARP 2600 that is extensively patchable. For a similar
sum Moog makes the Mother-32, which is simpler but has a lovely Moog
filter.
The power connectors are keyed, but it's a good idea to make sure
that the +12 and -12 pins line up with the appropriate sockets on the
module. Doepfer power buses carry CV and gate signals, but only a
handful of modules - all made by Doepfer - can use those
signals.
Oh, I'll have a go. Modular synthesis is a bit like Lego or assembly
language, in the sense that the individual building blocks are simple but
the arrangement of blocks can become complex. A modular synthesiser
typically has:
- One or more sound sources. Analogue synthesisers of the 1960s and 1970s
used VOLTAGE CONTROLLED OSCILLATORS (VCOs), which generated simple
waveforms such as sawtooth, square, and sine waves. In the 1980s digital
synthesis with frequency modulation displaced analogue oscillators, and in
the 1980s and 1990s digital sample players displaced FM, although while
this was happening modular was dead as a doornail, so the digital
revolution largely bypassed the modular world. Modular synthesis is
extremely flexible, and there is no reason why a modular synthesiser
cannot dispense with oscillators entirely and use a shortwave radio as a
sound source, or a microphone, or
the amplified sound of stones.
- The VCO feeds into a VOLTAGE CONTROLLED FILTER (VCF), which adds sonic
colour to the sound by muffling it (if it's a low-pass filter) or
brightening it (if it's a high-pass filter) or making it sound like a
1940s radio (if it's a band-pass filter) or making it sound like a throat
(if it's a formant filter) etc.
- The VCF feeds into a VOLTAGE CONTROLLED AMPLIFIER (VCA), that shapes the
volume of the sound. Why VCO-VCF-VCA, and not for example VCO-VCA-VCF?
Because some filters can make sounds of their own, and if there isn't a
VCA at the end of the chain the VCF would never shut up.
- This arrangement by itself would produce electric-organ-style BOOOOOOO
noises. One of the things that separates a synthesiser from other electronic
musical instruments is modulation; in the classic synthesiser model the
the VCF and VCO are controlled by a mixture of one-shot ENVELOPES and
repeating LOW FREQUENCY OSCILLATORS (LFOs) that make the sound go whooo or
ping or bouncy-bouncy or wubble or bah weep gragna weep ni ni bong or
zang-zang-tuuumb with three "u"s.
Shown here with a pair of Arturia Beatsteps. The Beatstep has a
combination of MIDI and separate CV and gate outputs, and in this
image I'm using the gate from the top Beatstep to control the
filter, and the lower Beatstep to control the pitch.
There are also slew generators and frequency dividers and phase locked
loops, but they are deeper magic for another time. The simple building
blocks above can be combined to produce complex sounds. For example you
could feed a short envelope into a VCA that's set up to modulate a VCO,
thus producing a little pitch jump at the beginning of each note (as in
Vangelis' "Chung Kuo" or the classic shakuhachi-type sound), or you could
use an LFO to drive another LFO, thus producing a complex polyrhythmic
modulation. That's what I'm doing in this video, I'm modulating an LFO
with another LFO:
One element that tends to trip people up - it tripped me up - is gates.
With a MIDI synthesiser the keyboard automatically routes NOTE ON and NOTE
OFF messages to the envelopes every time you press a key, but with a
modular synthesiser you have to manually wire the envelope gates up to the
sequencer, perhaps using a MULTIPLE to transmit a single gate to several
envelopes.
Modular synthesisers are appealing for their versatility. If you want a
Minimoog-writ-large that has six oscillators instead of three you just
need to find sufficient space to fit the oscillators, plus a mixer to
combine them; alternatively if you want to emulate the classic ratcheting
"Berlin school" sequencer sound you can fill your case with clock dividers
and trigger-gate converters.
Have you ever read about the EMS VCS3? It's a compact not-quite-modular
synthesiser from the late 1960s that fetches five-figure sums on the used
market, but with a set of eurorack modules you can duplicate most of its
functionality for a fraction of that price. Doepfer even makes an
affordable spring reverb. By swapping in different filters it's possible
to mimic the classic semi-modulars of the past for less money than an
actual vintage unit.
The need to wire up new patches puts some people off, but just because
every module has a bunch of modulation options you don't have to use them.
I recorded the following little ditty just to see if I could make a plain
vanilla patch with Plaits. The tune is essentially a duet between Plaits
and a Korg ARP Odyssey, with the Model D on bass:
Let's talk about my modular synth and perhaps some of it might sink in.
It's built into a Doepfer LC6 case, which has a pair of 84HP racks. HP
stands for horizontal pitch; 84hp is a popular width because it can
easily be adapted to fit into a standard 19" studio rackmount. Doepfer
makes one-storey, three-storey, multi-storey cases in a variety of widths,
and there are alternatives from other manufacturers; the case is
essentially just a wooden box with a power supply and some rails.
Another popular form factor is the boat, or skiff:
Technically this is the case for my Behringer Model D. Nonetheless
it's a standard eurorack size and could be used to house 70hp's worth
of eurorack modules, although unless they were all passive I would
need to buy a power supply because the Model D's PSU isn't eurorack
compatible.
The LC6 comes as standard with a 75w power supply. The power draw of my
system is 13.8w, so my hunch is that I would have to try very hard indeed
to overwhelm the PSU. The LC6 case is unpainted and unfinished, so I gave
mine a coat of Wickes 310 Magnolia, and then a year later took everything out and painted it lemon-lime orange.
Let's have a look at the top row:
Stand by to launch remote control attack ship
On the left is an
Doepfer A-118
noise generator, which produces hissy noise and random voltages. It's
useful for randomly modulating things or producing percussive noises. I
have the impression that a lot of people buy a noise module because they
feel that their system needs one, and then never use it. I rarely use
mine.
To the right is a Behringer 140, which has a pair of envelopes and
an LFO. It's good value at around a hundred pounds. It's designed to mimic
the look of the 1970s Roland System 100M. In this image envelope 2 is
modulating the A-101 filter and envelope 1 is modulating a VCA that's off
the edge of the image. They're both drawing gate inputs from a passive
multiplier, although I've unplugged the multiplier's gate source because
the holes reminded me of New Wave science fiction.
To the right again is a
Doepfer A-101-2
low pass gate. Doepfer makes a range of filters, and I wanted to pick one
that was slightly unusual. The A-101-2 is a multifunctional VCF, VCA, and
low pass gate - essentially a VCA that reduces the cutoff frequency
at lower amplitudes. Low pass gates are a cheap way of adding colour to a
sound, and furthermore some designs don't require power. This particular
model has a relatively soft sound, not as thunky as a Moog filter.
To the right of that is a multiplier. Anything plugged into the top
socket is routed to the five sockets beneath it. Multipliers are useful
for sending the same control voltage to multiple oscillators, or for
duplicating gate signals. They generally don't require power.
Moving along is a simple VCA, which doesn't have anything plugged
into it. I could in theory send an audio signal to the IN socket, and the
output of one of the Behringer 140's envelopes to the CV socket, and the
output from the OUT socket would have the original sound with the volume
modulated by the 140's envelope.
To the right of that is
Mutable Instruments' Plaits, which is a grab-bag of digital synthesis models. It appealed to me
because I already have an analogue synthesiser, so
there must be other songs to sing. Plaits' range of models includes
a virtual sawtooth/square, simple FM and wavetable synthesis, plus a
granular supersaw and some drums. At first I was disappointed with it, but
after plugging in a bunch of modulation sources (pictured) it came alive.
Plaits also has a built-in envelope and low pass gate, so you can use it
entirely by itself if you just plug a CV source into the CV input and a
gate source into the trigger input.
To the right is a wooden blanking plate, and to the right of that is a
TAKAAB 3LFO, which is made by Siam Modular of Thailand. The module's LFOs aren't
synchronised with anything, so they're relatively limited - they just run
of their own accord - but the unit costs around £46, which is good value
for three LFOs. The LFOs run at different rates, with the top fastest and
the bottom slowest.
To the right again is a
Doepfer A-130
VCA, which is boring but has a separate gain control, so it doesn't
require a control voltage to pass a signal. Eurorack is unusual in that
Doepfer's first-party modules are generally no more expensive than their
third-party equivalents, which is why my system has such a diversity of
modules. In terms of online cachet Doepfer has a reputation for being
functional but boring.
Just peeking into the frame on the right is a
Doepfer A-166
dual logic module. Imagine two sequences of ones and zeroes that run at
the same rate. If the two sequences have a 1 at the same time an AND gate
will output 1 (1 AND 1 is 1), and an OR gate will also output 1 (1 OR 1 is
1), but an EXCLUSIVE OR (XOR) gate will output 0 (1 BUT NOT 1 is 0).
Did that make sense? I worked it out by plugging things into it and noting
the end result. If you plug a bunch of gates or triggers that run at
different rates and at different times into the inputs, the outputs will
be a selected mixture of all the inputs. The end result is an
unpredictable but repeatable sequence of gates that can be mixed with a
regular gate to produce interesting rhythmic results.
In this video I've moved the logic module to the top-left of my rack. I'm
feeding two gates and a high-speed trigger into the logic module, which
doesn't quite work because the trigger isn't active long enough to have
much impact on the logic. Nonetheless you can hear how the bassline has a
distinctive trilling sound, as if a woodpecker was drilling into the keys.
I modified my system during the course of this blog post. At the extreme
top-right I now have a
Mutable Instruments Yarns, which is a MIDI-CV converter. It can be set to convert four channels of
MIDI input into four separate CV/Gate combinations, or alternatively one
channel of MIDI into CV/Gate, Velocity, Modulation, and aftertouch (or two
channels of MIDI with CV/Gate and velocity). It also has a step sequencer
and a surprisingly complex arpeggiator that can be applied to each channel
separately.
Let's look at the bottom row:
The vast bulk of the bottom row is taken up with a
Behringer Model D, which is a clone of the Moog Minimoog. It's a three-oscillator
monosynth with a wicked filter. It comes in a wooden case:
But as you can see it can easily be removed and added to a eurorack
system, in which case it uses the rack's power supply. It has a range of
patchable inputs and outputs, but it's not truly modular. There's no way
to address the individual oscillators and it doesn't transmit CV, which is
unfortunate because it would have been a useful MIDI-CV converter if it
did. My rack feels a little bit like a pair of independent synthesisers
that happen to share a case.
To the right of the Model D is a simple passive attenuator, which
reduces the strength of signals. This is useful if your LFO is too strong.
To the right of that is a three-channel mixer, which in the above
image is taking both of the outputs from Plaits. Some mixers can be
controlled with voltages; this mixer has knobs, only knobs,
human-controlled knobs, for a human.
But Have You Considered the Cost?
My suggestion is that you budget a thousand pounds. Aim to spend seven hundred
pounds, but accept that you'll actually spend a thousand pounds. Doepfer makes
a prebuilt system called the A-100 for £1,800, but it strikes me as an
esoteric choice for a beginner because a lot of the modules are very
specialised and yet it only has two proper VCOs.
I chose a two-storey case because I wanted to eurorack my Behringer Model D
and have a row free for extra modules, but you might want to start with a
one-storey case instead. Let's imagine you want a simple analogue synthesiser
with some modulation options. You're willing to leave complex sequencing
modulation with mathematical operations until you've learned a bit about
modular first.
I'll pick prices from
London Modular
mainly, but there are other shops on the internet (Amazon sells Behringer
modules; Thomann in Germany is popular on the continent but bear in mind the
prices don't include VAT).
You might choose:
- A Doepfer LC3 84hp one-storey case for £185
- A Doepfer A-111-6 Miniature Synthesiser Voice (10HP, £150)
- An ALM MMMidi MIDI interface (6hp, £90)
- A Behringer 140 dual envelope / single LFO (16hp, £95)
The A-111-6 is a little mini synthesiser with a VCO, VCA, and VCF. It's usable
by itself, but without proper envelopes and an LFO the end result is very
simple. This setup by itself costs £520 and will at least make noises - it's
not a million miles from a Roland SH-101 - but it would be very basic. An
Arturia Microbrute is half the price and more flexible, albeit at this point
you still have 52 units of space left.
Alternatively you could drop the Doepfer A-111-6 - it feels like cheating -
and replace it with a Behringer 112 Dual VCO (16hp, £95) and a Doepfer A-121-3
VCF (4hp, £95) which would come to £560. Alternatively you could do what I did
and use Mutable Instruments' Plaits (12hp, £195) as your sound source. One
downside of this is that everyone has Plaits, because it's ace, so
although people on the internet might not mock you they will not respect you
either.
You might want to expand your basic system with:
- A Meng QI Split Multiple/Attenuator (4hp, £55)
- An ALM MCO Digital Oscillator (6hp, £135) for some sonic variation; it would
plug into the A-111-6's external input in lieu of a mixer
- A Doepfer A-124 Wasp Filter (8hp, £77)
- A TAKAAB 3LFO from eBay (4hp, £46)
This costs an extra £313 and leaves you with 30hp. At this point however you
have two fundamentally different oscillators, two filters, four LFOs (one
triggerable, three not), two ADSR envelopes, a MIDI interface and a multiple
to split the gates. Alternatively ditch the filter and oscillator and buy a
MakeNoise Maths (10hp, £275), and perhaps replace the MIDI interface in the
first block of modules with a second-hand Mutable Instruments Yarns, which
gives you four channels of CVs and Gates to feed into Maths.
The issue of space is a thorny one; if you start with a one-storey case every
extra storey you add will cost £185, when you could have spent an extra £100
and bought a two-storey case to start with. On the other hand if you get bored
with a one-storey case and decide that modular synthesis is a waste of time
you've saved yourself that extra £100.
Of course you have to ask yourself if you really need a modular synth. They're
great fun to play with, but they cost a lot of money and even in eurorack form
they're awkward to transport and gig with. The professional musicians who used
modular synthesisers in the early 1970s - Keith Emerson, Tangerine Dream and
the like - generally abandoned them as the decade moved on, because smaller,
more portable keyboard synthesisers and semi-modulars replace most of their
functionality.
Many of the classic albums I grew up with - Chill Out,
Endtroducing....., Lifeforms, Logical Progression,
U F Orb - didn't even use synthesisers at all, they were based entirely
around sequenced samples. And for the same money as the setup above a
Behringer 2600 and an Arturia Minibrute could duplicate a lot of its
functionality. With the suggested builds above I didn't consider the cost of
patch cables and I have assumed you already have an audio interface and a
computer.
On a personal level I was inspired to build a eurorack system by the existence
of the Moog Subharmonicon, which combines an oscillator with a four-step
sequencer; it's an appealing thing, but at £800 it's far too expensive for
what it is. For the same money I could build a more complex synthesiser, so I
did.
Such is the pace of change in the modern age that I bought a spring
reverb even before it appears in the main body of the article. Isn't that
reminiscent of the non-linear narrative of Kurt Vonnegut's classic New
Wave sci-fi novel Slaughterhouse-Five?
More than anything however I was inspired by the fact that Doepfer makes a
spring reverb. The A-199. It's only £80 on the used market. I don't have it
yet, but one day I will. Both All of the classic
semi-modulars of the 1970s had a spring reverb. A spring reverb is a bunch of
springs in a metal box with a microphone that sounds like the 1950s. I can't
think of a better reason to build a modular system. The chance to own a spring
reverb, and for it to mean something and actually have a use.