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I happened to debate with a friend during college days whether advanced mathematics is necessary for any veteran programmer. He used to argue fiercely against that. He said that programmers need only basic mathematical knowledge from high school or fresh year college math, no more no less, and that almost all of programming tasks can be achieved without even need for advanced math. He argued, however, that algorithms are fundamental & must-have asset for programmers.

My stance was that all computer science advances depended almost solely on mathematics advances, and therefore a thorough knowledge in mathematics would help programmers greatly when they're working with real-world challenging problems.

I still cannot settle on which side of the arguments is correct. Could you tell us your stance, from your own experience?


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I called up my hs math teacher ten years later just to tell him I never used advanced math my whole career. Dick move, I know, but great question! Plus one. – Chris McCall Oct 17 '09 at 4:44

71 Answers 71

Programming requires you to master, or at least learn, two subjects. Programming itself and what ever domain your program is for. If you are writing accounting software, you need to learn accounting, if you are programming robot kinematics, then you need to understand forward and reverse kinematics. Account might only take basic math skills, other domains take other types of math.


Programming is a tool of computer science.

In many area's of programming, math is in the back seat. If you don't know how to quick sort, download a module to do it for you. You don't understand elliptical curves, no problem, buy an AES encryption module.

Now for computer science. Yes, you need higher level math. No doubt about it. Cryptography, operating systems, compiler construction, machine learning, programming languages, and so on all require some form of higher math (calculus, discrete, linear, complex) to fully understand.

Compiler construction requires higher math? – Victor Nov 1 '10 at 10:26

Nope, don't need math. Haven't done any since I graduated, and probably forgotten what little calculus I mastered anyway.

Think of it like a car. How much math/physics do you think is behind things like traction control and ABS braking? Lots. How much math do you need to know to use those tools? None.

EDIT: One thing to add. Industry is probably important here. A programmer working at a research firm, or writing embedded traction control systems for that car, is probably far more likely to need math than your average business tool programmer.


It's important to keep perspective. Learning math, advanced math, calc, etc. is great for thought processes and many programming positions expect and may make use of math and math concepts. But many programming jobs use little to no math at all.

Computer science, being a math discipline, of course requires lots of math. But few programming jobs are derivatives of comp sci. CS is a very specific discipline. There is a reason why IT schools now have Software Engineering as a separate discipline from CS. They are very different fields.

Comp Sci, for example, does not prepare you well for the world of most web applications. And software engineering does not prepare you well for compiler design and kernel development.


I used a great deal of math when I was solving problems in solid mechanics and heat transfer using computers. Linear algebra, numerical methods, etc.

I never tap into any of that knowledge now that I'm writing business applications that deliver information from relational databases to web-based user interfaces.

I still would recommend a better math background to anyone.

Discrete math is very helpful to a developer; I have no formal training in it.

I think the techniques laid out in "Programming Collective Intelligence" are far from the stuff I did as an ME and could fall into the business apps that I'm doing now. Netflix has certainly made a nice business out of it. This group intelligence stuff appears to be on the rise.


To answer the question: no.

Mathematical talent and programming talent: strong correlation, little to no causality.

One is certainly not a prerequisite for the other, and beefing up your math skills isn't going to make you a better programmer unless you're programming in one of the specialized domains where math is pretty integral (3D graphics, statistics programming, etc.)

That said, of course a math background will certainly not hurt and will greatly help you in some cases. And as others have noted the thought processes involved in mathematics and programming are quite similar; if you have an talent for one you'll probably find you have a talent for the other.

If I was going to recommend a math requirement for programmers it'd be some basic statistics. Nearly all programming jobs require a little reporting of some sort.

The need for mathematics does increase a little as you start to do more of the advanced and/or fun stuff. Games are pretty math-heavy, so are performance-critical applications where you really need to understand the costs of different algorithms.


I'm going to sit right on the fence with you here... there are a lot of good arguments both for and against, and all of most of them equally valid. So which is the right answer?

Both...depending on the situation. This isn't a case of "if you're not with us, you're against us".

There are many aspects of math that do make areas of programming much easier: geometry, algebra, trigonometry, linear equations, quadratic equations, derivatives etc. In fact a lot of the highest performance "algorithms" have mathematical principles at their heart.

As Jon pointed out, he's got a degree in maths but in the programming world he barely uses that knowledge. I propose that he does use maths far more than he probably considers, albeit unconsiously...okay, maybe not quantum mechanics, but the more basic principles. Every time we lay out a GUI we use mathematical principles to design in an aesthetically pleasing manner, we don't do that consciously - but we do do it.

In the business world, we rarely think about the maths we use in our software - and in a lot of aspects of the software we write, it's just standard algorithms to complete the same monotonous tasks to help the business world catch up with the technology that's available.

It would be quite easy to skip through a whole career without ever consciously using math in our software. However, having an understanding of maths helps make many aspects of programming simpler.

I think the question really boils down to: "Is advanced math necessary for programming?" and of course, to that question the answer is no... unless you're going to start getting into writing and/or cracking encryption algorithms (which is a fascinating subject) or working with hydraulic equations as Mil pointed out or flow control systems (as I have in the past). But I would have add that while basic math may not be necessary, it will make your life a lot easier.


I have a degree in math, and I can't say it has helped me in any way. (I develop general web apps, nothing scientific). I enjoy working with other developers with non-math degrees because they seem to think outside my "math" box and force me to do the same.


Necessary != Sufficient

Come on guys! the title says "necessary", I would argue that it is at best a sufficient condition to be able to program well. Just like their are many sufficient but not necessary conditions: 5 yrs experience, a CS Degree, or any scientific background.

Some could even argue that being a Poet or English major could make you a good API designer or that an Artist could be good at UI/Web programming.

But these are obviously not guarantees, just like knowing math may not make you a good programmer, but you could hack out some C++ or F# like the rest anyway...


My response is absolutely not. I was/am (now unemloyed, thanks India) a computer programmer for 25+ year. And, in my whole career I NEVER encountered program LOGIC that required more than basic math skills. Unless you work with math everyday that exceeds basic math skills, the need for advanced math is nill. At the corporate level any complex math WILL be referred to a statician or mathematicain, who will provide the programmer with the necessary pseudo code, and both will collaborate in the thorough testing of the end product. Ultimately the ball is in the math nerd's court. At any level unless you're a mathmetician/statician/senior programmer the thought of having a programmer responsible for the expected results of a complex advanced math computer program is absurd, and very foolhardy.


In my experience the Math requirement for a Computer Science degree exists simply to weed out those who will fail. If you cannot pass Calculus I and II you will most definitely not pass an advanced course on compiler construction, database or operating systems theory.


Discrete math I found very helpful. I took Calculus, and there are some times it might have been very helpful too, but I don't remember any of it. For instance, the time I was trying to implement a DIS interface (which deals with things like rotational velocities and coordinate transformations). I spent a day driving all over town looking for a book to explain quaternions to me (this was pre-WWW). There was also a time I ended up needing to write a facility for some engineers to impliment n-linear interpolation. If you have no clue what that means, believe me I didn't either. Fortuntely, that was post-WWW.

My advice is to not sweat it. You may be hamstrung on a project or two, but not all that badly these days.


As a self taught programmer who started working on games about 30 years ago I would definitely say you need to get as much math as you can. Things like matrices, quaternions, ray tracing, particle systems, physics engines and such do require a good level of math comprehension and I only wish that I had learned all those things much earlier.


I work as a game programmer, in a team with artists, game designers, level designers, etc.

Having someone on the team who knows some maths is a net plus, just as it is a plus to have someone who plays all kinds of games, someone who'se a representative member of our target audience, someone who lived through some painful productions, etc.

Often, the ones who know the most maths will be programmers (sometimes game designers), because the domains are close enough. But, day to day, game programmers don't need much maths beyond 3D geometry and (sometimes) physics.

Among the maths I studied, I found statistics the most useful, though I sometimes find myself missing some concepts.


It's not required by a long shot, but...

As a trivial example--Without an understanding of geometry, you couldn't do a lot of stuff with squares and rectangles. (Every programmer has/gets geometry, so it's just an example).

Without trigonometry, there are certain things that are tough to do. Try to draw an analog clock with no understanding of trigonometry -- you can do it, but the process you have to go through is essentially re-inventing trigonometry.

Calculus is interesting. You'll probably never need it unless you design games, but calculus teaches you how to model things that act much more "Real world". For instance, if you try to model a tree falling, to get the speed right at every point along the arch you probably need a good deal of math.

On the other hand, it's just a matter of being exact. Anything you can do with calculus you can probably do with looping and approximations.

Beyond that, to make things even more life-like, you will probably need fractals and more advanced math.

If you are programming web sites and databases, you hardly need algebra 101.


See also Is Programmng == Math? from stackoverflow.

While I don't think it's required for programming, I can't tell you how many times I've been able to use linear algebra concepts to write a clear and short solution to replace a convoluted (and sometimes incorrect) one. When dong any graphics or geometry (and even some solver) work, knowledge of matrices and how to work with them has also been extremely useful.


There are plenty of programming tasks that can be done well without a background in advanced math. It is probably safe to say the majority of programming jobs available will rarely require anything more than high school level math. But you are not going to write the software that helps put the shuttle in space by hacking away with your freshman college algebra math level. So, while advanced math is usually not vital to many programming tasks the more difficult problems will absolutely require it. Studying math also teaches valuable problem solving skills that can be used almost anywhere. I guess you could say it's not necessary most of the time, but it's certainly going to help almost all of the time.


For your general GUI and Web applications only basic mathematics knowledge will ever be needed.

Once a lifetime you might have an odd project where you need calculus or linear algebra.

(If you do 3D game programming or some other specific field of programming, you might need it everyday thou)


There are some good points to this question in my opinion.

As David Nehme posted here, computer science and programming are two very different subjects.

I find it perfectly possible that a programmer with very basic high-school and early college math skills may be a competent programmer. Not so sure about the computer science graduate, though.

As you correctly pointed out, the algorithm creation process is very much related to how you crunch math. Even if this is just a result of the type of mathmatical and analytical process you must accomplish to correctly design an algorithm.

I also think it very much depends on what you're doing, more than it depends on your job description or skills. For instance, if the programming and math are both tools to produce some effect, than you surely have to be competent with both (i.e.: you are making a modelization programme for some purpose). Although, if the programming is the ultimate objective of your activity, than math is most probably not required. (i.e.: you are making a web application)


If you need advanced mathematics in your daily job as programmer really depends on your tasks. I need them. The reason is I have to work with hydraulic calculations for piping systems to evaluate in code the piping system before it gets built. You never want to stand near a collapsing piping system because of under or overpressure. ;)

I guess for many other kinds of 'simulations of the real world' you will need advanced mathematics too.


Statistical machine learning techniques are becoming increasingly important.


I feel this question (which I get quite a bit) is best answered with an analogy.

Many of us lift weights. Why? Is it because we're preparing for that day when we become a professional weightlifter? Will we ever encounter the lifting of weights as a job requirement?

Of course not. We lift weights because it exercises our muscles. It keeps us fit and in shape. A fit person will perform better in other areas: hiking, construction, running, sleeping, etc.

Learning mathematics is like weightlifting for the brain. It exercises the mind and keeps it in shape. You may never use calculus in your career, but your brain will be in better shape because of it.


About the only useful things you can learn at university are theoretical.


Maths is as much about a way of thinking as it is about the skills themselves. And even that lies on several levels. Someone else noted that the analytical and abstraction skills common to maths are valuable to programming and that is one level. I would also argue that there is another level which contains precise analogues that carry from one to the other - for example the set theory behind relational databases, which is all hidden by the SQL semantics.

Very often the "best" - by which I mean most performant and concise - solutions are those which have a bit of maths behind them. If you start to think about your data-oriented programming problems as matrix manipulation, which many are, you can often find novel solutions form the world of maths.

Obviously it is not necessary to be a maths expert in order to program, anyone can be taught, but it is one of the skills that is worth having - and looking for in recruits.


In some programming I imagine that math would be most helpful, but not to be a programmer. I'm lucky if I can add 2+2 without my handy dandy calculator.


Depends on the programming task. I would put 'take data from a database and display it on a website' style programming towards the not-so-much side and then 'video games' on the other side (i work in games and I feel like I use some random different flavor of math every day, and would probably use more if i knew more).


Two things come to mind:

  • Context is all-important. If you're a games programmer or in an engineering discipline, then math may be vital for your job. I do database and web development, therefore high school-level math is fine for me.
  • You are very likely to be reusing someone else's pre-built math code rather than reinventing the wheel, especially in fields like encryption and compression. (This may also apply if you're in games development using a third party physics tool or a 3D engine.) Having a framework of tried and tested routines for use in your programs prevents errors and potential security weaknesses - definitely a good thing.

Certian kinds of math I think are indispensible. For instance, every software engineer should know and understand De Morgan's laws, and O notation.

Other kinds are just very useful. In simulation we often have to do a lot of physics modeling. If you are doing graphics work, you will often find yourself needing to write coordinate transformation algorithms. I've had many other situations in my 20 year career where I needed to write up and solve simultanious linear equations to figure out what constants to put into an algorithm.


I admit that I have never used any advanced math in programming except in some pet projects that are about math topics.

That said, I do enjoy to working together with people that are bright enough to grok maths. Mastering complex and difficult stuff helps to get your brain into shape to solve complex and difficult programming problems.


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