Example #1
0
int64_t S2_hard(int64_t x,
                int64_t y,
                int64_t z,
                int64_t c,
                int64_t s2_hard_approx,
                int threads)
{
#ifdef HAVE_MPI
  if (mpi_num_procs() > 1)
    return S2_hard_mpi(x, y, z, c, s2_hard_approx, threads);
#endif

  print("");
  print("=== S2_hard(x, y) ===");
  print("Computation of the hard special leaves");
  print(x, y, c, threads);

  double time = get_wtime();
  FactorTable<uint16_t> factors(y, threads);
  int64_t max_prime = z / isqrt(y);
  vector<int32_t> primes = generate_primes(max_prime);

  int64_t s2_hard = S2_hard_OpenMP_master((intfast64_t) x, y, z, c, (intfast64_t) s2_hard_approx, primes, factors, threads);

  print("S2_hard", s2_hard, time);
  return s2_hard;
}
Example #2
0
int128_t S2_hard(int128_t x,
                 int64_t y,
                 int64_t z,
                 int64_t c,
                 int128_t s2_hard_approx,
                 int threads)
{
#ifdef HAVE_MPI
  if (mpi_num_procs() > 1)
    return S2_hard_mpi(x, y, z, c, s2_hard_approx, threads);
#endif

  print("");
  print("=== S2_hard(x, y) ===");
  print("Computation of the hard special leaves");
  print(x, y, c, threads);

  double time = get_time();
  int128_t s2_hard;

  // uses less memory
  if (y <= FactorTable<uint16_t>::max())
  {
    FactorTable<uint16_t> factor(y, threads);
    int64_t max_prime = min(y, z / isqrt(y));
    auto primes = generate_primes<uint32_t>(max_prime);

    s2_hard = S2_hard_OpenMP((intfast128_t) x, y, z, c, (intfast128_t) s2_hard_approx, primes, factor, threads);
  }
  else
  {
    FactorTable<uint32_t> factor(y, threads);
    int64_t max_prime = min(y, z / isqrt(y));
    auto primes = generate_primes<int64_t>(max_prime);

    s2_hard = S2_hard_OpenMP((intfast128_t) x, y, z, c, (intfast128_t) s2_hard_approx, primes, factor, threads);
  }

  print("S2_hard", s2_hard, time);
  return s2_hard;
}