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as an engineer I currently use C to write programs dealing with numerical methods. I like C as it's very fast. I don't want to move to C++ and I have been reading a bit about Ada which has some very good sides. I believe that much of the software in big industries have been or more correctly were written in Ada.

I would like to know how C compares with Ada. Is Ada fast as C? I understand that no language is perfect but I would like to know if Ada was designed for scientific computing.

Thanks a lot...

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For comparisons between C and Ada, you may also want to look into: stackoverflow.com/questions/984866/988366#988366 –  none Apr 19 '10 at 21:18
    
Thanks for this informative link. C I believe is good at writing OS and this is what it was designed for in the first place though OS requirements have evolved with time. In engineering calculations, unless one is using a C numerical library, one immediately discovers that C has not been designed to do numerical computations. I'll give Ada a try and find out if it's the right way to go for me. In any case, learning an additional language can only benefit one's programming skills. –  yCalleecharan Apr 20 '10 at 9:43
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Information that would help answer this question is: how long do you have to support your applications? If they're used only in the short term, use Fortran; it's really best for scientific computing, if you don't have to maintain it. If you have to support them for years or decades, use Ada --- it's very good for scientific computing, and amazing for readability and clear, maintainable structure. C doesn't make my list at all. –  JasonFruit Jul 9 '11 at 11:59
    
The fortran tag should probably be removed from this question... –  weberc2 Nov 28 '12 at 20:44
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7 Answers

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Is Ada fast as C?

To the extent that this question has a meaningful answer, you might like to compare these Ada benchmarks to the corresponding programs in other languages with which you are familiar. A popular reference implementation uses the same compiler back end as several other languages, so comparable programs typically have comparable performance. Large disparities often represent different algorithms or varying safety trade-offs.

Is Ada designed for scientific computing?

Yes, Ada is used for scientific computing in a number of fields that require long-term maintenance of large-scale, safety-critical software. I especially like the strong support for type-safe generics and operator overloading.

Addendum: Several informative comments concerning other languages remind me that this Ada implementation can use the well-tested Fortran libraries blas and lapack to implement parts of its own standard library. Moreover, the compiler itself uses the popular C libraries mpfr and gmp; a binding is available for run time use, and this project provides extensions to standard Ada for a widely used implementation.

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Thanks for your comments and links. They were helpful. –  yCalleecharan Apr 18 '10 at 17:26
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The second sentence in the first paragraph holds a very important point. If your choice is between the gcc Ada implementation and the gcc C implementation, you are going to end up with pretty much the same speed for the same algorithims. I once saw a guy get his gnat "Hello world" implementation identical to the byte to a gcc C version (yeah, he used C's stdio instead of Ada's standard IO facility, but he was trying to prove a point). –  T.E.D. Apr 20 '10 at 19:18
    
Thanks for the comments. –  yCalleecharan Apr 20 '10 at 19:46
    
+1 to get 'nice answer' badge :) –  Eng.Fouad Oct 2 '11 at 21:51
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Choose Fortran. Fortran compilers can perform much better optimization and parallelization than C compilers. The most important data structure for scientific and engineering computations is array. And the Fortran language has true arrays. And many useful array-related features: intrinsic and user defined ELEMENTAL functions, some very useful constructs (WHERE, FORALL) and many more.

Modern Fortran is powerful language. By "modern" I mean current (Fortran 2003) language standard. Comparing to C++ (and Ada) there is no support for generic programming only.

Also the very common practice is to mix Fortran and Python. Take a look at this Why we use Fortran and Python blog entry. Fortran for intensive numerical tasks, Python for GUI, testing, build automation (SCons), adding support for generic programming (Forpedo, PyF95++), ... Also take a look at NumPy. It contains F2PY - Fortran to Python interface generator.

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Thanks for your comments. I have never used Fortran but it seems archaic now for one to learn Fortran in the 21st century. –  yCalleecharan Apr 18 '10 at 17:27
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FORTRAN appeared in 1957, Ada in 1983. If ones start criticize Ada citing Dijkstra Ada fans will argue that early Ada and modern Ada are different languages. But the situation with FORTRAN is the same. Starting from so-called Fortran-90 standard committee even changed the name of the language ("decapitalized" it) to reflect enormous changes in the language. Starting from Fortran-2003 the language has full OOP support... Read this: stackoverflow.com/questions/1335703/fortran-as-a-good-choice –  Wildcat Apr 18 '10 at 18:59
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Small advice: don't criticize things which you even never see and used. When ones make a choice it would be nice to know options. Your problem is that you don't actually know them. So you need to believe. And believe me or actualli Wikipedia that "Fortran 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." (c) en.wikipedia.org/wiki/Fortran#Legacy –  Wildcat Apr 18 '10 at 19:05
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+1: Actually, this is closer to right than many might think. Fortran compilers are very good at optimizing numerical programming for two main reasons: 1) They made a whole raft of language design decisions that make things much easier on the optimizer than C's design is. 2) Fortran users care about numerical programming more than C's users, so the compiler writers put much more effort into it. Ada actually goes Fortran one better on advantage one, but it is tough to compete with advantage two. –  T.E.D. Apr 20 '10 at 18:17
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@yCalleecharan: Fortran compilers can perform array bounds checking. For example, for gfortran use -fbounds-check compile option. This feature is optional. So you can choose to perform array bounds checking in debug version, but do not waste resources in final release. –  Wildcat Apr 20 '10 at 20:00
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Well, the real answer is that no general-purpose compiled language can really be called "slower" or "faster" than another.

Some languages (such as Fortran and especially Ada) can do things to make the job of the optimizer much easier. C, on the other hand, practically went out of its way to make things tougher. For example, any C variable can be aliased at pretty much any time, so it is a lot of work to figure out when one can be safely optimized into a CPU register.

However, Ada's theoretical advantage over C doesn't mean squat if you happen to get an Ada compiler from a vendor that didn't care about optimization and your buddy got a C compiler from a vendor who put enormous effort into theirs.

You can only talk about implementations being faster, not languages. But suffice it to say that it is quite possible to produce Ada code that is faster than the C code it replaces (without tons of source-perverting hand-optimizing).

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Actually, while I'm not going to say whether Ada or Fortran or C is inherently faster, I will say that Intercal is almost certainly inherently slower. –  David Thornley Apr 20 '10 at 20:14
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Intercal isn't a general-purpose compiled language. It is a no-purpose inflicted language. –  T.E.D. Apr 20 '10 at 22:22
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Ada lets the programmer specify what they actually want the program to do in a much more fine-grained way than C does. This makes it possible for compilers and other tools to do a lot of static code analysis to point you to problematic code areas before you even run the program. This static code analysis does not come with any run-time performance penalty, so you can get that benefit even if the generated machine code is more or less the same.

The run-time checks are different. I would expect good compilers can (through static code analysis) determine what checks can and cannot be triggered. This would allow you to write your code in such a way that value ranges are handled in a way that eleminates most of the runtime checks as well. I am not familiar with the actual state of the art in this area, though.

You can still get the benefits of the static code analysis without runtime penalties by just disabling the runtime checks. I would really benchmark things though and make sure that those few percentage points the runtime checks take are actually a problem for your application before you turn them off, though.

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Thanks for your comments. –  yCalleecharan Apr 18 '10 at 17:29
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I find Ada to be a very organized and well designed language. Obviously from the benchmark it is right up there with C++. If my field was engineering I'd use it more and mix in some Fortran (for hardcore number crunching) since Ada supports interfacing with Fortran. A good document I just read supporting these languages in favor of C++ is found here Re:Petition to Retire Fortran . In my field, managers are obsessed with C++, so I'm forced to learn that and learn it well in order to put food on the table. Glad that no one's life depends on it, just maybe some people's retirement portfolios.

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Ada is used most in the defense and aerospace industry, not in "big industry" in general. Its main aim was safety, so it is not specifically targeted for scientific computation.

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Thanks. But the defense and aerospace industry do much numerical computations, no? –  yCalleecharan Apr 18 '10 at 13:48
    
Dunno, have never worked there. But in my view safety and speed are to a large extent contrary aims. Safety means a lot of extra checks, even during runtime, which obviously hinders performance. –  Péter Török Apr 18 '10 at 13:51
    
I understand what you mean. I wait and see what others have to say about Ada. –  yCalleecharan Apr 18 '10 at 13:52
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Actually, its main aim was to be a general-purpose programming language so that the DoD could quit having to create and support new ones all the time. Because of that it had all kinds of other requirements to support things like systems programming, numerical programming, real-time programming, etc. Safety is just one of the things it happened to end up doing well that most other languages still don't bother with. –  T.E.D. Apr 20 '10 at 18:11
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Better stick to C...


This is because C offers tight integration with the target and a being closer to assembly several optimisations can be hand-crafted to suit ur purpose.

You might be interested in this:

http://www.adaic.org/whyada/ada-vs-c/ada-vs-c.html

Which particular architecture/device are U targeting??...

CVS @ 2600Hertz

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"Being closer to assembly" -> very few optimizations are possible. And easy (implicit) parallelization for any low-level language is just a dream. And his "device" is probably some big computational cluster. ;-) –  Wildcat Apr 18 '10 at 14:25
    
Thanks for the comments and for the link. I'm not doing embedded c programming. I'm dealing with numerical methods. –  yCalleecharan Apr 18 '10 at 17:21
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+1 I disagree with the answer, but the link offers several useful heuristics to guide the questioner. –  trashgod Apr 18 '10 at 21:24
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I think CVS-2600Hertz-wordpres is claiming that it's easier to hand-optimize C code, which is probably true, but except in very unusual circumstances that's not much of an advantage. A less explicit language can give the compiler more room to optimize in. –  David Thornley Apr 20 '10 at 20:13
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Yes I do. Do you honestly think every joe schmoe is better at assembly-level optimization than the compiler writers? On a modern processor you have to take into account things like CPU pipelines, cache archtecture, predictive branching, etc. I'll assume you are that good. But for us meer mortals the compiler, operating with full knoweldge of what's going on in the hardware and full benifit of the compiler author's skills, and with the eyeballs of every compiler user to help flush out bugs, is going to do so much better a job of optimization than we can do that it just isn't comparable. –  T.E.D. Apr 22 '10 at 13:09
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