from collections import *
from itertools import *
from functools import *
from heapq import *
import sys,math
input = sys.stdin.readline
mod = 998244353

class combination():
    
    def __init__(self,N,p):
        
        
        self.fact = [1, 1]  # fact[n] = (n! mod p)
        self.factinv = [1, 1]  # factinv[n] = ((n!)^(-1) mod p)
        self.inv = [0, 1]  # factinv 計算用
        self.p = p
        self.N = N
        
        
        for i in range(2, N + 1):
            self.fact.append((self.fact[-1] * i) % p)
            self.inv.append((-self.inv[p % i] * (p // i)) % p)
            self.factinv.append((self.factinv[-1] * self.inv[-1]) % p)
        

    def cmb(self,n, r):
        if (r < 0) or (n < r):
            return 0
            
        if self.N < n:
            
            r = min(n-r,r)
            
            tmp = factinv[r]
            for j in range(r):
                tmp = tmp*(n-j)%sefl.p
            return tmp
                
            
        r = min(r, n - r)
        return self.fact[n] * self.factinv[r] * self.factinv[n-r] % self.p
        

N,M = map(int,input().split())

M = abs(M)

def md(n):
    lower_divisors , upper_divisors = [], []
    i = 1
    while i*i <= n:
        if n % i == 0:
            lower_divisors.append(i)
            if i != n // i:
                upper_divisors.append(n//i)
        i += 1
    return lower_divisors + upper_divisors[::-1]
    
C = combination(N+1,mod)

ans = 0
for p in md(M):
    
    u,v = p,M//p
    
    if ((N-u)%2==1)|((N-v)%2==1):
        continue
    if u>N:
        continue
    if v>N:
        continue
    
    du = (N-u)//2
    dv = (N-v)//2
    ans += C.cmb(N,du)*C.cmb(N,dv)*2%mod
print(ans*pow(4,N*(mod-2),mod)%mod)