class Combination: def __init__(self, MX=10**6, MOD=998244353): self.MX = MX self.MOD = MOD self.fact = [1] * (MX + 1) self.inv = [1] * (MX + 1) self.f_inv = [1] * (MX + 1) for i in range(2, MX + 1): self.fact[i] = (self.fact[i - 1] * i) % self.MOD self.inv[i] = ( - (self.MOD // i) * (self.inv[self.MOD % i])) % self.MOD self.f_inv[i] = (self.f_inv[i - 1] * self.inv[i]) % self.MOD def invs(self, n): if n <= self.MX: return self.inv[n] else: return pow(n, self.MOD - 2, self.MOD) def p(self, n, r): if r > n or r < 0: return 0 return (self.fact[n] * self.f_inv[r]) % self.MOD def c(self, n, r): if r > n or r < 0: return 0 return (self.fact[n] * self.f_inv[r] * self.f_inv[n - r]) % self.MOD MOD = 998244353 com = Combination() H, W, K = map(int, input().split()) ans = 0 for h in range(1, H + 1): if K % h == 0: w = K // h ans += com.c(H, h) * com.c(W, w) ans %= MOD print(ans)