def II() -> int : return int(input()) def MI() -> int : return map(int, input().split()) def TI() -> tuple[int] : return tuple(MI()) def LI() -> list[int] : return list(MI()) class fenwick_tree(): n=1 data=[0 for i in range(n)] def __init__(self,N): self.n=N self.data=[0 for i in range(N)] def add(self,p,x): assert 0<=p0): s+=self.data[r-1] r-=r&-r return s n = II() a = LI() ans = 0 for i in range(n): for j in range(n): ans += abs(i-j)*abs(a[i]-a[j]) print(ans)