Beispiel #1
0
static void test_dynamic_change(void)
{
  msg_host_t pm0 = MSG_host_by_name("Fafard");

  msg_host_t vm0 = MSG_vm_create_core(pm0, "VM0");
  msg_host_t vm1 = MSG_vm_create_core(pm0, "VM1");
  MSG_vm_start(vm0);
  MSG_vm_start(vm1);

  msg_task_t task0 = MSG_task_create("Task0", DOUBLE_MAX, 0, NULL);
  msg_task_t task1 = MSG_task_create("Task1", DOUBLE_MAX, 0, NULL);
  MSG_process_create("worker0", worker_busy_loop_main, &task0, vm0);
  MSG_process_create("worker1", worker_busy_loop_main, &task1, vm1);

  double task0_remain_prev = MSG_task_get_flops_amount(task0);
  double task1_remain_prev = MSG_task_get_flops_amount(task1);

  const double cpu_speed = MSG_host_get_speed(pm0);
  for (int i = 0; i < 10; i++) {
    double new_bound = (cpu_speed / 10) * i;
    XBT_INFO("set bound of VM1 to %f", new_bound);
    MSG_vm_set_bound(vm1, new_bound);
    MSG_process_sleep(100);

    double task0_remain_now = MSG_task_get_flops_amount(task0);
    double task1_remain_now = MSG_task_get_flops_amount(task1);

    double task0_flops_per_sec = task0_remain_prev - task0_remain_now;
    double task1_flops_per_sec = task1_remain_prev - task1_remain_now;

    XBT_INFO("Task0@VM0: %f flops/s", task0_flops_per_sec / 100);
    XBT_INFO("Task1@VM1: %f flops/s", task1_flops_per_sec / 100);

    task0_remain_prev = task0_remain_now;
    task1_remain_prev = task1_remain_now;
  }

  MSG_process_sleep(2000); // let the tasks end

  MSG_vm_destroy(vm0);
  MSG_vm_destroy(vm1);
}
Beispiel #2
0
static int master_main(int argc, char* argv[])
{
  msg_host_t pm0 = MSG_host_by_name("Fafard");
  msg_host_t pm1 = MSG_host_by_name("Tremblay");
  msg_host_t pm2 = MSG_host_by_name("Bourassa");

  msg_vm_t vm0 = MSG_vm_create_core(pm0, "VM0");
  MSG_vm_set_ramsize(vm0, 1e9); // 1Gbytes
  MSG_vm_start(vm0);

  XBT_INFO("Test: Migrate a VM with %zu Mbytes RAM", MSG_vm_get_ramsize(vm0) / 1000 / 1000);
  vm_migrate(vm0, pm1);

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  MSG_vm_set_ramsize(vm0, 1e8); // 100Mbytes
  MSG_vm_start(vm0);

  XBT_INFO("Test: Migrate a VM with %zu Mbytes RAM", MSG_vm_get_ramsize(vm0) / 1000 / 1000);
  vm_migrate(vm0, pm1);

  MSG_vm_destroy(vm0);

  vm0          = MSG_vm_create_core(pm0, "VM0");
  msg_vm_t vm1 = MSG_vm_create_core(pm0, "VM1");

  MSG_vm_set_ramsize(vm0, 1e9); // 1Gbytes
  MSG_vm_set_ramsize(vm1, 1e9); // 1Gbytes
  MSG_vm_start(vm0);
  MSG_vm_start(vm1);

  XBT_INFO("Test: Migrate two VMs at once from PM0 to PM1");
  vm_migrate_async(vm0, pm1);
  vm_migrate_async(vm1, pm1);
  MSG_process_sleep(10000);

  MSG_vm_destroy(vm0);
  MSG_vm_destroy(vm1);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  vm1 = MSG_vm_create_core(pm0, "VM1");

  MSG_vm_set_ramsize(vm0, 1e9); // 1Gbytes
  MSG_vm_set_ramsize(vm1, 1e9); // 1Gbytes
  MSG_vm_start(vm0);
  MSG_vm_start(vm1);

  XBT_INFO("Test: Migrate two VMs at once to different PMs");
  vm_migrate_async(vm0, pm1);
  vm_migrate_async(vm1, pm2);
  MSG_process_sleep(10000);

  MSG_vm_destroy(vm0);
  MSG_vm_destroy(vm1);

  return 0;
}
Beispiel #3
0
static int dvfs(int argc, char *argv[])
{
  msg_host_t host1 = MSG_host_by_name("MyHost1");
  msg_host_t host2 = MSG_host_by_name("MyHost2");
  msg_host_t host3 = MSG_host_by_name("MyHost3");

  /* Host 1 */
  XBT_INFO("Creating and starting two VMs");
  msg_vm_t vm_host1 = MSG_vm_create(host1, "vm_host1", 4, 2048, 100, NULL, 1024 * 20, 10,50);
  MSG_vm_start(vm_host1);
  msg_vm_t vm_host3 = MSG_vm_create(host3, "vm_host3", 4, 2048, 100, NULL, 1024 * 20, 10,50);
  MSG_vm_start(vm_host3);

  XBT_INFO("Create two tasks on Host1: one inside a VM, the other directly on the host");
  MSG_process_create("p11", worker_func, NULL, vm_host1);
  MSG_process_create("p12", worker_func, NULL, host1);

  XBT_INFO("Create two tasks on Host2: both directly on the host");
  MSG_process_create("p21", worker_func, NULL, host2);
  MSG_process_create("p22", worker_func, NULL, host2);

  XBT_INFO("Create two tasks on Host3: both inside a VM");
  MSG_process_create("p31", worker_func, NULL, vm_host3);
  MSG_process_create("p32", worker_func, NULL, vm_host3);

  XBT_INFO("Wait 5 seconds. The tasks are still running (they run for 3 seconds, but 2 tasks are co-located, "
           "so they run for 6 seconds)");
  MSG_process_sleep(5);
  XBT_INFO("Wait another 5 seconds. The tasks stop at some point in between");
  MSG_process_sleep(5);

  MSG_vm_shutdown(vm_host1);
  MSG_vm_shutdown(vm_host3);
  MSG_vm_destroy(vm_host1);
  MSG_vm_destroy(vm_host3);

  return 0;
}
Beispiel #4
0
static int master_main(int argc, char *argv[])
{
  xbt_dynar_t hosts_dynar = MSG_hosts_as_dynar();
  msg_host_t pm0 = MSG_host_by_name("Fafard");
  msg_vm_t   vm0 = MSG_vm_create_core(pm0, "VM0");
  MSG_vm_start(vm0);

  launch_computation_worker(vm0);

  while(MSG_get_clock()<100) {
  if (atask != NULL)
    XBT_INFO("aTask remaining duration: %g", MSG_task_get_flops_amount(atask));
  MSG_process_sleep(1);
  }

  MSG_process_sleep(10000);
  MSG_vm_destroy(vm0);
  xbt_dynar_free(&hosts_dynar);
  return 1;
}
static int master_main(int argc, char *argv[])
{
  msg_host_t pm0 = MSG_host_by_name("Fafard");
  msg_host_t pm1 = MSG_host_by_name("Tremblay");
  msg_host_t pm2 = MSG_host_by_name("Bourassa");
  msg_vm_t vm0, vm1;
  s_vm_params_t params;
  memset(&params, 0, sizeof(params));

  vm0 = MSG_vm_create_core(pm0, "VM0");
  params.ramsize = 1L * 1000 * 1000 * 1000; // 1Gbytes
  MSG_host_set_params(vm0, &params);
  MSG_vm_start(vm0);

  XBT_INFO("Test: Migrate a VM with %llu Mbytes RAM", params.ramsize / 1000 / 1000);
  vm_migrate(vm0, pm1);

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  params.ramsize = 1L * 1000 * 1000 * 100; // 100Mbytes
  MSG_host_set_params(vm0, &params);
  MSG_vm_start(vm0);

  XBT_INFO("Test: Migrate a VM with %llu Mbytes RAM", params.ramsize / 1000 / 1000);
  vm_migrate(vm0, pm1);

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  vm1 = MSG_vm_create_core(pm0, "VM1");

  params.ramsize = 1L * 1000 * 1000 * 1000; // 1Gbytes
  MSG_host_set_params(vm0, &params);
  MSG_host_set_params(vm1, &params);
  MSG_vm_start(vm0);
  MSG_vm_start(vm1);

  XBT_INFO("Test: Migrate two VMs at once from PM0 to PM1");
  vm_migrate_async(vm0, pm1);
  vm_migrate_async(vm1, pm1);
  MSG_process_sleep(10000);

  MSG_vm_destroy(vm0);
  MSG_vm_destroy(vm1);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  vm1 = MSG_vm_create_core(pm0, "VM1");

  params.ramsize = 1L * 1000 * 1000 * 1000; // 1Gbytes
  MSG_host_set_params(vm0, &params);
  MSG_host_set_params(vm1, &params);
  MSG_vm_start(vm0);
  MSG_vm_start(vm1);

  XBT_INFO("Test: Migrate two VMs at once to different PMs");
  vm_migrate_async(vm0, pm1);
  vm_migrate_async(vm1, pm2);
  MSG_process_sleep(10000);

  MSG_vm_destroy(vm0);
  MSG_vm_destroy(vm1);

  return 0;
}
Beispiel #6
0
static int master_main(int argc, char *argv[])
{
  msg_host_t pm0 = MSG_host_by_name("Fafard");
  msg_host_t pm1 = MSG_host_by_name("Fafard");

  XBT_INFO("# 1. Put a single task on a PM. ");
  test_one_task(pm0);
  XBT_INFO(" ");

  XBT_INFO("# 2. Put two tasks on a PM.");
  test_two_tasks(pm0, pm0);
  XBT_INFO(" ");

  msg_host_t vm0 = MSG_vm_create_core(pm0, "VM0");
  MSG_vm_start(vm0);

  XBT_INFO("# 3. Put a single task on a VM. ");
  test_one_task(vm0);
  XBT_INFO(" ");

  XBT_INFO("# 4. Put two tasks on a VM.");
  test_two_tasks(vm0, vm0);
  XBT_INFO(" ");

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  MSG_vm_start(vm0);

  XBT_INFO("# 6. Put a task on a PM and a task on a VM.");
  test_two_tasks(pm0, vm0);
  XBT_INFO(" ");

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");
  double cpu_speed = MSG_host_get_speed(pm0);
  MSG_vm_set_bound(vm0, cpu_speed / 10);
  MSG_vm_start(vm0);

  XBT_INFO("# 7. Put a single task on the VM capped by 10%%.");
  test_one_task(vm0);
  XBT_INFO(" ");

  XBT_INFO("# 8. Put two tasks on the VM capped by 10%%.");
  test_two_tasks(vm0, vm0);
  XBT_INFO(" ");

  XBT_INFO("# 9. Put a task on a PM and a task on the VM capped by 10%%.");
  test_two_tasks(pm0, vm0);
  XBT_INFO(" ");

  MSG_vm_destroy(vm0);

  vm0 = MSG_vm_create_core(pm0, "VM0");

  s_vm_params_t params;
  memset(&params, 0, sizeof(params));
  params.ramsize = 1L * 1000 * 1000 * 1000; // 1Gbytes
  MSG_host_set_params(vm0, &params);
  MSG_vm_start(vm0);

  cpu_speed = MSG_host_get_speed(pm0);
  MSG_vm_start(vm0);

  XBT_INFO("# 10. Test migration");
  const double computation_amount = cpu_speed * 10;

  XBT_INFO("# 10. (a) Put a task on a VM without any bound.");
  launch_worker(vm0, "worker0", computation_amount, 0, 0);
  MSG_process_sleep(1000);
  XBT_INFO(" ");

  XBT_INFO("# 10. (b) set 10%% bound to the VM, and then put a task on the VM.");
  MSG_vm_set_bound(vm0, cpu_speed / 10);
  launch_worker(vm0, "worker0", computation_amount, 0, 0);
  MSG_process_sleep(1000);
  XBT_INFO(" ");

  XBT_INFO("# 10. (c) migrate");
  MSG_vm_migrate(vm0, pm1);
  XBT_INFO(" ");

  XBT_INFO("# 10. (d) Put a task again on the VM.");
  launch_worker(vm0, "worker0", computation_amount, 0, 0);
  MSG_process_sleep(1000);
  XBT_INFO(" ");

  MSG_vm_destroy(vm0);

  XBT_INFO("# 11. Change a bound dynamically.");
  test_dynamic_change();

  return 0;
}
Beispiel #7
0
JNIEXPORT void JNICALL Java_org_simgrid_msg_VM_nativeFinalize(JNIEnv *env, jobject jvm)
{
  msg_vm_t vm = jvm_get_native(env,jvm);
  MSG_vm_destroy(vm);
}