from collections import defaultdict class Combinatorics: def __init__(self, N, mod): ''' Preprocess for calculating binomial coefficients nCr (0 <= r <= n, 0 <= n <= N) over the finite field Z/(mod)Z. Input: N (int): maximum n mod (int): a prime number. The order of the field Z/(mod)Z over which nCr is calculated. ''' self.mod = mod self.fact = {i: None for i in range(N+1)} # n! self.inverse = {i: None for i in range(1, N+1)} # inverse of n in the field Z/(MOD)Z self.fact_inverse = {i: None for i in range(N+1)} # inverse of n! in the field Z/(MOD)Z # preprocess self.fact[0] = self.fact[1] = 1 self.fact_inverse[0] = self.fact_inverse[1] = 1 self.inverse[1] = 1 for i in range(2, N+1): self.fact[i] = i * self.fact[i-1] % self.mod q, r = divmod(self.mod, i) self.inverse[i] = (- (q % self.mod) * self.inverse[r]) % self.mod self.fact_inverse[i] = self.inverse[i] * self.fact_inverse[i-1] % self.mod def perm(self, n, r): ''' Calculate nPr = n! / (n-r)! % mod ''' if n < r or n < 0 or r < 0: return 0 else: return (self.fact[n] * self.fact_inverse[n-r]) % self.mod def binom(self, n, r): ''' Calculate nCr = n! /(r! (n-r)!) % mod ''' if n < r or n < 0 or r < 0: return 0 else: return self.fact[n] * (self.fact_inverse[r] * self.fact_inverse[n-r] % self.mod) % self.mod def hom(self, n, r): ''' Calculate nHr = {n+r-1}Cr % mod. Assign r objects to one of n classes. Arrangement of r circles and n-1 partitions: o o o | o o | | | o | | | o o | | o ''' if n == 0 and r > 0: return 0 if n >= 0 and r == 0: return 1 return self.binom(n + r - 1, r) N, M = map(int, input().split()) MOD = 10**9 + 7 com = Combinatorics(M, MOD) ans = 0 for i in range(M): if i % 2 == 0: ans = (ans + com.binom(M, i) * pow(M - i, N, MOD)) % MOD else: ans = (ans - com.binom(M, i) * pow(M - i, N, MOD)) % MOD print(ans)