So here is how you could do it. I know it's kinda wordy, that probably is because I'm not really fluent in Prolog either...
% Lookup a value in a list by it's index.
% this should be built into prolog?
at(0, [H|_], H).
at(N, [_|T], X) :-
N > 0,
N1 is N - 1,
at(N1, T, X).
% like Haskell's maximumBy; takes a predicate, a
% list and an initial maximum value, finds the
% maximum value in a list
maxby(_, , M, M).
maxby(P, [H|T], M0, M) :-
call(P, H, M0, M1),
maxby(P, T, M1, M).
% which of two paths has the bigger score?
maxval(path(C, I), path(C1, _), path(C, I)) :- C >= C1.
maxval(path(C0, _), path(C, I), path(C, I)) :- C0 < C.
% generate N empty paths as a starting value for
% our search
initpaths(N, Ps) :-
between(0, N, _),
% given the known best paths to all indexes in the previous
% line and and index I in the current line, select the best
% path leading to I.
select(Ps, I, N, P) :-
I0 is I-1,
I1 is I+1,
select(Ps, I0, N, path(-1, ), P0),
select(Ps, I, N, P0, P1),
select(Ps, I1, N, P1, P).
% given the known best paths to the previous line (Ps),
% an index I and a preliminary choice P0, select the path
% leading to the index I (in the previous line) if I is within
% the range 0..N and its score is greater than the preliminary
% choice. Stay with the latter otherwise.
select(_, I, _, P0, P0) :- I < 0.
select(_, I, N, P0, P0) :- I > N.
select(Ps, I, _, P0, P) :-
at(I, Ps, P1),
maxby(maxval, [P0], P1, P).
% given the known best paths to the previous line (P1),
% and a Row, which is the current line, extend P1 to a
% new list of paths P indicating the best paths to the
% current line.
update(P1, P, Row, N) :-
( between(0, N, X)
, select(P1, X, N, path(C0, Is))
, at(X, Row, C1)
, C is C0 + C1),
% solve the puzzle by starting with a list of empty paths
% and updating it as long as there are still more rows in
% the square.
solve(Rows, Score, Path) :-
Rows = [R|_],
N is N0 - 1,
solve(N, Rows, IP, Score, Path).
solve(_, , P, Score, Path) :-
maxby(maxval, P, path(-1, ), path(Score, Is0)),
solve(N, [R|Rows], P0, Score, Path) :-
update(P0, P1, R, N),
solve(N, Rows, P1, Score, Path).
Shall we try it out? Here are your examples:
?- solve([[0,2,1,0], [0,1,1,0], [0,10,20,30]], Score, Path).
Score = 33,
Path = [1, 2, 3] ;
?- solve([[0,1,1], [0,2,1], [10,0,0]], Score, Path).
Score = 13,
Path = [1, 1, 0] ;