import java.util.*; import java.io.*; import java.math.*; public class Main{ static void solve(){//Here is the main function ArrayList one = nextIntArray(); int N = one.get(0); int H = one.get(1); ArrayList list = nextIntArray(); TreeMap map = getPrimeFactorization(H); for(int i = 0; i < N; i++){ TreeMap now = getPrimeFactorization(list.get(i)); Iterator keys = now.keySet().iterator(); while(keys.hasNext()){ int k = keys.next(); if(map.containsKey(k)){ if(map.get(k) - now.get(k) <= 0){ map.remove(k); }else{ map.put(k, map.get(k) - now.get(k)); } } } } if(map.keySet().size() == 0){ myout("YES"); }else{ myout("NO"); } } //Method addition frame start static boolean isPrime(long val){ if(val <= 1 || (val != 2 && val % 2 == 0)){ return false; }else if(val == 2){ return true; } double root = Math.floor(Math.sqrt(val)); for(long i = 3; i <= root; i += 2){ if(val % i == 0){ return false; } } return true; } static TreeMap getPrimeFactorization(Integer val){ TreeMap primeList = new TreeMap<>(); if(isPrime(val)){ primeList.put(val, 1); return primeList; } int div = 2; while(val != 1){ if(val % div == 0){ int count = 2; while(val % (int)Math.pow(div, count) == 0){ count++; } if(primeList.get(div) == null){ primeList.put(div, count - 1); }else{ primeList.put(div, primeList.get(div) + (count - 1)); } val /= (int)Math.pow(div, count - 1); if(isPrime(val)){ if(primeList.get(val) == null){ primeList.put(val, 1); }else{ primeList.put(val,primeList.get(val) + 1); } break; } }else{ div = (div == 2) ? div + 1 : div + 2; } } return primeList; } //Method addition frame end //Don't have to see. start------------------------------------------ static class InputIterator{ ArrayList inputLine = new ArrayList(1024); int index = 0; int max; String read; InputIterator(){ BufferedReader br = new BufferedReader(new InputStreamReader(System.in)); try{ while((read = br.readLine()) != null){ inputLine.add(read); } }catch(IOException e){} max = inputLine.size(); } boolean hasNext(){return (index < max);} String next(){ if(hasNext()){ return inputLine.get(index++); }else{ throw new IndexOutOfBoundsException("There is no more input"); } } } static HashMap CONVSTR = new HashMap(); static InputIterator ii = new InputIterator();//This class cannot be used in reactive problem. static PrintWriter out = new PrintWriter(System.out); static void flush(){out.flush();} static void myout(Object t){out.println(t);} static void myerr(Object t){System.err.print("debug:");System.err.println(t);} static String next(){return ii.next();} static boolean hasNext(){return ii.hasNext();} static int nextInt(){return Integer.parseInt(next());} static long nextLong(){return Long.parseLong(next());} static double nextDouble(){return Double.parseDouble(next());} static ArrayList nextStrArray(){return myconv(next(), 8);} static ArrayList nextCharArray(){return myconv(next(), 0);} static ArrayList nextIntArray(){ ArrayList input = nextStrArray(); ArrayList ret = new ArrayList(input.size()); for(int i = 0; i < input.size(); i++){ ret.add(Integer.parseInt(input.get(i))); } return ret; } static ArrayList nextLongArray(){ ArrayList input = nextStrArray(); ArrayList ret = new ArrayList(input.size()); for(int i = 0; i < input.size(); i++){ ret.add(Long.parseLong(input.get(i))); } return ret; } @SuppressWarnings("unchecked") static String myconv(Object list, int no){//only join String joinString = CONVSTR.get(no); if(list instanceof String[]){ return String.join(joinString, (String[])list); }else if(list instanceof ArrayList){ return String.join(joinString, (ArrayList)list); }else{ throw new ClassCastException("Don't join"); } } static ArrayList myconv(String str, int no){//only split String splitString = CONVSTR.get(no); return new ArrayList(Arrays.asList(str.split(splitString))); } public static void main(String[] args){ CONVSTR.put(8, " "); CONVSTR.put(9, "\n"); CONVSTR.put(0, ""); solve();flush(); } //Don't have to see. end------------------------------------------ }