I am learning erlang and am quite impressed how easy it is to parallelize work. To practice a bit I dug up the good ole Fibanocci sequence. In the following code I try to take advantage of parallelization by computing the expensive products three at a time.
-module (fib4).
-export ( [main/1] ).
main (N) ->
fib (list_to_integer (atom_to_list (hd (N) ) ) ),
halt (0).
path (1, Acc) -> Acc;
path (N, Acc) when N rem 2 =:= 0 ->
path (N - 1, [step | Acc] );
path (N, Acc) ->
path ( (N - 1) div 2, [jump | Acc] ).
fib (N) -> fib (1, 1, path (N, [] ) ).
fib (N, Nplus1, [Last] ) ->
case Last of
step -> Nplus1;
jump -> N * N + Nplus1 * Nplus1
end;
fib (N, Nplus1, [jump | T] ) ->
Pid = self (),
spawn (fun () -> Pid ! {n1sq, Nplus1 * Nplus1} end),
spawn (fun () -> Pid ! {mul, 2 * N * Nplus1} end),
spawn (fun () -> Pid ! {nsq, N * N} end),
{Nsq, N1sq, Mul} = loop (0, 0, 0),
fib (Nsq + N1sq, N1sq + Mul, T);
fib (N, Nplus1, [step | T] ) ->
fib (Nplus1, N + Nplus1, T).
loop (Nsq, N1sq, Mul) ->
receive
{nsq, Val} ->
if
N1sq > 0 andalso Mul > 0 -> {Val, N1sq, Mul};
true -> loop (Val, N1sq, Mul)
end;
{n1sq, Val} ->
if
Mul > 0 andalso Nsq > 0 -> {Nsq, Val, Mul};
true -> loop (Nsq, Val, Mul)
end;
{mul, Val} ->
if
N1sq > 0 andalso Nsq > 0 -> {Nsq, N1sq, Val};
true -> loop (Nsq, N1sq, Val)
end
end.
I am running this code on a Phenom X4 and during the minute it takes on my machine to calculate fib (10000000) only one to two cores are working and the others are idling around.
My questions are:
- Who decides onto how many cores the worker threads are distributed? The erlang node or my OS (ubuntu with 2.6.38 in my case)?
- Do I loose speed due to the fact that two or three cores are idling?
