import sys # input = lambda :sys.stdin.readline()[:-1] ni = lambda :int(input()) na = lambda :list(map(int,input().split())) yes = lambda :print("yes");Yes = lambda :print("Yes");YES = lambda : print("YES") no = lambda :print("no");No = lambda :print("No");NO = lambda : print("NO") ####################################################################### # Binary Indexed Tree (Fenwick Tree) # 0-indexed class BIT: def __init__(self, n): self.n = n self.data = [0]*(n+1) def sum(self, i): s = 0 while i > 0: s += self.data[i] i -= i & -i return s def add(self, i, x): assert 0 <= i < self.n i = i+1 while i <= self.n: self.data[i] += x i += i & -i def set(self, i, x): assert 0 <= i <= self.n self.add(i,x-self.get(i)) def get(self, i, j): return self.sum(j) - self.sum(i) def lower_bound(self, k):# a[0],…,a[i]>kなる最小のi n = self.n x = 0 r = 1 while r <= n:r <<= 1 size = r while size: if x + size <= n and self.data[x+size] <= k: k-=self.data[x+size] x += size size >>= 1 return x def debug(self): res = [] n = self.n for i in range(n): res.append(self.get(i)) print(*res) n = ni() b = ni() c = na() s = na() c.append(1) s.append(0) n += 1 idx = sorted(range(n), key = lambda i: (c[i], s[i])) c = [c[i] for i in idx] s = [s[i] for i in idx] bits = BIT(n) bit = BIT(n) for i in range(n): bit.add(i, s[i] * c[i]) bits.add(i, s[i]) ans = -10 ** 18 for i in range(1, n): bit.add(i, -s[i] * c[i]) bit.add(0, s[i]) bits.add(i, -s[i]) bits.add(0, s[i]) x = bit.lower_bound(b) y = bit.get(0, x) if x == n: ans = max(ans, bits.get(0, n)) else: # print(i, x, y, bits.get(0, x), (b - y) // c[x]) ans = max(ans, bits.get(0, x) + (b - y) // c[x]) bit.add(i, s[i] * c[i]) bit.add(0, -s[i]) bits.add(i, s[i]) bits.add(0, -s[i]) print(ans)