From a technical point of view, why is it that a piece of code written to accomplish the same task in idiomatic C# will likely be faster than idiomatic Ruby code?
Specifically, consider Ruby 1.9 and YARV.
closed as not constructive by Andrew Grimm, Bala R, the Tin Man, RameshVel, Richard May 19 '11 at 8:04
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C# is a statically type language whereas Ruby is dynamically typed. Just like any dynamically typed language, any call to objects in Ruby causes lots of type checks (which all happen at runtime as they can't be done at compile time as with statically check languages).
On the other hand, once a object/method call routing is cached in a dynamically typed language, it is as fast as a statically typed language but since there may be innumerable varieties of methods calls during an applications lifetime, this doesn't help much.
With statically typed languages, all the type checking and validation is done during compile-time which eliminates run-time overhead, which makes them multitudes faster especially in specific scenarios.
Edit: When accessing methods and properties in statically-typed languages, lookup routines are generally reduced to static functions. In contrast, in dynamic languages names are strings. Lookups for local variables and methods happen with a search from a hastable which is really expensive and slow.
Check this site out for good comparisons. The reason that C# is so much faster is that the language is compiled (albeit managed which does slow it down a bit since all memory management is handled behind the scenes) whereas Ruby is interpreted. Ruby is written in a compiled language and at run time the script is read in and determinations are made on how the statement works. Variables are not stored directly as memory addresses, instead they are actually stored in either a map of variable names to values or as some other internal datastructure to the compiled language. This means that an access to the variable requires a few more steps to get to.
Compiled languages, variables are stored directly in a memory address and referring to them is a direct access. Also, an if statement in a compiled language is a direct action (CMP) whereas in the interpreted language you will have to determine that it is an if statement and then parse out the parts of the if, then perform a logical if at which point it gets translated into a direct action (CMP).
If you want some extra information about how languages like Perl are written (I say Perl because I'm not familiar with Ruby but I would assume that there might be some C API's that you can use) you should check this site.
Most of this has been talking from a very high level, but historically compiled languages are always faster than interpreted language. Mainly because the compiled languages will already be in a native language for the machine to understand whereas the interpreted language must be converted into actions that the machine can understand.
Ruby is interpreted. This means at runtime the computer figures out what it should do.
C is compiled. Thus the code is already in assembly code for the computer to just run. It doesn't need to parse or compile into bite code.
Other languages like Python are faster because they are older or at least they have addressed more "slow" methods.
At the end of the day ruby is normally fast enough and it gets a bad rap.