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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
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
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
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
@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

The successful integration of different programming paradigms into single programming environments.

The exemplar of this (for me) is the Mozart/Oz programming system, which integrates functional, OO, logic, concurrent and distributed programming mechanisms into a coherent whole. There are other examples though.


The rise of motion sensors in gaming which does away with the traditional game joysticks and lets the user very close to the game itself. This complements our ever changing urban landscape and lifestyle where we have limited physical activity. This advancement in gaming definitely induces atleast some physical activity while doing something that one enjoys. It is definitely better than doing same mundane reps at your gym.


I think the most concepts in computing have mostly been undergoing refinements, but there have been some new developments, particularly in distributed computing.

  1. Robustness against failure and defection, and failure recovery, ie. Paxos, Byzantine Fault Tolerance, etc.
  2. I know people have mentioned P2P, and that P2P communication was happening in the 70s, but with all due respect I don't think it was of the same nature as is commonplace today, with distributed hash tables, efficient dynamic ad-hoc networks, and most importantly, anonymity (ala Freenet, Tor).

The majority of work has been refinement, and while many modern systems are little better than the original concepts first described in the 60s or earlier, some are orders of magnitude better.


I would say that CDMA was/is an important and powerful new idea that was created after 1980.

Hashim & Constantinides, Digital Code Division Multiplexing, Proc. Zurich Int. Seminar on Dig. Comm., March 1974. – Charles Stewart Aug 24 '10 at 9:03

c++ programming language (1983) template metaprogramming (1994)

What about C++ is meant to be a significant new invention? C++'s templates (like the C++ STL) are derived from Ada's generics (1977), which in turn were based on the meta-programming facility in Liskov's CLU. – Charles Stewart Sep 6 '10 at 13:35

X.500 and the x.500 series of standards (circa 1988). While the x.500 standards were inspired by telco standards dating back decades, they are significant as they paved the way for the widespread use of LDAP/AD and our current incantation of x.509 certificates to name a few.


A really hard question since, aside ridiculously improved hardware, there's few things that'd have been significantly positive inventions after that time. Though there are many significant inventions before 1980s that affect people only but now because they were infeasible back then.

Heck. Descent


the Enterprise Service Bus would appear to be a fairly recent 'invention', though of course it is based on much older technologies.


The Eclipse memory Analyzer:

and it's of use of the Lengauer-Tarjan dominator tree algorithm for memory usage analysis.

Sorry :) In 1979. google.com/… – Kornel Jan 16 '09 at 22:34

Digital music synthesizers.

I think, the whole music scene was affected by the availability of cheap polyphonic synths. The early polyphonic synths where effectively multiple analog synths (discrete or using CEM or SSM chips). They were both expensive and very liited. During the 80's, the first digital systems arrived (I am not sure, but I think Kurzweil was one of the first). Today, mostly all are digital - even the analog ones are typically "virtual anlog".


EDIT: oops - I just found out that the CMI fairlight was invented in 1978. So forget the above - sorry.


I'm not qualified to answer this in the general sense, but restricted to computer programming? Not much.

Why? I've been thinking about this for a while and I think we lack two things: a sense of history and a way to objectively judge everything we've produced. This isn't true in all cases but is in the general.

For history, I think it's just something not emphasized enough in popular writing or computer science programs. Take language features, for example. A canonical source might be HOPL, but it's definitely not common knowledge among programmers to be able to mark the point in time or in which language a feature like GC or closures first appeared. And of course after that there's knowledge of progression over time: how has OOP changed since Simula? Compare and contrast our sense of history with that of other fields like maybe political science or philosophy.

As for judgement, this is really a failure on our part to seek objective measures of success. Given foobar, in what measurable way has it improved some aspect in the act of programming where foobar is any of design patterns, agile methodology, TDD, etc etc. Have we even tried to measure this? What do we even want to measure? Correctness, programmer productivity, code legibility, etc? How? Software engineering should really be picking away at these questions, but I've yet to see it.


I think part of the problem with these answers is they are either not well researched or are attempting to a new implementation or some technology that has seen significant "improvements." However, this is not a significant invention. For instance, any talking about functional programming or object oriented programming just fails; most of these ideas have been circulating since before most of the participants of SO were born.


In order to start thinking about this, I need a model for what "innovation" means.

The best model I've seen is The Technology Adoption Life Cycle. You can get an overview at this Wikipedia Article.

Using this model, I began to ask myself... at what stage of the life cycle is software itself? We can think of "software" as a distinct technology from machinery going all the way back to Babbage, or perhaps more precisely, to Lady Ada Lovelace.

But it surely remained at the very early pioneering stage at least until about 1951. That's the year programmed computers "went commercial" in terms of selling a model for a computer product, and building lots of units of that model. I'm thinking of the machine that Univac sold to the Census Bureau.

From 1951 to about 1985, software innovations were numerous. They mostly had to do with extending the span of computing to an ever wider field of endeavor. In parallel, mass marketing and mass production kept bringing the cost of entry down till the Apple and IBM-PC made a programmable device a commonplace appliance.

Somewhere between 1980 and 1985, I'd say that software passed from the Innovator's domain to the "Early majority" domain. Sorry, guys, but that makes all of you that participated in MS-DOS, the Mac, Windows, C++ and Java eraly majority rather than innovators. That doesn't preclude your having done significant innovation on your own turf and in your own projects. It just means that the field itself had moved on from the earliest stage.

While the Internet's precursor had been around since the 1970s, it wasn't until Al Gore invented the internet (sorry) that everybody hooked up. At that stage, software passed from the early majority to the late majority. This shift was subtle, as the top of the bell curve suggests. Not every shop moved from early majority to late majority at the same time.

I don't think software has quite passed into the "laggard" stage yet, but I think that real innovators are tackling the problem of producing progress on different fronts today.

Two fronts that I can think of are Bioengineering and Information Appliances. Both of these fields require software, but the main thrust is not software innovation. It's applying software to uncharted territory. There are probably lots of other fronts that I'm not even aware of.


I would vote, as a Debian user, for package management. It makes OSX and Windows 7 look like primitive amateurish playthings.

But since package management was already mentioned, I will vote for X. The network transparent window server has made a lot of applications possible. It's wonderful to be able to seamlessly summon programs running on different computers side by side on the same screen.

And that was a tad more impressive in the late 80s.


Bitcoin's solution to the double-spending problem. It was used to create a decentralized electronic currency. A variant called Namecoin uses the same technology to build a decentralized naming system (similar to DNS).

There were attempts to create cryptocurrency in the past (and the idea is certanly not new), but Bitcoin seems to be the first implementation which took off. Its unique P2P algorithm solves the double-spending problem without relying on any trusted authority.


Protected memory. Before protected memory if your program made a mistake, you could start executing code anywhere- virtually always hanging the entire machine. That's right, reboot time!

Low cost of hardware. My first computer cost $500 in 1978- a huge sum at the time. Lowering costs put PCs on every desk.

Protected memory was invented in the 60s, at latest. – Darius Bacon Jan 14 '09 at 23:37
It amazes me how little modern programmers know about past programming. This is a classic example. What's next? Thin clients? – Stu Thompson Jul 27 '09 at 16:03

Natural Language Processing. The first time I encountered this was in the early 1990s with a program from Symantec called Q&A that let you query the database by typing English queries. I am still impressed by it to this day.

There was a lot of invention in natural language processing before 1980. For just one example Try looking up Terry Winograd in Wikipedia. – Walter Mitty Feb 16 '09 at 8:45


Voted up because it's funny. :) – ibz Jan 17 '09 at 8:40
Voted down because it's not. :( – sharkin Jan 17 '09 at 14:38
Didn't do anything because i agree with R.A :| – Ólafur Waage Jan 28 '09 at 9:02
Ass kisser! . – Stu Thompson Jul 27 '09 at 16:01
Geez, this is timely. Just six months late... – duffymo Jul 27 '09 at 22:25

Paxos protocol. It's difficult to describe how valuable it is in internet era.

I think Paxos isn't hugely valuable yet, but it's a good answer nonetheless: it's an answer to a problem that is obviously fundamental, that we didn't appreciate until the early 80s, and we didn't have good solutions to until the turn of the 90s. Cf. stackoverflow.com/questions/6223370/… – Charles Stewart Dec 7 '11 at 10:36

FPGAs are a major breakthrough invented after 1980.

Mask-programmable Gate Arrays date from 1969, and are essentially one-shot FPGAs. -1, not new. – Charles Stewart Dec 7 '11 at 10:43
So the ability to reprogram them isn't a significant improvement? – Kevin Dec 7 '11 at 15:21
Sure it is. The qn doesn't ask for significant improvements since 1980. The big idea was programmable circuitry. – Charles Stewart Dec 7 '11 at 16:33
The significant invention of FPGAs is field programmability. – Kevin Dec 7 '11 at 20:11
Surely if flash memory (a form of solid state storage which previously existed as one-shot ROM) counts as a significant invention (stackoverflow.com/a/458370/472698) so too should FPGAs. – Kevin Dec 8 '11 at 5:09

Computer Graphics, Special Effects, and 3D Animation

All available in the 60s and 70s. Texture mapping, for example, is from 1974. – Andrew Dalke Mar 5 '09 at 15:21

Top ten software engineering ideas / picture

Most of the books are BS. Where is OOP and the patterns book. – Nils Apr 29 '10 at 11:10

I do not know if somebody has already answered, "machine learning" as a significant new development that is developing fast. With intelligent spam filtering, stock market predictions, intelligent machines like robots, ...

May be, machine intelligence might be the next big thing.

Smith, Mitchell, Chestek & Buchanan, 1977, A model for learning systems contains a nice survey of machine-learning techniques up to 1977. – Charles Stewart Oct 22 '10 at 12:24

Let's see, Connection Machines (Massive Parallelism) for one.

Anyway, this whole question seems like an egoboo for Alan Kay since he invented everything.


The mathematics for quantum computing has been around since before 1980, but the hardware isn't here yet and may be physically and economically infeasible for many years to come.


The Personal Computer.

Hands down, the most important part of computing in the last thirty years is that everyone is now part of it. Computers for home use only date to 1977 or so, and widespread adoption took until well into the 80's. Now, kindergartens, senior centers, and every next door neighbor you'll ever have owns one.

-1: Altair 8800, 1975. No post-1980 invention here. – Charles Stewart Oct 22 '10 at 14:44

I'd have to say that the biggest invention in computing since 1980 is Moore's law. There were tons of really cool, innovative things created in the 1960s and 1970s - but they were insanely expensive one-off projects. And most of these projects are lost in the mists of time.

Today, the cool, innovative project gets a couple rounds of funding and is available on everybody's desktop or web browser in 6 months or so.

If that's not innovative, what is?

Moore's law was actually coined in 1965. – Charles Stewart Aug 24 '10 at 9:34
True, but it didn't really kick in until after 1980. Z80's (1976) weren't that much cooler than an 8080 (1974); 8086s (in 1978) were nicer, but 68000s (1979/80) and subsequent CPUs were hands down superior. The "Killer Micros" really didn't take over until 1990 or thereabouts. – Eric Brown Aug 24 '10 at 20:28

I would say Linux and the reification of the worse-is-better philosophy, but you can argue that those are older. So I´d say: quantum, chemical, peptide, dna, and membrane computing, (re)factoring in a non ad-hoc fashion and automated, aspects, generic programming, some types of type inference, some types of testing,

The reason why we have no new ideas: sw patents (this comes from the late 60s ...), corporations and education.


The Internet.

That's it.

The birth of the internet is often said to occur with Cerf & Kahn's work bringing into existence the first TCP, completed in 1974 with RFC 675. – Charles Stewart Sep 6 '10 at 14:12

Personal Broadcast Communication

Facebook, Twitter, Buzz, Qaiku... the implementations are varying, focusing on different aspects - managed audience, conciseness, discussions. The specific services come and go, but the new concept of communication remains. Blogs are of course what started this, but the new services have made the communication socially connected, which is an essential difference.

Not quite sure if this exactly goes under the subject of computing, though, but it's something that's significant, and only made possible by computing and networks.

Any explanation for the downvote? – Ilari Kajaste Aug 6 '10 at 18:03

protected by Robert Harvey Mar 10 '12 at 4:15

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