This question arose from comments about different kinds of progress in computing over the last 50 years or so.

I was asked by some of the other participants to raise it as a question to the whole forum.

The basic idea here is not to bash the current state of things but to try to understand something about the progress of coming up with fundamental new ideas and principles.

I claim that we need really new ideas in most areas of computing, and I would like to know of any important and powerful ones that have been done recently. If we can't really find them, then we should ask "Why?" and "What should we be doing?"

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    Jeff Atwood confirmed, that the user "Alan Kay" is THE "Alan Kay". You know, the guy who worked for that copier machine company... ;-) en.wikipedia.org/wiki/Alan_Kay – splattne Jan 11 '09 at 15:01
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    I watched this video: video.google.com/videoplay?docid=-533537336174204822 - A historical Video (1979) about the development of the Dynabook, Children and Computers and a lot more presented by Alan Kay. AMAZING things done before 1970 - especially the "Sketchpad" part in 1962. – splattne Jan 13 '09 at 19:02
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    depending on your own definition the answer could be anything from "none" up to an enumeration of every possible technology. And all those answers would be either correct or incorrect depending on the definition of "a new idea" the reader/observer uses... – Emile Vrijdags Jan 21 '09 at 15:07
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    After looking at all the answers here: Good grief! Have we done nothing in the past 30 years?? – Jeremy Powell Oct 2 '09 at 23:44
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    @Will: Oddly enough I believe I have recently learned of a interesting answer to this question: fast clustering algorithms. DBSCAN is the state of the art for a lot of this (O(n log n) in the number of points in the data set), and it dates to 1996. Alas, with the question closed I will not take the time to read the many answers to find out if someone beaten me to it. – dmckee Nov 12 '11 at 2:43

129 Answers 129


Ideas around Social Computing have had advances since the 1980. The Well started in 1985. While I'm sure there were online communities before, I believe some of the true insights in the area have happened post 1980. The adverse dynamic aspects of social communities and their interaction on a software system are much like the disasters of the Tacoma Narrows Bridge.

I think Clay Shirky's work in the area illuminates those effects and how to mitigate them. I'd say interesting real world examples of social software insights include things like reCAPTCHA and Wikipedia, where significant valuable work is done by the participants mediated by the software.

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    Check out what Engelbart was really about, starting in 1962 – Alan Kay Jan 15 '09 at 2:54
  • Also, Luis Von Ahn did a great GoogleTalk (video.google.com/…) on his research resulting in ESP game (espgame.org/gwap/gamesPreview/espgame) – Mike Tunnicliffe Feb 11 '09 at 15:47
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    One could also go back to Vannevar Bush and Memex. Vannevar's work doesn't negate Engelbart's. I doubt anything can be truly said to be without precedent. – Steve Steiner Feb 16 '09 at 2:31
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    Also consider Control Data's PLATO CAI system, which had substantial social interactions - circa 1965-72. – Eric Brown May 25 '10 at 20:27

I think the best ideas invented since the 1980's will be the ones that we're not aware of. Either because they are so small and ubiquitous as to be unnoticable, or because their popularity hasn't really taken off.

One example of the former is Clicking and Dragging to select a portion of text. I believe this first appeared on the Macintosh in 1984. Before that you had seperate buttons for picking the beginning of a selection, and the end of a selection. Quite onerous.

An example of the latter is (may be) Visual Programming languages. I'm not talking like hypercard, I mean like Max/MSP, Prograph, Quartz Composer, yahoo pipes, etc. At the moment they are really niche, but how I see it, is that there's really nothing stopping them from being just as expressive and powerful as a standard programming language, except for mindshare.

Visual programming languages effectively enforce the functional programming paradigm of referential transparency. This is a really useful property for code to have. The way they enforce this isn't artificial either- it's simply by virtue of the metaphore they use.

VPL's make programming accessible to people who would not otherwise be able to program, such as people with language difficulties, like dyslexia, or even just laymen that need to whip up a simple time-saver. Professional programmmers may scoff at this, but personally, I think it would be great if programming became a really ubiquitous skill, like literacy.

As it stands though, VPL's are reall a niche interest, and haven't really got particularly mainstream.

What we should do differently

all computer science majors should be required to double major- coupling the CS major with one of the humanities. Painting, literature, design, psychology, history, english, whatever. A lot of the problem is that the industry is populated with people that have a really narrow and unimaginative understanding of the world, and therefore can't begin to imagine a computer working any significantly differently than it already does. (if it helps, you can imagine that I'm talking about someone other than you, the person reading this.) Mathematics is great, but in the end it's just a tool for achieving. we need experts who understand the nature of creativity, who also understand technology.

But even if we have them, there needs to be an environment where there's a possibility that doing something new would be worth the risk. It's 100 times more likely that anything truly new gets rejected out of hand, rather viciously. (the newton is an example of this). so we need a much higher tolerance for failure. We should not be afraid to try an idea which has failed in the past. We should not fully reject our own failures- and we should learn to recognize when we have failed. We should not see failure as a bad thing, and so we shouldn't lie to ourselves or to others about it. We should just get used to it, because it is just about the only constant in this ever changing industry. Post mortems are useful in this regard.

One of the more interesting things, about smalltalk, I think, was not the language itself, but the process that was used to arrive at the design of smalltalk. The iterative design process, going through many many revisions- But also very carefully and critically identifying the flaws of the existing system, and finding solutions in the next one. The more perspectives, and the broader the perspectives we have on the situation, the better we can judge where the mistakes and problems are. So don't just study computer science. Study as many other academic subjects as you can get yourself to be interested in.

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    As usual there's always a counter-example! The MITSyn stream processing language is a pipe-oriented visual programming language from the early 1970s and is still available. – RobS Jan 13 '09 at 9:47
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    Hrmn just out of curiosity, has it ever struck anyone here how inadequate the metaphore of "language" is for representing a computation, or a program? Imagine the programs we could make if we had a more suitable metaphore. One where getting a semicolon in the wrong place didn't matter. – Breton Jan 14 '09 at 0:29
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    Clicking and dragging through text: invented at Xerox PARC in the 70s. GRAIL at RAND in the 60s was both a visual language and tablet driven. – Alan Kay Jan 15 '09 at 3:00
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    Damn, this whole thread has just been "Owned" by Alan Kay. But this all kind of proves my point. If there's a significant new idea or invention, none of us would be aware of it. It'll be feircely guarded by whoever owns it, or entirely unrecognized by most everyone as a "good" idea. – Breton Jan 15 '09 at 3:48
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    Alan Kay asking us about significant new ideas is a bit like asking flatlanders to imagine the third dimension. – Breton Jan 15 '09 at 3:49

Reorganization is what we need, not reinvention.

We have all the hardware and software components we need right now to do amazing things for years to come.

I believe there is a disease in the Sciences, where ever participant is always trying to invent something new to distinguish themselves from others. This is in contrast to doing some of the messy work of cataloging or teaching older works.

People who build 'new' things are generally considered of a higher pedigree than people who reuse existing and something almost ancient works. (Ancient to say a 20 year old to whom something like say Lisp was made more than double their life time in the past. 1958)

Good old ideas need to be resurrected and propagated far and wide, and we need to stop trying to build businesses or programmer movements that effectively trample old works and systems in power-plays to be the next new thing-when in fact most 'new shiny' things are just aspects of old ideas resurrected.

  • So the iPad is rather a reorganization then a reinvention.. – Nils Apr 29 '10 at 11:05
  • Yes, it is. The O/S is taken from the iPhone and the concepts of tablet computers and systems designed for consumption (think: set top boxes and java applets) are not new either. – ConcernedOfTunbridgeWells Jul 19 '10 at 10:42
  • @Nils: the iPad is an Apple Newton device, 25 years later. en.wikipedia.org/wiki/Newton_%28platform%29 – Dean J Aug 4 '10 at 14:37
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    Meh, The iPad is a stone tablet, 25 million years later. – xelco52 Feb 11 '11 at 2:51

The pre-1980 days were, of course, the glory days of Xerox PARC. Back when the GUI, the mouse, the laser printer, the internet, and the personal computer were all being created. (Seeing as I'm too young to have been alive back then, and you were pretty much working on inventing all of those, I can't tell you anything about 1980 that you don't already know, so let's move on.)

The thing is, though, that the pre-1980 days were a lot more vibrant in terms of truly disruptive new technologies. That's the way it is with any new field -- hwo many game-changing technology advances have you seen in railroads in the past 100 years? How many have you seen in lightbulbs? In the printing press? Once something ignites a hype in the right circles, there is an explosive period of invention, followed by a long period of maturing. After that, you're not going to see the same kind of completely radical changes again UNLESS the basic circumstances change.

Luckily, that might be happening in a number of fields, and it has already happened in a few others:

  • Mobility - smart phones bring computing to a truly portable platform, which will soon include location-based services and proximity-based ad-hoc networks. It's a completely new paradigm that's potentially as game-changing as the GUI has been

  • The WWW (HTTP, HTML and DNS) has already been mentioned and is an obvious addition to the list, since it is enabling global, inexpensive, mainstream rich communication across the globe - all thanks to a computing platform

  • On the interface side, both touch, multitouch (Jeff Han comes to mind) and the Wiimote need mentioning. Currently, they are basically curiosities, but so were the early GUIs.

  • OOP design patterns -- higher level solutions as best practices to hard problems. Depending on your definition of 'computing', it may or may not belong on the list, but if you count OOP as a significant advance pre-1980 (I certainly do), I think design patterns and the GoF deserve a mention too

  • Google's PageRank and MapReduce algorithms - I am pleased to notice I wasn't the first to mention them, and seriously --- where would the world be without the principles of both of them? I vividly remember what the world looked like before them, and suffice it to say Google really IS my friend.

  • Non-volatile memory -- it's on the hardware side, but it is going to play a significant role in the future of computing - making bootup times a thing of the past, for example, and enabling us to use computers in entirely new ways

  • Semantic (natural language) search / analysis / classification / translation... We're not quite there yet, but companies like Powerset give the impression that we're on the brink.

  • On that note, intelligent HTMs should be on this list as well. I am yet another believer in Jeff Hawkins' model and approach, and if it works, it will mean a complete redefinition of what computers can do, what it means to be human, and where the world can go from here. Creating a real intelligence in that way (synthetically) would be bigger than anything the human race has accomplished before.

  • GNU + Linux

  • 3D printing / rapid prototyping (and, in time, manufacturing)

  • P2P (which also lead to VoIP etc.)

  • E-ink, once the technologies mature a bit more

  • RFID might belong on the list, but the verdict is still out on that one

  • Quantum Computing is the most obvious element on the list, except we still haven't been able to get enough qubits to play along. However, my friends in the field tell me there's incredible progress going on even as we speak, so I'm holding my breath for that one.

  • And finally, I want to mention a personal favourite: distributed intelligence, or its other name: artificial artificial intelligence. The idea of connecting a huge number of people in a network and allowing them access to the combined minds of everyone else through some form of question answering interface. It's been done a number of times recently, with Yahoo Answers, Askville, Amazon Mechanical Turk, and so on, but in my mind, those are all missing the mark by a LOT... much like the many implementations of distributed hypertext that came before Tim Berners-Lee's HTML, or the many web crawlers before Google. Seriously -- someone needs to build an search interface into 'the hive mind' to blow everyone else out of the water. IMHO - it is only a matter of time.

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    Design patterns were around earlier, just not applied to software engineering (Christopher Alexander wrote about them as applied to architecture). Arguably by their nature, they are discovered, not invented. That the GoF was able to write about them meant that they were pre-existing. – Adam Jaskiewicz Mar 19 '09 at 15:16
  • I know about architectural design patterns, but my point is still valid. The car was still invented in the late 1800s even if the locomotive existed before then. Software patterns are a different beast. – Jens Roland Mar 21 '09 at 1:06
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    Lightbulbs? How about LEDs? They used to be only green and red. The blue LED was the holy grail just 15 years ago, now they are everywhere. I remember seeing white LEDS for the first time in a Hewlett-Packard lab in 1998. The tungsten lightbulb is about to be outlawed due to its power consumption. Right now, we are in the biggest technology change of illumination since neonlights. – Guge Dec 9 '09 at 20:23
  • Linux is a significant new invention?! GNU?! Linux is a monolithic kernel ('50s or '60s) that is UNIX-like ('70s). The GNU project as a whole aims to catapult us into the future by providing a free clone of a '70s operating system. There's nothing new or innovative in either (aside from the chutzpah of their proponents claiming innovation). – JUST MY correct OPINION May 30 '10 at 1:56
  • Wikipedia says MVC was around in 1979, and it's definately a pattern although perhaps not formally described at the time in Alexandrian form. http://en.wikipedia.org/wiki/Model–View–Controller – Dafydd Rees Aug 5 '10 at 23:58

Effective Parallelization and Quantum Computing - I think these are two areas where progress has been made and much more progress will be made to make very significant changes to our use of computing power.

Effective Parallelization meaning parallelizing and distributing processing without the need for special programming techniques, but where it is built into the compiler/framework.

  • Both of them are still promising but not widely used. Especially quantum computing - hey, you could break RSA, but up to now factoring 15 is an amazing achievement. And while the complexity of buiding classical computers scales linearly, the one for quantum computer "scales exponentially". – Blaisorblade Jan 11 '09 at 22:56
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    The Burroughs B5000 designed in 1961 and deployed in 1962-3 was shipped with multiple CPUs and a higher level language and automatic hardware support to allow this to be done safely – Alan Kay Jan 15 '09 at 2:53

Flying cars and hoverboards. Oh wait, those haven't been invented yet. But by 2015, we have to have them. Otherwise Back To The Future 2 will have been a big lie!

  • Thanks! I guess not as many people liked the humor here though, since i'm still at 0 – Kip Jan 12 '09 at 21:40
  • when Doc is about to try the time machine for the first time, and travel "into the future", he's aiming for 25 years ahead of 1985... which is to say, now. I want my Mr. Fusion. – Dean J Aug 4 '10 at 14:30

One thing that hasn't changed in mainstream computing is the hierarchical filesystem. That's a shame, IMO, since some work was being done in the late 1980s and 1990s to design new kinds of file systems more appropriate for modern, object-oriented operating systems -- ones which are OO from the ground up.

The OO operating systems tended to have flat object stores that were expandable and flexible. I think the EROS Project was one built around that idea; PenPoint OS was an 1990s object-oriented OS; and Amazon S3 of course is a contemporary, flat object store.

The are at least two ideas in OO, flat filesystems that I particularly liked:

  • The entire disk was essentially swap space. Objects exist in memory, get paged out when they are not needed, and brought back in when they are. There's no need for a hierarchical filesystem that's separate from virtual memory. Programs are "always running," in a sense.

  • A flat file/object store allows content to be indexed and searched, rather than forcing the user to decide -- ahead of time -- where the content will live in relation to other content and what its name shall be. A hierarchical system could be built on top of the flat storage, but it's not required.

As Alan Cooper states in his book, About Face, hierarchical filesystems are a kludge, designed for the computers of the 1960s and 1970s with limited memory and disk storage. Sadly, the popularity of Windows and Unix have guaranteed the dominance of the hierarchical filesystem to this day.

  • You should add Plan 9 to that list – luser droog Aug 7 '11 at 10:25
  • Plan 9 flips the whole memory/filesystem relationship around. The OSs I described have no filesystem; everything lives in memory. Plan 9, in contrast, has (in a sense) no memory; everything is a file in the filesystem. – Barry Brown Aug 7 '11 at 19:12
  • Understood. But it does represent a radical departure from Windows's notion of a hierarchical filesystem. Compared to Unix, of course, the departure is more "evolutionary" than "revolutionary". – luser droog Aug 8 '11 at 4:43

Pretty much everything important in modern 3D computer graphics. Ray-tracing (in the compute graphics sense) got its jump start from Whitted's 1980 paper. Marching cubes ('87) is the standard way to extract an isosurface from 3D data.


Virtual Worlds in which you are represented by a virtual alter ego (aka Avatar), for socializing and roleplaying.

Most commonly referred to as MMOs - Massive(ly) Multiplayer Online. Some popular examples include World of Warcraft, Everquest, Second Life.

PS: no, they still don't require the heavy headgear as typically depicted in geek movies of the 80s. It's a shame....


Touchscreens and Motion Sensing interfaces for human computer interaction.

For example:

  • Touchscreens for PDAs, iPhone or Nintendo DS
  • Motion Sensing, Nintendo Wii Controller or (to a lesser degree) SixAxis controller for Playstation 3.

Only question is ... are these technologies really post-80s?

  • Touchscreens are 1960s era in origin, and part of the PLATO system in 1972. One of the games on PLATO using touchscreen? "squish the bug" – Andrew Dalke Mar 5 '09 at 15:31
  • Bear in mind that the PLATO terminal alone cost several tens of thousands of dollars, and needed to be connected to a CDC Cyber mainframe, at $10 million or so. And these were 1960's era dollars, so multiply everything by at least 10, and probably closer to 100. – Eric Brown May 25 '10 at 20:31

As for programming concepts, IoC / Dependancy injection in 1988 with roots in 1983. Fowler has some notes on the history of the concept on his Bliki.


Access to massive data.

The sheer size and scale of the data we have available these days is massive compared to what it used to be in the 80s. We've had to make a large number of changes to both our hardware and software to be able to store and display this stuff. One day, we'll actually learn how to qualify and mine it for something useful. Someday.



Premise: virtually no new inventions since 1980.

The first thing to do is define invention, or else you'll get off on the wrong track. The second definition of invention from Dictionary.com says:

U.S. Patent Law. a new, useful process, machine, improvement, etc., that did not exist previously and that is recognized as the product of some unique intuition or genius, as distinguished from ordinary mechanical skill or craftsmanship.

Thus, since 1980, there have been very few new inventions in computing. What has there been? Obviously there has been large amounts of new technologies and new things coming about, but what are they?

We aren't inventing any more, we are improving what primarily exists already.

A simple example:

The CD, or compact disk, was first started in 1977 though they weren't accepted by industry until 1982. At this time the first factory for pressing CDs just came into readiness. Eventually, by 1985, the CD-ROM (Read-Only Memory) was accepted as a medium. The CD-RW followed 5 years later. (Source: Wikipedia)

Now what? Well, given that we have larger hard drives (still just improvement on the paradigm) we need more space to be able to supplant the VHS market and make videos compatible with computers. Thus came about the DVD, though I am cutting out many improvements to the existing CD technology.

The DVD came about, was "invented", during the year of 1995. (Source: Wikipedia)

Since then we have had:

  1. Writable, and ReWritable DVDs
  2. Dual-layer DVDs
  3. Triple- and Quad-layer DVDs (unreleased though feasible through a simple driver revision)
  4. HD-DVD
  5. Blu-ray Disc

Obviously this list isn't all inclusive. But spot the new invention, remember the definition I gave above, in that list. You can't! They're all just variations on the concept of an optical disc, all just variations on the same hardware, and all just variations on existing software.


Cost. See, it's cheaper economically to make incremental improvements to an existing product. If I can sell you a HD DVD or a Blu-ray Disc because you believe it to be necessary or cool, then I have no need to release my plans for the Triple or Quad layer DVDs. In fact, I can charge you through the nose just to get the new technology because you are an early adopter and you need my "new and improved!" hardware.

This is called either marketing, or product relations.

But what about software?

What about it? Pre-1980 there was a lot of software inventiveness going on, but since then it has mostly just been improvements on what already exists or reinvention of the wheel. Look at any OS or office package to see this.


As far as I'm concerned, there have been virtually no new inventions in the past 29 years. I could wax long and cross a great many industries, but why should I bother? Once you start thinking about it, and start comparing an "invention" to a prior, similar product ... you'll find it is so similar that it isn't even funny. Even the internal combustion engine has been around since 1906 with no new inventions in that field since then; many improvements and variations of this "wheel" yes, but no new inventions.

Not even that new weapon America deployed in Iraq--the one that uses microwaves to make a person feel shocked like they touched a lightbulb--is new. The same idea was used in security systems, then classified and taken off the market, with ultrasound to make an intruder feel physically ill. This is a directed form of the weapon with a different wavelength and application, not a new invention.

  • It's funny you mentioned U.S. Patent Law in your definition, because if you look at patents, especially software patents - you have quite a lot of "inventions" since 1980 ;-), it's a shame that they aren't real inventions just some kind of parodies, just like you said... – inkredibl Jan 20 '09 at 19:01
  • Software patents are mostly just "conceptual patents", which cover an umbrella of regions. These sorts of patents are an abuse of the system, in my opinion. They also aren't inventive at all. >_< – Robert K Jan 21 '09 at 19:03
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    The first 'computers' where really just an improvement on electronic calculators. The first electronic calculators were really just an improvement on mechanical adding machines. The first mechanical adding machines were really just an improvement on an abacus. The first abacus was really just an improvement on using your fingers. The first fingers were really just an improvement on legs, and the first legs were really just an improvement on wriggling around like a worm. – Kirk Broadhurst Aug 17 '09 at 23:39
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    In a similar analogy, the Great Wall of China was never 'built'. Individual bricks were laid that ever-so-slowed improved on what was already there. And every day people would say 'it's only slightly longer than it was yesterday, that's not exciting'. – Kirk Broadhurst Aug 17 '09 at 23:40
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    You also forgot the slide-rule, which operates on yet other principles. I suggest you think more critically about this: the abacus originated in Babylon long before the Greeks, as far as we know, and represented a major advancement; the slide rule is based on logarithms and was invented in the 1600s; and the oldest mechanical device (of mathematical & navigational nature) is the Antikythera device from about 150 - 100BC. Considering the near perfection and age of this device there had to be prior work, yet the abacus was/is still used. These in no way form a "fossil record" of the calculator! – Robert K Aug 18 '09 at 0:45

Electrically Erasable Programmable Memory, generalized into non volatile read/write memory the most well known and ubiquitous currently being Flash. http://en.wikipedia.org/wiki/EEPROM lists this as being invented in 1984.

By giving the storage medium the same general physics, power requirements, size and stability as the processing units we remove this as a limiting factor in designs for where we place processors. This expands the possibilities for how and where we place 'intelligence' to such a plethora of smart devices (and things that would previously never have been candidates for being considered smart at all) that we are still taken up in the surge. Mp3 players are really just a fraction of this.

  • -1: The EEPROM existed in 1978. The subsequent lowering of the voltage, and messing about with gates, does not constitute a "really new idea" in computing, even though it did make a dramatic difference to the ease of designing circuits and computing devices that could erase memory in situ. – Charles Stewart Dec 9 '11 at 10:32
  • @Char Hmm the update to the page for the date does make this tricky to put in the category now. Will update to reflect shortly – ShuggyCoUk Dec 9 '11 at 17:38

Optical computing. Seems like it should have been around longer but I can't currently find any references pre-dating 1982 or so (and the relevant piece of technology, the optical transistor, didn't pop up until 1986).

  • My dad knows a man that patented a holographic computer, which was 100% holographic. I've no idea how it worked, but it was supposedly an extremely fast system. – Robert K Aug 18 '09 at 1:06

Well the World Wide Web has already been told, but more basically, I would say "DNS". Seems that it was invented in 1983 (http://en.wikipedia.org/wiki/Domain_Name_System) and IMHO we can consider that it's the mandatory link between invention of the internet protocol and the capability to spread all over the world what is now called the web.

Still in the "network" section, I would add WIFI. It was invented in the 90's (but I agree it's not exactly "computing", but more related to hardware).

In a more strict "algorithmic" section, I think about turbocodes (dated 1993); some say it's only closing the limit defined by the Shannon signal theory, but wouldn't this argument reject all other answers to "everything was already in seed in Lovelace, Babbage and Turing writings" ?

On the field of cryptography, I would add the PGP program from P.Zimmermann (dated 1991), which brought a quite robust (at this time) free encryption program to the citizen, and contributed to shake a little the government's posture about encryption. In fact I think it was one of the factor of cryptography "liberalization", which was a prerequisite for developing e-commerce.


I think the laptop was invented around 1980 and I also think that the development of laptops and portable computing changed a lot of people's lives - certainly those of us who work in IT, or who use computers and travel.

  • You do know that Dr. Kay originated the idea for the laptop, known as the Dynabook back then. Even as late as 1994, when I first read about the Dynabook, I hoped that something as "good" as its design would come to market. And here we are. – Robert S. Jan 12 '09 at 4:54
  • The dynabook sketch looks similar to a TRS-80 model 100 (released in 1984 IIRC) – finnw Oct 14 '11 at 0:57

I'd say the biggest trend is an ever increasing lack of location dependence and pervasiveness. An interesting philosophical exercise these days is to count the computers in you immediate area. They're everywhere desktops, keyboards, microwaves, radios, televisions, cell phones etc... My grandmother computer is illiterate however her life is as infested with small computers as everyone else's. She can make a call to me from the middle of an empty field. I can then answer that call zipping down the highway.


The changes to infrastructure to allow accessible internet from home and office.

Documented and accepted standards from W3C through to APIs

Apart from that most of what we'd think of as new dates back a lot longer than you'd think (e.g. GUI, OOP).


Podcasting It allows for an informative way to distribute information and debate. I find it to be more interactive then standard interviews but have less noize then blog comments.

  • Harder to examine, though, and requires extra equipment (earphones) to avoid bothering cow-orkers. – Adriano Varoli Piazza Jan 12 '09 at 12:17

Declarative Programming.

In 1979 "computer programs" were imperative. The programmer was expected to instruct the compiler on both what to do and how to do it. (N1)

Today, ASP.NET WebForms and WPF programmers regularly write code without knowing or caring how it will be implemented. Wikipedia has other, less mainstream examples. Additionally, all of the SGML-derived "markup" languages are declarative, and I doubt many of the programmers of 1979 would have predicted their importance or ubiquity in 30 years.

Although the concept of declarative programming existed before 1980 (see this paper from 1975), it's invention took place with the introduction of Caml in 1985 (debatable) or Haskell in 1990 (less debatable). (N2) Since then, declarative programming has increased greatly in popularity. And, when massively multicore processors finally arrive, we'll all be declarative programmers.

(N1) I can't vouch for this firsthand, since I was a fetus in 1979.
(N2) From other answers, it seems like people are confusing conception with invention. Da Vinci conceived of a helicopter, but he didn't invent it. The question is specifically on inventions in computing.
(N3) Please don't mention Prolog (rel. 1975) in the comments unless you have actually built an app in it.

  • Oracle and IBM came in 1979 with commercially available SQL databases, so the use of declarative programming is older than 1980. – tuinstoel Jan 13 '09 at 9:28
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    Declarative programming is a bit of an overloaded term. Declarative programming according to microsoft is usually a smart way of using XML to configure an application. Functional languages like Lisp, Scheme and Haskell allow for a different form of declarative programming. – Mendelt Jan 13 '09 at 13:06
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    Ivan Sutherland's Sketchpad was completely programmed declaratively and had no imperative features. And it wasn't the last declarative system done before 1980. – Alan Kay Jan 18 '09 at 3:07
  • In my humble opinion - there's no such thing as declarative programming. Even if you say only WHAT needs to be done you still know HOW it will be done, and if you don't - weird things will happen from time to time and you will have no clue WHY until you know HOW. That's why humans are needed here. – inkredibl Jan 20 '09 at 18:29
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    Suppose this were only about solving linear equations. We supply the relationships that we want to have simultaneously hold, and the solver program solves or says there is no solution. We know how the solver program works, but are programming completely declaratively....? – Alan Kay Jan 20 '09 at 20:48

“American’s have no past and no future, they live in an extended present.” This describes the state of computing. We live in the 80’s extended into the 21st century. The only thing that’s changed is the size. Alan Kay

Source: Alan Kay: Is Computer Science an Oxymoron?


The memristor.

While the idea is not newer than 1980, I believe a working model was not created until 2008. Should it make it past R&D, it will be the most significant advance in computer hardware since the transistor; at the very least, obviating secondary memory.


Instant Messaging has been around from long time (mid to late 60), but IRC did not come before 1988.

Video communication, on top of that, (as in, for instance, Windows Live Messenger, or Skype, or ...) really did change the way we are communicating ;) and is much more recent.

(see VideoConferencing: 1968, alt text http://wpcontent.answers.com/wikipedia/en/thumb/6/64/On_Line_System_Videoconferencing_FJCC_1968.jpg/180px-On_Line_System_Videoconferencing_FJCC_1968.jpg, as Alan Kay himself points out in the comment:

Again, please check out what Engelbart demoed in 1968 (including live video chatting and screen sharing). IOW, guessing really doesn't work as well as looking things up. This is why most people make weak assumptions about when things were invented.)

Take that in my face ;), and rightfully so.

Note: the "webcam" (video setup) of those times were not exactly made for your average living-room ;)


[... resuming the answer:]

The generalization of webcam alt text http://wpcontent.answers.com/wikipedia/commons/thumb/c/c5/Logitech_Quickcam_Pro_4000.jpg/180px-Logitech_Quickcam_Pro_4000.jpg helped too (Started in 1991, the first such camera, called the CoffeeCam, was pointed at the Trojan room coffee pot in the computer science department of Cambridge University).

So: Post-1980: 2 out of 3: IRC and Webcam.

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    Again, please check out what Engelbart demoed in 1968 (including live video chatting and screen sharing). IOW, guessing really doesn't work as well as looking things up. This is why most people make weak assumptions about when things were invented. – Alan Kay Jan 20 '09 at 20:51
  • I got smacked in the face by Alan Kay! I will never wash that cheek again ;) I guess my answer only contains two post-1980 bits of "invention" instead of 3 (even if their concept was around before): IRC (1988) and webcam (1991). – VonC Jan 20 '09 at 22:09
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    How does IRC count for anything? It's a real-time chat medium -- an incremental refinement of something I'd been using long before IRC existed. – JUST MY correct OPINION May 30 '10 at 2:00

I claim that we need really new ideas in most areas of computing, and I would like to know of any important and powerful ones that have been done recently. If we can't really find them, then we should ask "Why?" and "What should we be doing?"

The way that I see it, we have not had so many new ideas in computing because we largely haven't needed them. We have been milking the old ideas, and getting so much out of them, such as the phenomenal growth of cpu speed.

When we need new ideas because the "well has run dry" so to speak, then we will see that necessity is the mother of invention.

  • > The phenomenal growth of cpu speed. Well, this is something close to an end. The research on alternatives to silicon is raising indeed, with examples such as graphene transistors: technologyreview.com/… – Blaisorblade Jan 12 '09 at 1:28
  • Yes, I know it is coming to an end, and so I am sure a new chapter of computing will be born from it. Necessity id the mother of invention, right? – Alex Baranosky Jan 12 '09 at 6:34
  • I think it's clear at this point that advancement in cpus is coming more from parallelization than speed. – Adam Lassek Jan 20 '09 at 14:58

The one activity I can think of that wasn't there in 1980 was Global Searching Across Disjoint Domains. i.e. google and a (very few) predecessors - all of which were well post-1980. Associated with conventions for syntactic markup,I think it qualifies as a "new idea"; but I think it also has only just begun; there's a lot of overhead space to build up into.

One device that has the potential to accelerate this already lightning-speed vector will soon emerge as the combination camera/GIS/phone/network. It creates the opportunity to automatically collect, classify, and aggregate datapoints in four-dimensional space for the first time. Even tedious manual collections of this type of data are sprouting; imagine when it's done by default.

For better or worse.


Design Patterns which brought computer science closer to computer engineering. GPS and internet address lookup for location based interactions. Service Oriented Architecture (SOA).


Open PC design that led to affordable components (except from Apple :-) and competition that drove innovation and lower prices. This caused the big change from the user going to the computer -- where there was a terminal to use -- to the computer coming to the user and appearing at home and even in ones lap.

  • And keep in mind that because of this Macs are now on the same architecture as everybody else too ;-). – inkredibl Jan 20 '09 at 18:46
  • Multiple manufacturers were delivering S100 bus designs to users in 1976. – Dour High Arch Aug 17 '09 at 23:03

Games With a Purpose - Collective intelligence tools like Luis von Ahn and his team are developing might have been a dream before 1980, but there wasn't a widely deployed network with millions of people available and a need (e.g. reCAPTCHA) to actually make it happen.

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