import sys import numpy as np read = sys.stdin.buffer.read readline = sys.stdin.buffer.readline readlines = sys.stdin.buffer.readlines MOD=10**9+7 def compute_next_status(status, vertical): status = list(status) deg = [0] * 4 for i, x in enumerate(status): if x != 0: deg[i] = 1 for i in range(3): if vertical & (1<= 3 for x in deg): return None for v in range(4): if deg[v] != 1: status[v] = 0 for n, k in enumerate(set(status)): if k == 0: continue for v in range(4): if status[v] == k: status[v] = n return tuple(status) visited = set([(1,0,0,0)]) q = [(1,0,0,0)] edges = [] while q: v = q.pop() for i in range(8): w = compute_next_status(v, i) if w is None: continue edges.append((v,w)) if w in visited: continue visited.add(w) q.append(w) L = len(visited) A = np.zeros((L,L), dtype=object) v_to_i = {v:i for i,v in enumerate(visited)} i0 = v_to_i[(1,0,0,0)] j0 = v_to_i[(0,0,0,1)] for v,w in edges: A[v_to_i[w], v_to_i[v]] = 1 def mult_mod(A, B, MOD=MOD): mask = (1<<15) - 1 A1, A2 = A>>15, A & mask B1, B2 = B>>15, B&mask X = np.dot(A1, B1) % MOD Z = np.dot(A2, B2) % MOD Y = (np.dot(A1+A2,B1+B2)-X-Z)%MOD return ((X<<30)+(Y<<15)+Z)%MOD def matrix_power(A, n, MOD=MOD): if n == 1: return A B = matrix_power(A, n//2) B = mult_mod(B, B) if n & 1: B = mult_mod(A, B) return B MOD = 10**9 + 7 N = int(read()) print(matrix_power(A, N+1)[j0, i0])