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Several of my university teachers use Fortran. New Fortran specifications and extensions (like HPF) appear. Fortran even takes 26th place in the TIOBE ranking list. I've got interested in this fact and it raised several questions:

  1. Do you use any version of Fortran today (or recently)?
  2. In what activity or project and why?
  3. What is it good for today and why is it to be preferred over younger alternatives?
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closed as primarily opinion-based by Vladimir F, Fiona -, Xan, pippin1289, greg-449 Jun 24 '14 at 15:06

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

polls like this should be community wiki – anon Aug 4 '09 at 12:52
Fortran is really only used for heavy math stuff. It is mainly used because its performance can be better than C due to it assuming that pointers do not alias (C always assumes that pointers may alias, which makes certain optimizations impossible). In reality, it will never be that much faster than C (and you can force C to be like Fortran), and C is much more readable, so there is really no reason to use Fortran in a new project. – Zifre Aug 4 '09 at 12:57
Ok, community wiki. – Rorick Aug 4 '09 at 12:59
@Zifre We can't downvote comments. Is that why you posted your unfounded and uninformed opinions as a comment, rather than an answer? – anon Aug 4 '09 at 13:15

11 Answers 11

up vote 17 down vote accepted

Fortran is widely used in the Astronomy and HPC communities. See for example this parallel star formation code. Another example of a major Fortran code is the UK MET Office Unified Model, which is millions of lines of Fortran overlaid with Perl and Korn shell (yummy!). There is a lot of existing expertise in using Fortran for numerical simulation work. The other reason it continues to be used is the huge amount of legacy code that exists. Many of these simulation codes are built up over years through the efforts of successive generations of grad students.

From a technical perspective, Fortran is extremely fast and has excellent support for array operations, which is very handy for crunching large volumes of numbers.

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How large was the MET Office Unified Model when it was first created? – JAB Aug 4 '09 at 14:32
Of all the words I can think of to describe the UM code, yummy certainly isn't one of them. – Tim Whitcomb Aug 4 '09 at 14:35
@Cat Megex: Unfortunately I couldn't easily find a number, but you might be interested in this page describing the history and evolution of the code: – ire_and_curses Aug 5 '09 at 8:24

Have a look here for some profound pro-Fortran arguments seen from the scientific computing point of view.

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this is a broken link – Demetri Nov 24 '13 at 20:01

Yes I do. Groudwater simulations and soil plasticity. Finite element method. I'd probably go for it even when starting a new project.

  • It is the stability of the code (25 years old code compiles, links and runs)

  • Efficient code for numbercrunchig is produced by most compilers.

We maintain a set of tools, the comuting kernel is written in fortran the GUI is C#. (I would probably go for Qt). [No, I am not Simeon Pilgrims father in law]

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I know that this is an ancient post but I feel the need to weigh in on it. YES, FORTRAN is used all the time in the scientific and engineering community. In fact as I see it, amongst those who do numerical methods, it is one of the fastest growing languages. To add to this, most time we need to upgrade models, we do it in FORTRAN since all of the legacy codes are in FORTRAN and it is more efficient to write new subroutines in FORTRAN as opposed to cross compiling the legacy codes with C. I will further add that the demand for FORTRAN programmers in the nuclear industry where I work is going up and we are having a hard time finding people to hire who have knowledge of FORTRAN, so it is becoming a niche skill that is beginning to have a significant market value.

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Note that Fortran hasn't been FORTRAN for 22 years. – Kyle Kanos Mar 12 '14 at 20:10
Thats a Potato vs. Patato argument. Yes, the ANSI spelling changed to lowercase with 90, but those of us who learned on 77 still use the original spelling, and the original spelling is still used in most recently generated engineering documents I deal with. – Jon Mar 13 '14 at 18:25
(1) Patato is not a word, (2) the S in ANSI is for Standards (#3 there), (3) FORTRAN signifies F77 and not the modern (and more flexible) incarnations, (4) Argumentum ab auctoritate is an irrational argument (i.e, a logical fallacy) – Kyle Kanos Mar 13 '14 at 18:40
and the S in ANSI applies to the standardization of the underlying language, arguing over whether it is in caps or lowercase is a germane argument. Since the 90 subroutines interface with codes that are dominantly written in 77, the caps version stand in most industrial implementation documentation. – Jon Mar 13 '14 at 19:38

Do you use any version of Fortran today (or recently)?

Yes, Intel parallel studio 2011 XE

In what activity or project and why?

Predicting properties of Composite materials.

We use fortran because ABAQUS can interact with fortran code and legacy (we have a lot of code in fortran)

What is it good for today and why is it to be preferred over younger alternatives?

It all depends on what you want to do. I do not like c++ because of pointers.

You can lough, but I am a C# fanatic!

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My field, experimental nuclear and particle physics has moved in the last 15 years from a set of fortran based tools (CERNLIB and geant3) to a set of c++ based tools (ROOT and geant4).

But not because c++ is faster, because it makes complicated structures easier to write and maintain. Our data often have complicated inter-relationships which we express using pointers and type-trees. This was much harder to do in the old fortran77 code (and the move to replace the tools started before the newer fortrans were stable or well known).

It s also worth noting that people who have never done heavy number crunching might not understand how many uniform, deeply nested computations go into that kind of work. Even after decades of Moore's law were are still talking about hours, days or weeks on the biggest machines around (the problems just keep getting better). These codes typically have different characteristics from anything you'd write to run on you personal machine.

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I used C/C++ for years to do scientific computing, in particular solving integral equations for the structures of dense fluids. When I changed to Fortran, life got much easier. This is not because of a problem with C, but because there are so many good numerical libraries for Fortran, and so much code already available. Fortran is designed specifically for numerical computing, and I find it easier to teach Fortran to research students. I am ready to believe that in principle C is just as fast, and better or more elegant in many ways, but I can get the job done faster in Fortran.

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I'm a traffic engineer and we use network traffic modelling software which is FORTRAN based (SATURN).

TBH I don't think these days it's due to FORTRAN being more inherently suitable, it's more to do with the legacy of the (supposedly) tried-and-tested software which has become a defacto industry standard. The software is effectively still running cards...

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My father in-law uses it for ground water modelling. They do huge grid based processing to workout how different water wells effect each other, and therefore if new well should get local-body consent.

It's a field where the code is all Fortran, so it's still all Fortran

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I work in numerical weather prediction, so essentially all our new and old code is in Fortran - all of the models I can think of use it, and we make heavy, heavy use of high-performance computing resources. As ire_and_curses mentioned, the support for array operations is a powerful reason why we do this - there's also a large amount of legacy code that we use for things like observation processing and quality control.

There is also excellent support for parallel programming (e.g. MPI and OpenMP), which makes it popular for running on large supercomputers. There are also many libraries that have evolved over many years to provide incredibly fast common operations (e.g. BLAS and LAPACK) or solver routines (e.g. ODRPACK).

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You bet. Nothing faster than fortran for math work. And C <-> fortran is pretty easy these days. And when you get a carefully crafted fortran code, who wants to rewrite it in another language with all the inherent risks that you'll get it wrong?

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I would say the argument these days is more the vast libraries of existing Fortran code and the language features designed for working with matrices rather than its inherent speed. C/C++ should be just as fast and writing CUDA code can be orders of magnitude faster than Fortran. – Eric Aug 4 '09 at 14:42
But using CUDA for highly-parallel C code, while efficient, is not available to everyone due to CUDA's hardware requirements. Fortran can be used by those without said requirements. (Of course, there are other massively-parallel systems that can be used besides that of CUDA, so my previous point isn't all that big of a deal.) – JAB Aug 4 '09 at 15:15
C fortran calling conventions can be tricky. On windows and linux, everything is passed by reference. On windows (with the Intel Fortran version of AMD's ACML), I had to add a by-value parameter for each string being passed. On linux, you have to add an underscore to the name. – Juan Aug 4 '09 at 17:11
@Juan, I didn't say it was something granny could do, but it isn't that hard. Especially if you compare getting the calling conventions right vs. recoding the subroutine being called in a different language. And almost everyone knows that all Fortran arguments are expected to be passed by reference, so you need to hang an & in front of everything except arrays. And Fortran doesn't innately know the length of a string, so you have to supply it. And if you think about it, Fortran is doing the same thing internally. This is, of course, implementation-dependant, but that's what #ifdef's are for. – xcramps Aug 8 '09 at 14:32

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