/* StarPUf --- Runtime system for heterogeneous multicore architectures. * * Copyright (C) 2010-2012 INRIA * * StarPU is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * StarPU is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * See the GNU Lesser General Public License in COPYING.LGPL for more details. */ #ifndef SC_HYPERVISOR_POLICY_H #define SC_HYPERVISOR_POLICY_H #include #ifdef __cplusplus extern "C" { #endif #define HYPERVISOR_REDIM_SAMPLE 0.02 #define HYPERVISOR_START_REDIM_SAMPLE 0.1 #define SC_NOTHING 0 #define SC_IDLE 1 #define SC_SPEED 2 struct sc_hypervisor_policy_task_pool { struct starpu_codelet *cl; uint32_t footprint; unsigned sched_ctx_id; unsigned long n; size_t data_size; struct sc_hypervisor_policy_task_pool *next; }; /* add task information to a task wrapper linked list */ void sc_hypervisor_policy_add_task_to_pool(struct starpu_codelet *cl, unsigned sched_ctx, uint32_t footprint, struct sc_hypervisor_policy_task_pool **task_pools, size_t data_size); /* remove task information from a task wrapper linked list */ void sc_hypervisor_policy_remove_task_from_pool(struct starpu_task *task, uint32_t footprint, struct sc_hypervisor_policy_task_pool **task_pools); /* clone a task wrapper linked list */ struct sc_hypervisor_policy_task_pool* sc_hypervisor_policy_clone_task_pool(struct sc_hypervisor_policy_task_pool *tp); /* get the execution time of the submitted tasks out of starpu's calibration files */ void sc_hypervisor_get_tasks_times(int nw, int nt, double times[nw][nt], int *workers, unsigned size_ctxs, struct sc_hypervisor_policy_task_pool *task_pools); /* find the context with the lowest priority in order to move some workers */ unsigned sc_hypervisor_find_lowest_prio_sched_ctx(unsigned req_sched_ctx, int nworkers_to_move); /* find the first most idle workers of a context*/ int* sc_hypervisor_get_idlest_workers(unsigned sched_ctx, int *nworkers, enum starpu_worker_archtype arch); /* find the first most idle workers in a list */ int* sc_hypervisor_get_idlest_workers_in_list(int *start, int *workers, int nall_workers, int *nworkers, enum starpu_worker_archtype arch); /* find workers that can be moved from a context (if the constraints of min, max, etc allow this) */ unsigned sc_hypervisor_get_movable_nworkers(struct sc_hypervisor_policy_config *config, unsigned sched_ctx, enum starpu_worker_archtype arch); /* compute how many workers should be moved from this context */ int sc_hypervisor_compute_nworkers_to_move(unsigned req_sched_ctx); /* check the policy's constraints in order to resize */ unsigned sc_hypervisor_policy_resize(unsigned sender_sched_ctx, unsigned receiver_sched_ctx, unsigned force_resize, unsigned now); /* check the policy's constraints in order to resize and find a context willing the resources */ unsigned sc_hypervisor_policy_resize_to_unknown_receiver(unsigned sender_sched_ctx, unsigned now); /* compute the speed of a context */ double sc_hypervisor_get_ctx_speed(struct sc_hypervisor_wrapper* sc_w); /* get the time of execution of the slowest context */ double sc_hypervisor_get_slowest_ctx_exec_time(void); /* get the time of execution of the fastest context */ double sc_hypervisor_get_fastest_ctx_exec_time(void); /* compute the speed of a workers in a context */ double sc_hypervisor_get_speed_per_worker(struct sc_hypervisor_wrapper *sc_w, unsigned worker); /* compute the speed of a type of worker in a context */ double sc_hypervisor_get_speed_per_worker_type(struct sc_hypervisor_wrapper* sc_w, enum starpu_worker_archtype arch); /* compute the speed of a type of worker in a context depending on its history */ double sc_hypervisor_get_ref_speed_per_worker_type(struct sc_hypervisor_wrapper* sc_w, enum starpu_worker_archtype arch); /* get the list of workers grouped by type */ void sc_hypervisor_group_workers_by_type(int *workers, int nworkers, int ntypes_of_workers, int total_nw[ntypes_of_workers]); /* check if we trigger resizing or not */ unsigned sc_hypervisor_criteria_fulfilled(unsigned sched_ctx, int worker); /* check if worker was idle long enough */ unsigned sc_hypervisor_check_idle(unsigned sched_ctx, int worker); /* check if there is a speed gap btw ctxs */ unsigned sc_hypervisor_check_speed_gap_btw_ctxs(void); /* check what triggers resizing (idle, speed, etc.)*/ unsigned sc_hypervisor_get_resize_criteria(); #ifdef __cplusplus } #endif #endif