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I'm a relatively young programmer and so I don't really know much about languages like Fortran or Cobol that have their origins in the beginning of modern informatics.

I'm a bit confused because it seems like there are many people out there saying that these two languages are still very alive and being used all over the world whereas others say the opposite. In addition, it seems like there are only very few questions tagged Fortran or Cobol here on stackoverflow.

  • Can someone "demystify" the situation for me? Who uses these senior languages these days and are they even used anymore?

  • Do you have any experiences with one of the languages or do you know something about their latest developments?

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closed as off topic by Juhana, bwoebi, A.H., Fls'Zen, martin clayton May 22 '13 at 23:39

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I'm not going to. Still I'm confused about one side claiming them to be dead where others say the opposite. I also don't understand the person that has already close-voted this question. –  lamas Feb 15 '10 at 14:51
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@Hamish: Why not? Any valid reason not to expand one's knowledge? Besides, legacy systems need care too from time to time and having knowledge never hurts. –  Joey Feb 15 '10 at 15:09
    
@Johannes: Learning a legacy language as your second or third language is probably a good investment of time and effort only if you either have an immediate need for it or it is from a type you can learn a lot from, such as if you happen to have a wonderful teacher for some declarative or functional language at hand and never looked at those before. –  Christopher Creutzig Feb 15 '10 at 15:48
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With respect to COBOL, check out the answers to these SO questions: Why is COBOL still a preferred language in the business world (stackoverflow.com/questions/2025730/…) and: Reasons to start a new project in COBOL (stackoverflow.com/questions/1741599/…) –  NealB Feb 15 '10 at 16:17
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24 Answers 24

up vote 76 down vote accepted

Fortran is still used pretty often in scientific circles or on supercomputers for heavy numerical processing. Recently I was at the Max Planck institute for plasma physics near here and they do a pretty large part of their simulations in Fortran. Besides, the language standards themselves are still in pretty active development, the latest efforts dating back to 2003 and 2008 (with Fortran 2008 being approved since September 2010 – thanks Camilo).

Since Fortran has been in use for more than fifty years, there is a vast body of Fortran in daily use throughout the scientific and engineering communities. It is the primary language for some of the most intensive supercomputing tasks, such as weather and climate modeling, computational fluid dynamics, computational chemistry, computational economics, plant breeding and computational physics. Even today, half a century later, many of the floating-point benchmarks to gauge the performance of new computer processors are still written in Fortran (e.g., CFP2006, the floating-point component of the SPEC CPU2006 benchmarks).

Wikipedia: Fortran, Legacy

COBOL is pretty much alive in many banking and finance systems. Basically you have code there that has been running for a few decades. And there's still the golden rule: If it works, don't touch it. And no need to break it by re-writing everything (and those systems aren't exactly small and can be rewritten in a few days). The latest COBOL standard dates back to 2002 so it's not much older than the current Java version :-).

COBOL programs are in use globally in governmental and military agencies, in commercial enterprises, and on operating systems such as IBM's z/OS, Microsoft's Windows, and the POSIX families (Unix/Linux etc.). In 1997, the Gartner Group reported that 80 % of the world's business ran on COBOL with over 200 billion lines of code in existence and with an estimated 5 billion lines of new code annually.

Wikipedia: COBOL, Legacy

Though agreed, most people having to do with programming or computer science rarely come near those languages. But they live a pretty healthy life and are nowhere near dead. That fact probably still remains a decade from now, I think. But there probably aren't many new systems developed in COBOL nowadays, even though Fortran is still used actively for new development.

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We (fortran programmers) should really stop making an emphasis on that paragraph regarding fortran+legacy code. To the young newbies starting those languages, it gives the feeling that the only reason why someone would learn it is to maintain that legacy. While the truth is something completely different ... there is a large number of projects today written from scratch in fortran (have no idea how things stand in cobol world) simply because it is still the best tool for the job. The problem is that there isn't that many fortran –  ldigas Feb 22 '10 at 14:58
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programmers in % to the total number of programmers, and that's why it gives the impression of a lanuage not used. If they made a poll only amongst engineers, physicists and the like, I'm pretty sure the numbers would be dramatically different. p.s. These comments need to have a larger char. limit :/ –  ldigas Feb 22 '10 at 14:59
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Update, Fortran 2008 was approved in september 2010. It's effing fresh for such an archaic language. –  Camilo Martin Dec 15 '10 at 1:37
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@ldigas Why it is still the best tool for the job? Is it faster? Any benchmarks to share? Thanks! –  m0skit0 May 4 '13 at 18:16
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@m0skit0 - Sorry for the late answer. Busy lately. Some of the reasons: very quick to catch on (most engineers are not programmers), has all the important features and is fast, very backward compatible (longer than one OS lifespan) ... these are very values characteristics amongst engineers. Sorry, no benchmarks. You'll have to look those up yourself :) (really a busy month, this one). –  ldigas May 15 '13 at 8:23

Fortran is still in active use every day in the scientific community. Fortran has some advantages that make it uniquely attractive:

  1. Its pretty easy to learn. Most scientists like myself don't have computer science degrees but still find themselves writing code more than anything else. The design of the language is well suited to translating engineering-type problems into code.

  2. Fortran is old, there is a huge body of code that is written in Fortran that is still in use. Fortran has also been updated to include modern features quite regularly while maintaining backwards compatibility (for the most part). Ancient codes that are in use in places such as the nuclear industry, where codes used for license certification and must be audited by the IAEA and NRC, are rock solid and reliable.

  3. Fortran targets the high end computing market with highly tuned compilers from Portland, Intel and NAG that have features for parallel computing with MPI or OpenMP (which are both very well implemented in Fortran) and are marketed towards the very high end of the market.

  4. A lot of standard libraries were written back in the day using Fortran because it was the best language available at the time. The premier linear algebra libraries, LAPACK and BLAS, were originally written in Fortran. Nowadays versions exist in other languages such as C, but the primary versions still are in Fortran and the forks into other languages like CLAPACK still require you pass Fortran-style arguments and data when you call functions since they intend to maintain cross-compatibility. Might as well write in Fortran, at that point.

In truth, however, I find myself using scripting languages such as Python more and more. Python is way better at handling tasks that are not computationally intense, such as text processing, which often forms the majority of your objective problem. Often I will write a computationally intense routine in Fortran and then use Python to pass data in and out and organize everything.

Incidentally, when I was in secondary school (for nuclear engineering) we were required to take an introductory class on Fortran. The class wasn't especially well taught but I found myself liking Fortran (it wasn't my first exposure to programming) but I couldn't foresee using the "original" programming language in the 21st century. To my great surprise, I now find myself writing tons of Fortran (I'm on SO right now distracting me from writing some now...) and really have come to appreciate it. Fortran 90 is, for the most part, a really nice language.

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Just out of curiosity. I know you are a very intelligent person and my general impression is that experts in fields like physics such as yourself just think programming is hard for not looking too much into newer technologies. I don't have a degree and suck at math, but I'm grasping certain concepts at a very fast pace just because depending the angle they are very simple (like object orientation, most design patterns that make sense and functional programming). For example, maybe you'd find it more attractive when better explained: tryhaskell.org or maybe playing with Visual Studio? –  Camilo Martin Dec 15 '10 at 1:50
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I'm flattered, I dunno if I deserve your praise. I'm actually very familiar with Haskell and functional programming in general and I use it all the time. I'm an especially big fan of Mathematica, which is a pretty neat functional programming language. As to Visual Studio, Microsoft technologies don't have much of presence in my field because everything is Linux or Unix. I'm Vim and Intel compiler man all the way. –  Jason Hite Dec 15 '10 at 17:38
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Hooray, finally someone saying what I've been thinking ever since I started using Fortran about two years ago: "Fortran is a really nice language"! It is indeed :) Clear, easy to learn, good-looking syntax, superb array handling, ... Lots of people moan, but I really can't complain about it! –  canavanin Dec 28 '10 at 15:24
    
It's not just the programming language. It's the ecosystem. FORTRAN (and by extension Python's Numpy) have a huge advantage in scientific computing because of all the mathematical functions are already there. Haskell is a brilliant language but it might not have an FFT or linear algebra library. –  David Poole May 4 '13 at 12:56
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What I saw at ye olde cobol shop:

  • Cobol on mainframe used to develop web applications.
  • CICS Web services(CWS) provides the web server
  • provides services to the cobol programmer think tomcat and servlets
  • cobol transactions like java applets
  • Multiple ways to display web pages from cobol transactions
  • Screen scraper solutions for 3270 block mode screen applications
  • 3270 block mode screen applications are very similar to web 1 applications.
  • Replace screens with HTML documents populated with symbol lists
  • Business logic remains in the cobol applications.
  • Batch jobs are used for reporting and data transformation of data.
  • Works with vsam, isam files, relational databases, oracle and db2
  • Cobol programmers use CICS services to manage session state, temporary storage queues for caching data.
  • Cobol applications tend to involve high volume data entry screens with ten key data entry, so forms use javascript to allow for heads down data entry.
  • Cobol web applications tend to have the same structure as the 3270 block mode programs with a section to move data into local memory structures, to evaluate command user commands, to edit or validate data, store to database.
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As others have said, Fortran is in active use for scientific and numerical programming. One reason that language has lasted so long is that it has evolved: FORTRAN, FORTRAN II, IV, 77, Fortran 90, 95, 2003 and now 2008. Today's Fortran is is very different from FORTRAN 77 and even more so from earlier versions. Many who think the language deficient are basing their criticisms on characteristics of the earlier versions. A summary of the current language is at http://en.wikipedia.org/wiki/Fortran_language_features

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C++ is catching up, it's got a complex number type now! And in the next standard (in another 25years or so) it will have native multi-dimensional arrays! –  Martin Beckett Apr 14 '10 at 18:36
    
Many of the High-Energy Physics codes I see are still basically written in F77, not even using all it's power. I guess the problem is that most scientists aren't really programmers, but learn by example from generations before. This leads to very long lifetimes of some peculiar, possibly bad patterns. This might also be related to the lack of good free resources about modern FORTRAN programming. –  Benjamin Bannier Apr 24 '10 at 4:05
    
@Martin Beckett lol, C++ does have multiple inheritance and people don't frown upon you when you hack the language into a monster, maybe you're envious. –  Camilo Martin Dec 15 '10 at 1:54
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But fortran lets you redefine numbers - beat that. –  Martin Beckett Dec 15 '10 at 6:02

Cobol is widely used in anything involving money. Pretty much every transaction you do, anywhere in the world, will go through a Cobol system.

People love to say that all the Cobol apps are 20 and 30 years old, but they are just plain wrong. Cobol is the language of the Fortune 1000, for the parts where they actually make money. They are actively developed, the compilers and language specs support all sorts of things like OOP that one would expect of a modern language.

Most of the time, when you see someone talking about Cobol, they are talking about a class they took in college in 1972 that they didn't like. They left with some bigoted notions and they tend to compare that experience to using 2010's software.

I use a dozen or so languages routinely, and I LIKE Cobol for some things. Even in 2010.

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Did you still have the ~72 character count restrictions and line numbers turned on? I couldn't get a single tool to work with code that required those features. –  Ape-inago Nov 23 '13 at 1:09
    
That very much depends on the environment. On the z/OS system I work on, yes, but mostly because they have a source control system that was put in place in the 1980s which expect it. Other places, you can use either. I believe you can use the code formatting option (Alt-shift-F, IIRC) in Eclipse to reformat to your preferred style in an automatic way. –  Joe Zitzelberger Nov 23 '13 at 15:16
    
I couldn't get that to work. Do you use a specific plugin for eclipse? It was weird because someone had the bright idea to combine our ticketing system with it, and we hijack the unused line numbers and instead put in the ticket number there. Organizational inertia meant that we couldn't enforce everyone using a proper diff tool to deal with the code. –  Ape-inago Nov 25 '13 at 20:11

Keeping older programmers rich ;)

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You write that as if it were abad thing ! –  High Performance Mark Feb 15 '10 at 15:07
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@visage: nobody stops you if you want to learn FORTAN and/or COBOL and get rich. –  kriss Feb 15 '10 at 16:29
    
@kriss: COBOL programmers are expected to be in short supply, as the older ones retire. (Or, in my case, move to other languages and never want to touch the blasted language again.) –  David Thornley Mar 19 '10 at 19:47

Cobol and Fortran are still alive in the same institutions that were using them 20-30 years ago, namely financial institutions, insurance and governments (but not limited to them).

They have large codebases that cannot be simply replaced - they do too many things and the attempt to replace them would cost more than the cost of maintaining them. Most of this code is mission critical, so no one wants to touch it (if it ain't broke don't fix it).

Read this article for some more views on why Cobol is still alive.

Some of the developments are in modernising these languages - I know there is a .NET port for Cobol, called NetCobol and similarly for Fortran.

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The fields you mention seem to be more in the line of Cobol, while Fortran seems to be used mostly by scientists and mathematically complex computations like weather prediction. –  Camilo Martin Dec 15 '10 at 1:56

FORTRAN allows you to write shorter code. As an example this codes calculates the sum of the positive elements in the matrix A.

sumofpositives = sum(A, A>0.0)

If you want to do the same in c++or java then you would have to use two for loops. Scripting languages such as perl and python have simiar nice notation, but they are generally slower than fortran. Matlab and scipy are good for some purposes but not for all.

The sad truth is that FORTRAN's combination of simple matrix notation and speed is unique.

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One big difficulty with attempts to replace COBOL, or even, heaven help up, s390 assembler code is that often the knowledge embedded in the system has long since passed out of the institution; you wrote programs to automate processes twenty or thirty years ago, and once they were automated you sacked the people who had performed them manually.

If you wanted to replace that code, you'd either need to reverse engineer your business rules by hiring a bunch of COBOL programmers to read the code, produce specs, re-implement in your target language, and then go through the normal test/debug/why are we doing horrible things to our customers cycle; or you could rebuild your business processes from scratch while you rebuild your systems.

Both are expensive and time-consuming, and you'll probably spend a lot of money and effort to get yourself back to where you were two or three years ago (albeit in a newer and more trendy language). Why not spend the money on extending your codebase with functions your customers will pay money for?

(Also, I'll nth the commens made by others; modern COBOL is not your father's COBOL; we're in the process of Web Service enabling a bunch of our CICS/COBOL backends because the latest versions of CICS make it trivial to do so, for example.)

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One of the main ocean models used in climate change research is MOM, written in Fortran 90. MOM can trace it's ancestry back to the 1960's, and was extensively modernised in the 1990's. Source code is available on Github.

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Applications in banking and insurance are often one-off, business specific applications, and are sometimes certified with particular authorities, which is a time-consuming and expensive process. Result is a critical application that cost a fortune. It would be a huge risk to replace it and conservative organisations like banks and insurance companies tend to have the attitude "Do it once and do it right".

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Here at a large Health insurance company we have a cobol claims proccessing system that is still a critical app. It still does a few things well, but right now most of the work being done on it is just putting lipstick on a pig

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I'd guess the majority of programming in these languages are from updating / maintaining legacy programs written in these languages.

Fortran is used a lot in scientific computing due to it's numeric processing abilities and existing libraries. Back in the 90's when I was taking Computer Science, I remember that an optional Fortan class was offered for Computer Science majors - but it was also an elective for Electrical Engineering, Physics, and Astronomy majors (if I recall correctly) due to the use of Fortan in their respective fields.

COBOL was used primarily for business software - computing finance reports and that sort of thing. Also it was a popular / easy language for mainframe programming for a period (the VB of it's era ;) ), so companies that still have these mainframes may have a bit of COBOL code running on them. As the surge in COBOL programming for Y2K indicated - there are apparently a lot of these still in use.

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As J. Rössel pointed out, some numerical scientific simulations are written FORTRAN. I worked as service administrator for a company doing meteoroligical simulations. The model used was MM5, which is a purestrain FORTRAN Application.

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We still use FORTRAN for writing simulation programs in Physics. Before 77 now 95.

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If you want a compiler that does a decent job of optimising vector code then there is not a wide choice of languages available. FORTRAN has good support from third party libraries for functions like matrix operations and is actually passably well suited to the problem domains it is used in. The main alternatives to FORTRAN are MATLAB and C. Most other platforms such as NumPy just wrap libraries written in a low level language, or are significantly slower.

COBOL has a large body of legacy code, but it is still quite well suited to a variety of business applications, Particularly on platforms such as CICS that were designed for it. All other things being equal, a COBOL/CICS application will vastly outperform Java on the same hardware. For a Mainframe shop, COBOL applications will typically have significantly lower running costs than an equivalent system written in Java.

COBOL is often a good choice for headless batch operations - tuning a COBOL application to process a large volume of data quickly is often much easier than doing the same thing with stored procedures in a database system. Once I saw a posting on (IIRC) slashdot where the poster was describing a system he wrote in COBOL sometime in the 1980s. This would read and process a 35GB file of credit card refunds every hour - on a machine with roughly the CPU speed of an early 2000's mobile phone.

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There are places where new ideas are always sprouting, like computer science departments and software startup companies.

There are places where old ideas are preserved and conserved, like non computer science departments and older companies.

People generally belong to one kind of organization or the other, so they have different ideas. Often the reasons they give sound rational, but the real reason is it's what they're used to. It's kinda like politics.

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It has more to do with where IT lands on the corporate balance sheet: Asset => neat, new nifty stuff. Liability => COBOL, run-till-death –  NealB Feb 19 '10 at 21:37

I work for a consulting company that does quite a bit of business with local county governments, and nearly all of our clients use COBOL (or RPG) extensively in critical applications.

As has been mentioned, the biggest reason these systems still exist is the "don't fix what isn't broken" principle. Additionally, some of our bigger clients have very complex systems that would require multi-million dollar projects to replace, easily outside of their "enhancement" budget. These types of businesses won't replace their systems until it's absolutely necessary.

I'm a 23-year old Java/.Net developer, but I've also picked up COBOL to avoid bench-time when we don't have any active Java/.Net projects. The biggest challenge for me was adapting to environments where COBOL is prominent, ie, AS400s and mainframes.

Not many organizations are investing in new COBOL-based systems. However, there are still an enormous amount of these systems in place, and they still require maintenance and enhancement requests.

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Used for development/testing of jet engines. Application I've seen it in use for.

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About the language itself, COBOL is still seeing some updates too like an Object System layer.

Also, AFAIR, IBM is trying to migrate smoothly toward higher languages like 4GL or IGL (forgot the acronym sorry); think VALA versus GObject; it doesn't seem to be a great success but they still want to push it to customers as the new thing.

There's also work with code generation systems, that was all the rage in 2007. With the buying of Rational product suites, UML to COBOL was the "obvious" idea. More in-house ideas, which are basically DSLs (prototyped on top of Eclipse technologies) to help expressing SQL-like batch process over zOS files (which can be bytestream or record based files). Lastly I remember some CRUD framework. The idea is that COBOL becomes a target language.

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Fortran is used now for pretty much the same type of job it has been used for over the past thirty years: numerical algorithms. Fortran is good at number crunching, has complex numbers baked in and good array support. I am sure many will read that last sentence and say “yea but it’s old and archaic and I really would hate to program in it”. That is a fairly standard reaction – here are a couple of reasons why it might not apply to everyone:

  1. Legacy code – there are some huge Fortran code bases out there. These are multi-million line projects processing gigabytes of information. Changing from Fortran is quite often not an option
  2. Legacy programmers – lots of Fortran programmers do not fit the general programmer bill. They are more likely to describe themselves as scientists or engineers. Many really don’t care about what computer language (or OS) is cool – they just want their simulation to produce numbers.

The second point is really important because they are writing new Fortran code – and there is lots of it still being written. Fortran is not just about old legacy code; it is taught to engineers and scientists in universities. You could argue that they should be taught something ‘more up to date’ but there is a good chance they will meet Fortran in industry and it is simple to teach. It requires no knowledge of object orientation, namespaces, pointers or include files. Remember these people are scientists not programmers.

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Lots of computational chemistry and molecular dynamics software is written in fortran, basically it is very good for problems of that sort.

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From 2007-2011 I worked for a company who processes approximately 1/3 of all prescription claims for health insurance companies in the USA. Everything they did was in COBOL and ran on ridiculously expensive 'big iron' hardware. Not only did the hardware cost millions of dollars, but the software licenses were also multi-million ordeals. Despite this, they till this day, write thousands of lines of new COBOL every week and interact with the system using terminal emulators. Is sort of 'expected' in their industry to use that sort of bulky legacy hardware. (Honestly, it's ripe for a startup to come in and 'disrupt' it by doing the processing for a thousandth of the cost)

If you want to know more, I ranted about the situation on blog: http://thecodemechanic.wordpress.com/2011/05/30/hate-java

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That "ridiculously expensive 'big iron'" is much cheaper than the equivalent in small Unix or Windows servers clustered large enough to actually process the volume. –  Joe Zitzelberger Jul 30 '13 at 3:29
    
No, actually it is tremendously expensive! We did a complete engineering study on it and took into the account MIPS, availability, infrastructure requirements, developer requirements, storage costs, and license costs. Essentially what we proved was about $12k of Linux boxen plus 2 developers at $85k using open source software was more cost efficient than a $7mil mainframe + licenses in an equivalent infrastructure, plus the costs scaled linearly, not exponentially as with the mainframe. –  exabrial Jul 30 '13 at 16:59
    
Except you can use open source software on the mainframe too. You got the answer you went looking for. Do your $12k Linux boxen have the IO capacity to keep up with a high transaction volume and many hundreds of thousand connected users at a time? Not for $12k. –  Joe Zitzelberger Jul 31 '13 at 11:27
    
...Although IBM frowns upon it ;) And yes, I/O capacity was part of the test. On a 6gbps SATA channel with a single Samsung 840pro, we maxed out to about ~100k IOPS. But that was when we actually used disk I/O. We changed our -design- to use HSQLDB (Which actually outperformed disk based mainframe DB2). The data that needed to be persistent onto a message queue (using global transactions) and was written asynchronously. If a node crashed during a write, we simply replayed the queue log and restored the database to memory. –  exabrial Jul 31 '13 at 21:27
    
Your mainframe may never crash, will guarantee tons of I/O, and it doesn't take a genius to write code that will "go fast" because the hardware is a feat of [tremendously expensive] engineering. What we (and companies that actually handle large amounts of data) discovered was that using "dumb" hardware and expensive software is a -lot- cheaper that buying expensive hardware. Orders of magnitude cheaper. That probably wasn't possible 15 years ago, but it is now! –  exabrial Jul 31 '13 at 21:33

Several of the Unisys customers (developers for large banks) are using Linc 4GL, which generates Cobol for mainframes, Unix/Linux and Windows. It just works. and fast, reliable, although a somewhat strange language, with interesting "features", like (pseudocode):

if 1 != 1 then:
    find_a_row from some_db_table 

This tricks the compiler/environment to read the table structure definition, so you can work with it...

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