I was trying to understand why math might be so slow in Erlang, and if so, what I could do to find out where it is slow and try to speed it up. Some people said it's because it's a VM, but I doubt that because the JVM is fast at math, and so is V8. Other people said it's because it's an immutable language, but OCaml is immutable and quite fast at math. So what makes Erlang slow at math, and how would I go about finding where in the code it is slow? I can only imagine using DTrace, as I don't know Linux/BSD tools that well that I should use as well, and I don't know which ones would be good at profiling code within a VM and the VM itself, and if those require different tools.
BEAM does not have JIT, so typically the erlang compiler (
erlc) outputs bytecode: Any math operation needs to access the VM registers (which are memory positions), perform the actual operation, place the result in the relevant VM register and then jump to the next instruction. This is quite slow compared to just performing the actual operation in machine code.
If you use any language that compiles directly to machine code (like C), the compiler has a lot more information about the code and the platform and thus is able to use features that speed up execution of the operations like optimizing the processor's pipeline, using vectorized instructions, placing the most accessed variables in processor's registers, optimizing memory access so that they hit the cache...
Furthermore, you should check this question with a comparison between Erlang and C (and others) for a pure math problem
Regarding immutability, it shouldn't have any impact unless your integers are placed on the thread's heap (>60bits) because those are the only ones that require explicit memory handling.
In order to profile Erlang code, you have these tools to deal with Erlang from within.
Lastly, you can always post your snippet here and maybe we'll be able to point something.