コード例 #1
0
ファイル: demo.cpp プロジェクト: Paik/EagleTree
int main()
{
	printf("Running EagleTree\n");
	set_small_SSD_config();
	string name  = "/demo_output/";
	Experiment::create_base_folder(name.c_str());
	Experiment* e = new Experiment();
	Workload_Definition* workload = new Example_Workload();
	e->set_workload(workload);
	e->set_io_limit(1000000);
	e->run("test");
	e->draw_graphs();
	delete workload;
	return 0;
}
コード例 #2
0
ファイル: greedy_demo.cpp プロジェクト: simdj/SuperEagleTree
int main()
{
	printf("Running EagleTree\n");
	set_small_SSD_config();
//	set_big_SSD_config();

	//gogo greedy
	// GARBAGE_COLLECTION_POLICY = 0;
	// string name  = "/greedy_demo_output/";

	// gogo LRU
	GARBAGE_COLLECTION_POLICY = 1;
	string name  = "/lru_demo_output/";

	//gogo dj
//		GARBAGE_COLLECTION_POLICY = 2;
//	string name  = "/demo_output_500/";


	FTL_DESIGN = 1;	// using DFTL
	SCHEDULING_SCHEME = 7;
	PRINT_LEVEL = 0;
	MAX_SSD_QUEUE_SIZE = 16;
	ftl_cache::CACHED_ENTRIES_THRESHOLD = pow(2,15);		// SRAM fitting 256 kb, or 2^25 entries,
	DFTL::ENTRIES_PER_TRANSLATION_PAGE = 128;

	Experiment::create_base_folder(name.c_str());
	Experiment* e = new Experiment();
	Workload_Definition* workload = new Example_Workload();
	e->set_workload(workload);
	printf("NUMBER_OF_ADDRESSABLE_PAGES: %d  %d\n", NUMBER_OF_ADDRESSABLE_PAGES(), (int)(NUMBER_OF_ADDRESSABLE_PAGES() * OVER_PROVISIONING_FACTOR));
	e->set_io_limit(3000000);
//	e->set_io_limit(30000000);
//	e->set_io_limit(pow(2,0));
	e->run("test");
	e->draw_graphs();
	delete workload;
	return 0;
}
コード例 #3
0
ファイル: demo1.cpp プロジェクト: Paik/EagleTree
int main()
{
	printf("Running EagleTree\n");
	set_small_SSD_config();
	string name  = "/demo_output/";
	Experiment::create_base_folder(name.c_str());
	Workload_Definition* init = new Init_Workload();
	string calibration_file = "calib.txt";
	SCHEDULING_SCHEME = 1; // use the noop IO scheduler during calibration because it's fastest in terms of real execution time
	Experiment::calibrate_and_save(init, calibration_file);
	delete init;
	Experiment* e = new Experiment();
	e->set_calibration_file(calibration_file);
	Workload_Definition* workload = new Asynch_Random_Workload();
	e->set_workload(workload);
	e->set_io_limit(1000000);
	SCHEDULING_SCHEME = 0; // use a fifo IO scheduler during the actual experiment
	e->run("test");
	e->draw_graphs();
	delete workload;
	return 0;
}