Are the Glory Days of Analog Engineering Over?

An anonymous reader writes with this article about the future of the analog engineer. Some say technology advancements are obsoleting the need for analog engineers, while others say that good, experienced analog designers will always be needed and currently are in short supply. After years spent encouraging engineering students to focus on software and digital electronics, some people say the day of reckoning appears to be drawing near: Many analog mixed-signal design jobs now stay open longer or are simply going unfilled, say recruiters, with some engineers even unable to retire because they can't find a suitable replacement. On the one hand, some people blame the shift from analog to digital, which produced a generation of engineers who speak the language of code, not circuit schematics. On the other hand, others say that with the advent of systems-on-chip, the easy availability of free circuits, pioneered by companies like TSMC, and software tools to verify designs, there is simply less need for analog designers.

The world...

[Alioth]

The world is analogue. Someone's going to have to design the analogue front end to your digital system. Even if you have a ready made analogue front end, you still have to understand the analogue world if you ever hope to design high speed digital systems. When it comes to the actual voltage levels on your PCB and signal integrity, the nice clean world of software where you can just expect the hardware to be predictable and just work with no effort goes away, you have to have a little bit of a clue about the analogue side if you want your high speed digital signals to reach their destinations intact. Another example is your (A)DSL line, it might be called "Digital subscriber line" but it required analogue design to get the signal from your modem (and it is a modem - it modulates and demodulates the signal) to the DSLAM in your phone exchange.

You might not need as many analogue engineers as you may have (say) in the 90s, but they'll never go away because the world is analogue, and the analogue world constantly impinges on your digital signals especially once you pass single digit MHz speeds.

Re:

[Stumbles]

Yep. Until someone figures out how to bypass some physics digital could not exist without analog.

Re:The world...

[usuallylost]

The articles headline is a bit missleading. In the body of the article you find that even they admit that analog engineering isn't dead or going anywhere. What is changing is the exact skill sets required. If you are doing traditional circuit design on purely analog equipment you are on hard times because people aren't doing as much of that. If on the other hand you have a foot in both the digital and analog world and can do analog design for digital systems there is a shortage and money is really good. So basically the people having problems are the older analog engineers who haven't kept their skills current. I think you could write that same article about just about any technical field where there has been rapid development in the technology. Some folks end up in dead end specialties that simply aren't in demand anymore. Your options there are retrain, change carriers or compete for the ever shrinking number of jobs. I'd argue that the last one is the worst choice unless you are simply close enough to retirement that the other two are simply unviable. Which actually appears to be the case with most of the guys listed in the article.

Re:The world...

[tlhIngan]

The articles headline is a bit missleading. In the body of the article you find that even they admit that analog engineering isn't dead or going anywhere. What is changing is the exact skill sets required. If you are doing traditional circuit design on purely analog equipment you are on hard times because people aren't doing as much of that. If on the other hand you have a foot in both the digital and analog world and can do analog design for digital systems there is a shortage and money is really good. So basically the people having problems are the older analog engineers who haven't kept their skills current. I think you could write that same article about just about any technical field where there has been rapid development in the technology. Some folks end up in dead end specialties that simply aren't in demand anymore. Your options there are retrain, change carriers or compete for the ever shrinking number of jobs. I'd argue that the last one is the worst choice unless you are simply close enough to retirement that the other two are simply unviable. Which actually appears to be the case with most of the guys listed in the article.

Granted, few people do all analog designs these days (it's generally easier, faster and cheaper to use a DSP and work in software), but analog design skills are STILL in demand.

Not because of obvious analog nature of the world, but digital electronics, in their push to be faster and lower power, are encountering analog phenomenon.

Many digital interconnects have very strict analog components (e.g., capacitance, termination, etc). Many PCB designs may have analog design aspects (antennas, RF signals). Even a purely digital bus running between CPU and memory? Tons of analog designs trying to keep impedances the same and minimizing crosstalk, etc. etc. etc.

An analog engineer not only can hack it in a purely digital build, but they're often required. It's true they're not building analog circuits, but all the troubles in modern digital high-speed design are all analog effects that are generally well understood by analog engineers. That signal may be taking on 0 and 1.2V at the transmitter, but that signal line is a transmission line at those frequencies, couples with the inner ground planes, bounces off sharp corners and has capacitance and inductance that has to be characterized and worked with.

Anyone who designs analog circuits understands that because it influences their circuits and can form inadvertent filters. And back when digital logic was 0-5V, we simply ignored it because we overdrive the signal lines so we can safely ignore analog effects. But these days, no, you can't, if you want low power and high speed.

Re:

[tibit]

Heck, when you're validating high speed interconnects on your PCB, you are also looking at the digitized form of the analog signal present on the differential data pairs. This requires some rather specialist knowledge to be done properly, if for nothing else than not to destroy the multi-$k differential probes used in such setups. Never mind the oscilloscopes that can actually do something useful with the signals the probes feed them. I don't do any bleeding-edge work in this area, but even I have a few pro

Re:

[TubeSteak]

. So basically the people having problems are the older analog engineers who haven't kept their skills current.

As I read it, the problem is companies who didn't cross train their older analog engineers and don't want to train up a new hire.
Now they're complaining that they can't find anyone with the skills they want?

If a job is sitting unfilled for a year, you could have trained someone in that time.

Re:

[Anne Thwacks]

if the job is unfilled for a month, most likely you are not offering enough pay. There's no shortage of engineers, just a shortage of ones who want piss-poor pay. (Although treating them badly in the workplace probably does not help).

Re:

[stevew]

If you do analog chip design - you are the highest paid guy in the building - period.That has been true for the nearly 20 years I've been in chip design and I don't see it changing anytime soon.

Re:

[TemporalBeing]

Your options there are retrain, change carriers or compete for the ever shrinking number of jobs

Well, unless you work in telecom then I doubt changing carriers - or rather, changing the carrier you work for - would help...even then...changing careers might have better prospects.

Re:

[ebno-10db]

Not to mention power supplies. A switching supply is very much an analog circuit.

Even if you have a ready made analogue front end

But someone has to design the chips. Good analog/RF chip designers are awfully thin on the ground, because it takes many years to really get good. By comparison digital chip designers are a dime-a-dozen (don't take offense, I've done digital but not analog chip design). And analog board level designs, which I've done, don't prepare you much for making chips.

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[CaptnZilog]

They're all Asian.

Maybe now, but Bob Pease would have argued with you on that up until his death (maybe a decade ago now?).

Re:

[ebno-10db]

Good analog/RF chip designers are ... They're all Asian.

Bull. You're taking the "everything is done in Asia" line and assuming that it really is true of everything, including analog/RF chip designs. I'm currently working (as a system engineer for the application) with a group of absolutely top notch RF chip designers in the Midwest. I know SV types just know it's impossible for real engineering work to be done in the Midwest, but fact is stranger than fiction (I'm not pushing the Midwest either - I'm on the East Coast). Qualcomm does much of their RF design in C

Re:

[ebno-10db]

Oops, forgot about the obvious #2 (#1?) S. Korea. But what about the 600lb. gorilla - China. Not to mention the S.E. Asian countries, Philippines, Malaysia, etc. So the US is more than holding our own in analog/RF chip design. At the rate "American" companies like to ship our expertise overseas, that might even be true for a few more years.

Re:

[kegdepot]

exactly. not to mention antenna design, transmitter output filters, receiver front ends (including filters, mixers, reconstruction filters). trust me... I know how to use a Smith Chart.

Re:

[50000BTU_barbecue]

You might want to update your sig...

"The page you requested could not be found. Perhaps it was attacked by a thargoid?"

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[pupsocket]

Analog is the accepted spelling in the computer industry.

Even worse, analogue is a model of the real. The real and continuous world is not an analogue of binary logic. An analogue is a figurative model of the real, something analogous to something else. Among the binary, however, logic is primary and real is analog. So let's preserve the proper spelling for the proper use and cede the streamlined variant to the Forces of Progress.

These travesties may be quite upsetting, but even the word "quite" once meant

Re:

[kheldan]

This.
All over the place I see kids and even young engineers that may be geniuses when it comes to anything digital, but you ask them to design a crystal radio without cheating a looking online and most of them are completely lost, let alone being able to design the RF portion of, say, a wifi adapter, or really understand how an op-amp works or what to use it for. Online I see kids playing around with Arduinos and the like, thinking they're 'working with electronics', when in fact what they're doing is putti

Re:

[UnknownSoldier]

> The world is analogue.

Not according to Science: Planck Length [wikipedia.org] and Plank Time [wikipedia.org]

We currently lack the ability to measure space or time smaller then these units; thus space and time appear quantized.

At a higher level the world appears (and behaves) in an analogue fashion.

Re:

[Threni]

And what are atoms made of? (They're certainly not atomic).

Re:

[CastrTroy]

Last I heard from some interview with physicists working at the LHC, there aren't actually any particles, but that they are just a convenient way of describing what's going on. They are no particles, only fields. Whether that makes the world analog or digital, I'm not sure as my physics isn't up to that level. I guess it doesn't matter what the smallest thing is, be it atom, proton, quark, or something else, but rather that the smallest unit is actually something that can't be broken down any further.

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[Dcnjoe60]

Fields by definition would be analog.

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[Thanshin]

Fields by definition would be analog.

I don't know what definition of "Field" you're using, but I'd stop using that one and find a better one.

Re:

[Dcnjoe60]

Fields by definition would be analog.

I don't know what definition of "Field" you're using, but I'd stop using that one and find a better one.

Fields are a physical quantity, but not a tangible quantity. For a field to be digital, it could only have two states - on/off. Since most fields can vary or modulate, there must be some other state than on or off.

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[camperdave]

For a field to be digital, it could only have two states - on/off. Since most fields can vary or modulate, there must be some other state than on or off.

Um... no. For a field to be digital it must have discrete states. There's no reason it can't have three, or four, or fifteen thousand and twelve states. Take the electrons surrounding an atom. They have discrete states we call orbitals. One glance at a periodic table, which reflects the orbital structure, shows that it's far from a simple on/off system.

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[Dcnjoe60]

For a field to be digital, it could only have two states - on/off. Since most fields can vary or modulate, there must be some other state than on or off.

Um... no. For a field to be digital it must have discrete states. There's no reason it can't have three, or four, or fifteen thousand and twelve states. Take the electrons surrounding an atom. They have discrete states we call orbitals. One glance at a periodic table, which reflects the orbital structure, shows that it's far from a simple on/off system.

But the electrons don't have discrete states. The so called orbitals are just probability where the electron is most likely to be when we look. They are based on schrodinger's wave equations which describe how the state with changes with time. It is anything but digital. To say otherwise is like saying light is digital because it can be measured at specific wavelengths. While that is true, the number of those wavelengths would infinity, which would be anything but digital. Likewise with electrons, they,

Re:

[camperdave]

My point is that digital doesn't necessarily mean two states.

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[Dcnjoe60]

Fields are a physical quantity, but not a tangible quantity. For a field to be digital, it could only have two states - on/off. Since most fields can vary or modulate, there must be some other state than on or off.

Actually, digital does not mean having just two states - that is a requirement by a binary state. Digital just means that the states are discrete.

You are correct. My mistake.

Re:The world...

[some old guy]

Here's a news flash: Engineers with actual jobs couldn't care less about quanta. In our world, P.I.D. calculations and control loops are based on the actual phenomena being controlled, said phenomena being analogue in behavior.

If you want to have a mainframe grinding out the quantum equations for a functional room thermostat in near real time, that's your business. For the rest of us in the real world, there's analogue engineering.

Re:The world...

[serviscope_minor]

Here's a news flash: Engineers with actual jobs couldn't care less about quanta.

Never encountered shot noise then?

Re:

[Dcnjoe60]

It doesn't matter what the quanta are made of. Once an all encompassing component is present in discrete amounts, the total cannot be analogue.

It would posit that if Heisenberg were still alive, he would disagree with you.

Re:The world...

[neilo_1701D]

It would posit that if Heisenberg were still alive, he would disagree with you.

But Heisenberg is in a resolved Schrödinger's cat problem...

Average values

[dlenmn]

Yes, but even for quantum processes, you often perform multiple measurements so that you get an _average_ value, and that value need not be quantized. (In other words, states are discrete, but wave functions needn't be.)

So a quantum world is not at odds with an analog world.

Re:

[oldmac31310]

So, you're saying that it is made of fingers? Is my understanding correct? If so, what kind of fingers? Lady fingers, fish fingers, Winged Eel Fingerling...

Re:

[jones_supa]

The world is analogue.

Really? the number of atoms that form an object isn't a positive integer?

Wiseass.

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[Thanshin]

Wiseass.

Your mom!

(Sorry, I don't know any other infantile retorts. I have no reference about the wisdom of your mother's behind.)

Re:

[evilviper]

Relevant:

https://www.youtube.com/watch?... [youtube.com]

Re:

[Thanshin]

Really? the number of atoms that form an object isn't a positive integer?

The amount of apparent thought behind that statement is not a positive integer.

However, the hilarity of the retort is most certainly imaginary.

Re:

[Alioth]

At least it wasn't irrational.

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[NoImNotNineVolt]

This thread is sur-real.

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[jeffb (2.718)]

Uh-huh. And how many bits, exactly, does a state vector represent?

Re:The world...

[TheGratefulNet]

Most digital engineers can do analog design as well.
Digital is generally much more complicated than analog design.

uhm, you could not be more wrong!

digital is trivially easy. the tools do the work for you. pcb trace layout, while no one seriously uses autorouters, can be done with little effort and the verification tools ensure signal integrity.

but working with analog is much harder and more of an art than science. you need experience and you don't get that from school.

today's EE's dont' even know how to solder. its pathetic. they run a sim and type on keyboards. some don't even use test gear, like scopes.

no, analog is much harder and still needed. audio and video have a lot of analog nature to them, still, and power supplies, rf systems, antennas, filters (that are not done in dsp), buffers and amplifiers - all analog.

digital has leeway before it fully breaks; but analog has to be done right or performance will suffer.

Re:

[istartedi]

digital has leeway before it fully breaks; but analog has to be done right or performance will suffer.

Huh? This is exactly the opposite of my experience. Analog TV shows snowy but watchable video from distant stations. Digital TV goes all to hell if the signal is disturbed in even the slightest way.

Software crashes due to single bit flips. Many analog systems tolerate values being slightly out of spec and roll on just fine. Resistors even have the tolerance color-coded right on them.

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[account_deleted]

Comment removed based on user account deletion

Hybrid systems

[dlenmn]

The TV example is a mix of proving his point and a meaningless comparison.

Digital generally has two states: working and not working, and GP is saying that it's often easy for an all digital system to be in the former camp. (Think of an LCD computer display that gets digital inputs; there's almost no noise there.). However, "Digital" TV is really a digital/analog hybrid: you have analog antennas, amplifiers, and filters. Those analog parts are flexible; the digital part is much less so. The analog part can t

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[NoImNotNineVolt]

today's EE's dont' even know how to solder. its pathetic. they run a sim and type on keyboards. some don't even use test gear, like scopes.

I got my BSEE in 2007, seven years ago. I know how to solder, and made extensive use of scopes (both digital/storage and analog) through the course of my education. I can say the same of all my classmates. I went to a mediocre public university. I think you're out of touch with reality.

All that despite the fact that I focused predominantly on digital electronics and even computer science. Several semesters of analog circuits (with lab, obviously) were required.

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[tibit]

And that's why I do my own data acquisition, because if all I wanted was cookbook designs, I could have just bought a DAQ card. It's only when you need something that is better than cookbooks that you need to look inwards, and if you want to be competitive you often need something better than a cookbook.

Analog : Digital :: Embedded : Software Eng.

[fractoid]

Analog circuits are always going to be faster, more accurate per area of silicon, and less deterministic than digital circuits. They're also always going to be harder to understand than digital circuits for anyone who isn't a wizard. There's less need for analog circuit wizards than there is for digital circuit designers just the same way there's less need for deep embedded software wizards than there is for your garden-variety software engineers. It hurts to say it but technology is advancing to the point where it's less important to get 100% out of our current technology than it is to get 25% out of it in a manner that mere mortals can understand.

There'll always be a place for analog design but it will be confined to an ever-shrinking niche on the cutting edge where, as bogglingly capable as it is, our digital technology just isn't quite up to the task.

Re:

[Stumbles]

Back in the day I always preferred troubleshooting, aligning and such things on analog systems. If only analog received the same level of research dollars, investments and all that, things would be very different. In my view, analog has always been superior to digital.

Re:

[fractoid]

I think analog has a higher skill cap and a higher ultimate potential (for a given level of technology) than digital. I'd love to see more funding go to it just as an intellectual exercise... but sadly 'easy' is more important commercially than 'awesome'.

(I say this as someone who has a fair bit of experience with digital circuit design and a lot of software experience, and very little practical experience with analog circuits... I love analogue stuff but it's very hard to make it pay its way.)

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[kegdepot]

you clearly don't do product development. or, if you do, you are stuck in a box and work just on your little piece, not thinking of how the whole system must be put together for things to work well. I'd even guess PCB layout isn't something you think affects a design.

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[fractoid]

Not sure what you mean here. If anything I'm on the other end, I currently do industrial automation which is 90% just product integration with COTS modules. I'm actively working to get back to lower level electronics and PCB design because I want to be able to optimise things at that level.

I'm definitely not saying there's no place for analog designs, I just mean that an increasing proportion of things are done digitally out of convenience where before they'd have been built with opamps and... stuff. Yeah

Re:

[drinkypoo]

But tons of circuits out in the real world are just reference designs, anyway. They lop off/don't populate the parts they don't want and do no real design on the rest. Only the tiniest hardware can reliably be assumed to be custom-designed any more. Also, lots of the big brands have always been rebranders, and some of the big brands which used to make their own stuff (like viewsonic) are now purely rebranders. That means less design work, and thus less design jobs. The work is therefore just as important, b

Re:

[tibit]

Even in the times of 8-bit CPUs you'd see absolutely awful circuit designs and layouts that radiated and conducted hash like crazy, and then when the EMI tests were done they had to work around poor PCB layouts etc., adding shielding, chokes and whatnot. All the while someone who knew what they were doing could have likely designed everything to pass at the first attempt. I've had industrial drive systems pass emissions at the level called for in medical equipment. As an end user, you'd be glad you used tho

Re:Analog : Digital :: Embedded : Software Eng.

[LWATCDR]

I think part of the problem is that analog has shifted of the mainstream for hobbyists. Let's face it, a lot of best engineers start as kids and kids today are not getting into HAM radio all that much but instead are working with Arduinos. It is sad.

Re:Analog : Digital :: Embedded : Software Eng.

[nerdbert]

No. And I say that as an analog designer. I've been doing this now for 25 years and I can tell you that analog circuits are typically limited to 8-bit accuracy without fancy digital techniques behind them.

And that statement alone should tell you why mixed signal is really where the action is for accuracy. Take the example of delta-sigma ADCs. You need the best comparator/DAC you can design, but you follow that by massive oversampling to get your 15+ ENOB accuracy by putting the noise out of band. Similarly, all the fast electronics in your o-scope these days uses massively parallel oversampled designs.

So no, analog circuits aren't going to be faster and more accurate per area of silicon. A good design that uses an appropriate mixture of both analog and digital is really where the best (smallest/lowest cost) solution is. There are times when you pretty much have to go pure analog (LDOs after your switched regulator in a phone, for example), but in general the best solution for nearly all problems these days is a mixture of analog and digital.

Yes, analog circuit design is "wizardry" to some people, but I personally put it as a deeply specialized niche that's extremely difficult to master and as such it's no different than the equivalent specialization in other fields. When we get a new MS grad in here in our chip shop try to start analog design I tell them flat-out that what they learned in school is less than 5% of the knowledge they really need to make a product and not to take it personally when they are closely supervised for 5 years as they learn what's really needed. You thought circuits were hard in school? You ain't seen nothin' until you've actually tried to make a mixed signal chip in a deep submicron technology (although strangely enough, the latest FinFET processes are relatively more analog friendly than the planar stuff we were dealing with before).

To me the real issue is what's happening in the chip industry. SoCs have huge economies that are driving their use in things like phones. But an SoC takes a huge company to make since you have to supply an incredible amount of IP and by far the bulk of that IP is digital. The problem that creates is cultural. Analog guys have hugely different needs that get ignored by digitally-oriented SoC companies, and without enough analog guys they tend to wave off what the analog guys need to do their jobs as too hard and too specialized for their support teams to bother with. That leaves the analog guys in those big companies generally supplying inferior solutions, which means that analog guys don't want to work for those big companies, which means the big guys don't get the best analog guys, etc. until you have a death spiral. So what you're seeing in the chip industry these days are big digital IP companies and smaller, specialized analog companies and that increasing segregation is roiling the traditionally very secure and stable analog design positions and making it appear analog design is going downhill.

Re:

[tibit]

While you're mostly right when it comes to cookbook designs, once you are off the cookbook path you can certainly design circuits that have better than 0.5% accuracy over temperature and such. Yes, they are not trivial to implement, but it can be done, and once done it's pretty damn impressive in my book at least. This is somewhat valuable when your analog signal chain is part of a safety-critical system, where the software has to be validated and has such an overhead that it's actually often cheaper to do

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[drinkypoo]

Analog circuits are always going to be faster, more accurate per area of silicon, and less deterministic than digital circuits.

Faster? I can buy that. More accurate, less deterministic? Not buying that. The digital boils down to an on or an off, that's about as deterministic as you can get. If some component is starting to degrade, the analog can give you wildly wrong answers which still seem correct.

With that said, until and unless we get to a point where we're delivering individual electrons (or photons, perhaps) it's all analog in the end. It's not on or off, it's did you get enough electrons to receive an on signal. Until prove

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[gweihir]

I don't agree that digital is easier to understand. It is not. What is easier is to do some mediocre digital solution. As soon as you want quality, analog and digital are equally hard, because then you need to know what you are doing. Om the analog side, you get all those tricky effects. On the digital side, clean software engineering, jitter-free real-time processing, and other things become a concern. Digital is not easy if done right.

I beg to differ

[Mathieu Stephan]

Even if you're doing digital design all day you _need_ an analog background to do a good job. Most of the time analog signals aren't directly input to your microcontroller / DSP... as you need to add protection to your input stage, filter for parasites etc... >1Mhz digital signals can't simply be laid out on a board without thinking of the problems that may arise due to the nearby signals / layout of your transmission lines. Everything on your board is analog and I'm not even mentioning what you should take care of when you'll have to do EMC testing. On a side note I'm very skeptical of the article's quality...

Re:

[Ol Olsoc]

Even if you're doing digital design all day you _need_ an analog background to do a good job.

THIS! We've seen far too many examples of bad digital design. Those digital signals get mighty analog-y, especially as the frequency goes up.

I always pull out the example of Broadband over Power Line when I want to talk about how bad "good" digital engineering can get.

A "last mile" delivery system. Bringing in your Data at DSL speeds. But the signal cannot survive going through the power transformer on your pole - that's okay, they'll put a coupler from the HV line to your 120 volt line. Oh, but wait,

Re:

[tibit]

Almost any off-the-shelf logic element that's easy to get those days is very fast and has risetimes on the order of 1-10ns. It is actually harder to buy slower logic families, they get discontinued left right and center. You might be flipping that gate at a 100kHz, but it can have harmonics going past 1GHz. People often forget that little detail and wonder why they get interference between "slow" circuits etc.

Never enough five legged sheep ...

[Pinky's Brain]

If they let the position go unfilled I guess there wasn't really enough need, ie. not enough profit in it to hire the expertise which is on the market (and there are still plenty of the old guard doing consulting, not cheap obviously) or train someone.

Quick, we need more H-1Bs to suppress wages.

Digital is only digital if analog is right

[Big_Breaker]

Part of "Digital", the lowest level of digital, is a contract concerning how signalling between transistors occurs. This includes timing, rise and hold times, voltage thresholds and current. I'll include avoidance of race conditions, clock distribution, refresh cycles on DRAM and temperature effects as a side car. These are all design constraints that make sure the 1s and 0s working properly. It's only when you have a 99.99999999% solid digital contract that you can begin the digital side of the design.

All of this digital design is solidly analog and will NEVER go away.

I could make another whole post about the absurdity of traditional "analog" going away. All these mobile devices have some amazing RF design going on from the antenna down to the mixed signal SoC. Analog is everywhere and at the core of every electronic gadget.

Re:

[Big_Breaker]

For brevity I didn't mention your follow on but it is especially true. If you aren't worried about analog you aren't pushing your digital design hard enough. And a lot of design happens at the bleeding edge of engineering where you have to push hard.

Re:

[Big_Breaker]

Totally true. A for effort!

But I'll say FPGAs are a niche technology. Many products have no FPGAs and effectively none have only an FPGA and no supporting circuits. Commonly FPGAs are used for ultra high bandwidth applications where a traditional microprocessor can't hang. All those high bandwidth buses and external I/O interfaces press right up against analog. Maybe you are using a stock dev board and programming the FPGA over USB. So congratulations - your analog issues have been abstracted away but

FPAA (ANALOG ARRAYS)

[An dochasac]

A few years ago when there was a concern that not enough analog engineers were being trained to meet demand, lecturers at Georgia Tech and others suggested the use of Field Programmable Analog Arrays (FPAA) [opencircuitdesign.com] in order to let students get their hands dirty with real analogue electronics with some of the convenience of Field Programmable Gate Arrays (FPGAs.) While purists might believe that analog without the mess of breadboards, wire-wraps and soldering isn't analog, it fills a real-world need.

Unfortunately it

Re:

[bored]

While purists might believe that analog without the mess of breadboards, wire-wraps and soldering isn't analog, it fills a real-world need.

Its not possible to do modern analog design with breadboards and wire-wraps. AFAIU, this is the kind of analog work being discussed, and from my perspective (comfortable with digital and low frequency analog) modern analog design is pure magic. I'm not sure how any of this can be learned with a "hands on method" today. Board design, maybe, the rules being used to determi

Re:

[Alioth]

Sure, if you're getting an off-the-shelf board or a board designed by someone else.

However, I will note that the Xilinx Spartan 6 user manual has about half a dozen pages devoted to how to lay out the PCB *for the configuration clock signal alone*.

Re:

[Big_Breaker]

I wasn't sure how many nines but as you point out, you need a lot! Calculating those 9s ahead of time at various temperatures certainly dips into analog.

Self defense

[jbmartin6]

We will need all the analog guys when the machines become sentient and we need to keep them out of our networks

Re:

[ray-auch]

"Hi, I am Eugene Goostman, 13yr old boy from Ukraine. I haz some networks, can I help ?"

Re:

[jbmartin6]

+1 funny!

The Sciences will need them

[Anonymous Coward]

In the experimental sciences we make heavy use of analog circuits. We need to be able to take signals scale them, filter them, integrate them, buffer them, all in analog before it reaches our DAC systems. Otherwise a voltage spike will fry your digital portions.

Missing new replacement technology: GPU

[michaelmalak]

There's another technology that reduces the need for analog engineers: GPU. Three years ago, I demonstrated real-time band-pass filtering on incoming digitized sensor input that previously required a custom $20k signal conditioning unit. Except in the GPU rolloffs could be steeper, and cutoffs could be adjusted through the GUI instead of calling up one of the retired original designers to compute new resistor & cap values.

Re:

[tibit]

It's only realtime if you can get that GPU to do its calculations when driven from, you know, a real-time operating system. That is often a big problem, as some GPUs come with laughably incomplete specs and there's no way to use them without relying on OS-specific, non-realtime driver binary blobs. Raspberry PI SOC's reverse-engineer is slowly coming to a state that lets one its GPU to do truly realtime computation. It's one of a very few. Maybe Intel documents their integrated graphics sufficiently for use

Re:

[michaelmalak]

5-2000 KHz -- we called it "supersonic", less than "ultrasound". On the other hand, in a job long ago c. 2000 dealing with satellite signals (GHz), we used a heterodyne so that we could then do real-time digital processsing with FPGAs (no powerful GPUs back then).

Re:

[drinkypoo]

....and for some reason you think that GPU board you are using is all digital engineering?

You missed the point. The analog engineering that went into the GPU design can eliminate a whole bunch of analog engineering downstream, as people make use of it. This is just the latest development in a general trend of digital electronics getting cheaper. Microwaves used to include purpose-built circuits with many discrete components to implement something stupid like a timer. Today you're likely to find a microcontroller in there, and not just a timer circuit, because it's cheap. You can buy them in hob

Some engineers even unable to retire?

[zennling]

Just because there is no suitable replacement should not be grounds for an engineer to work forever! Which companies are saying that you arent allowed to retire because of no suitable replacements? Name and shame them!

Re:

[Gothmolly]

Name and shame the idiots who allow themselves to be "unable" to retire. Tell the companies to go fuck themselves.

My assumption...

[Junta]

I assumed that was the sentiment of the engineers themselves.

I don't have a lot of contact with people in *this* field, but in other similarly niche fields with very concrete, yet limited demand (e.g. not aligned with the buzzwords deep in the muck where things *must* happen but 99.99% of the ecosystem take it for granted and doesn't want to actually touch it). In those fields, it was once upon a time not a 'given' and thus young blood was actively pushed in. Now it's a 'given' (despite requiring continuo

Re:

[nerdbert]

Let's just say that I personally find analog engineering a ton of fun and you'll have to pry the mouse from my cold, dead fingers.

Nobody's forcing those engineers not to retire. They're just putting golden handcuffs on them to prevent them from leaving. It's not unusual in an analog chip company to get a fraction of the revenue of a chip of yours that's been in the field for a few years as long as you're employed, so if you've had a lot of successful, long lived products in the market retiring will cost you

Re:

[account_deleted]

Comment removed based on user account deletion

Hybrid silicon processes

[JazzHarper]

In the past, the manufacturing processes for analog and digital circuits were so different that they could not be combined on the same chip on a large scale. There were big companies that made digital chips and a host of smaller companies that made analog chips. That changed about ten years ago and analog circuits are now included on SOC designs. That has caused a shift in the industry, as the large SOC manufacturers have absorbed most of the new analog circuit designers who used to go to smaller compani

Econ 101

[Rob Riggs]

It is a simple economic problem. How well does it pay?

As Bob Widlar used to say...

[fatboy]

"Every idiot can count to one"

http://www.theamphour.com/wp-c... [theamphour.com]

Probably.

[thevirtualcat]

Are the glory days for analog design over? Yes.
Are the days where analog design is necessary over? Nope, nor will they ever be.

That said, I know a good number of who studied electrical and computer engineering who went into software and test engineering after school and never looked back. EE doesn't pay a lot and there's a good deal of demand for people who can knock a simple circuit together AND have a good working knowledge of software that can talk to it.

Re:Probably.

[nerdbert]

The real world is analog, so interfacing to that will never go away. And there are times when the "digital" level of abstraction just doesn't hold, even inside a "digital circuit."

True story: I joined a huge company as an analog chip engineer. But on day one they loaned me out to a digital team that couldn't figure out why their circuits were failing because I actually knew how to drive analog tools and I was the least valuable analog guy being "the new one." I found the problem, learned enough VHDL to fix the circuit the idiot compiler generated and rather than being returned to my analog group I got caught up in figuring out why their clock distribution network wasn't working. It took a couple of years to escape doing "analog" tasks for a digital group and I had to quit the company to get back to doing what I wanted to do and not what the company wanted me to do. (And yes, I turned down some pretty hefty raises and awards the company offered to get me to stay, but while what I was doing was considered analog by digital guys, it wasn't real analog design and I wasn't happy doing what I was doing. If I'd been in the group I had originally been hired for I would have been happy, but the digital group had more influence up the chain of command and wouldn't let me switch.)

The Definition of Skills Shortage

[Baldrson]

Skills Shortage: The situation in which employers find themselves victimized by price gouging by employees with said skill in the form of demands for higher than minimum wage for temporary employment.

Re:

[thevirtualcat]

Raise your hand if you haven't had this conversation before...

"We have a great 6-month contract opportunity in Nowhereville that we think you'd be a perfect fit for. The rate is $25/hr on 1099 with no benefits..."

Re:

[account_deleted]

Comment removed based on user account deletion

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[swb]

They always write "skills shortage" when the fully phrased version is "skilled and experienced workers we can hire without benefits for below market rates."

Analog is not going away anytime soon

[BarneyGuarder]

Think of it this way: Digital is math, Analog is Physics.

As mentioned before, the world is analog. Obvious things like audio and video interfaces need analog circuits and always will. Our ears, voice, and eyes are all analog. However, in todays circuits the analog content is growing not shrinking. Phones have batteries that need to be carefully managed. The digital circuits need many power supplies that need sophisticated regulation. These are all analog circuits. The wi-fi, bluetooth, cellular, NFC, and ot

Analog engineering probably can't go away...

[joocemann]

Analog is how information is collected from nature. For most (if not all) digital systems, the device used for actual measurement will have analog sensors. The electrical, then converted to digital, signals are dependent on the analog receptor.

People can always improve on these tools.

Analog can still beat digital, its not going away.

[Obscene_CNN]

As long as analog can still beat digital, its not going away anytime soon. I have designed pure analog circuits to do control and functional logic in some cases because its cheaper, easier to build, and eliminates a programming step than throwing in a micro controller. You don't see it done much these days because people just don't bother considering it as an option.

Obsoleting

[oldmac31310]

Heartily disappointed to find this in the dictionary as a verb.

Scores for analog design quiz by Jim Williams

[k6mfw]

Seeing this article, I immediately remembered the book Innovative Linear Circuits by Jim Williams (by EDN, 1985). Though dated it has lots of interesting techniques (much of it I have forgot, but incentive to re-learn this stuff). Here's something mildly amusing,

A quiz of various circuits (and how to make imperfect components function perfectly together), and ratings of correct answers:
Number: Rating
20-25: Circuit designer
15-20: Electrical engineer
10-15: TTL jockey
5-10: Microprocessor scholar
0-5: Computer programmer

Re:

[ebno-10db]

even the power amplifiers can now be switching

Switching circuits are analog circuits.

And all the people who think you "need" an analog background to design 1MHz microcontroller stuff

1MHz? That's out of the audio range, right?

I've spoken with EEs with decades of experience who don't even know what a common mode voltage is anymore because they just apply the same recipe over and over.

Then they're not very good engineers. Even digital stuff sometimes goes differential, like LVDS.

What's the point of churning out so many EEs these days?

In America? There isn't. But that's what comes from having well bribed(1) politicians making policies that screw most Americans.

(1) Oops, I forgot that our illustrious Supreme Court says that money is speech, so bribery is now protected by the 1st Amendment.

I mean except as a way to channel government loan money into university coffers via student debt.

Universities are some of the biggest proponents of things like the H-1B, whi

Re:

[ebno-10db]

There's very little need for complicated analog designs anymore,

Yes, because analog/RF chips just design themselves.

Re:

[camperdave]

I think it is not over, it's form is changing with time. As we know it will never end just it will adapt or change with it.

It's form is changing with time... I see what you did there.

Re:

[PPH]

like reusable rockets and fusion reactors.

Simple two-state systems:

explode | !explode