In the literature, efficiently = polynomially.
Note that even if you know you can fill the square completely - finding ALL the possible ways to do it is exponential, since there are exponential number of those.
Have a look on a 6K * 6K board. One way to fill it is to reduce it to K^2 subsquares all of size 6*6, for each of these you can either use (6,3) or (3,6) to create it - resulting in
2^(K^2) possible ways to fill the square. (and we still didn't cover all possible ways to do it).
Thus, generating ALL solutions cannot be done polynomialy (=efficiently).
I would go for some backtracking / exhaustive search solution to check all possible placemenets to get the desired result.
Original answer, disregards some issues in the specific problem, and facing a more general variation of it (the board given is a rectangle, not a square, the tiles are not fix sizes):
However, the problem of determining if there is any possible way to fill a
square rectangle1 completely is NP-Hard, A private case of it (Given a "board" and one possible rectangle of size nxm) is discussed in this thread, and is proved to be NP-Hard, thus there is no known polynomial solution for this problem.
Since determining if there is any possible tiling is NP-Hard, finding all of them (or even one of them) cannot be done polynomially as well (unless P=NP, but most consider it unlikely).
(1) The original answer writes square but assume rectangle. For squares it might be easier to find a single answer, and the reduction does not hold.