mirror of https://github.com/BOINC/boinc.git
276 lines
8.8 KiB
C
276 lines
8.8 KiB
C
// Berkeley Open Infrastructure for Network Computing
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// http://boinc.berkeley.edu
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// Copyright (C) 2007 University of California
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//
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// This is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation;
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// either version 2.1 of the License, or (at your option) any later version.
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//
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// This software is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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// See the GNU Lesser General Public License for more details.
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//
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// To view the GNU Lesser General Public License visit
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// http://www.gnu.org/copyleft/lesser.html
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// or write to the Free Software Foundation, Inc.,
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// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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#include <vector>
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#include <algorithm>
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#include "edf_sim.h"
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using std::vector;
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//#define TEST
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//#define DEBUG
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#ifdef DEBUG
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#define INFO0
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#define INFO1
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#define INFO2
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#else
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#define INFO0 //
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#define INFO1 //
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#define INFO2 //
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#endif
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// 0 shows initial workload and candidate decisions
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// 1 shows function calls results of sim: make/miss deadline
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// 2 shows every step of sim
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bool lessthan_deadline(const IP_RESULT& p1, const IP_RESULT& p2) {
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if (p1.computation_deadline < p2.computation_deadline) return true;
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return false;
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}
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// run an EDF simulation, marking which results will miss
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// their deadlines and when
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//
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void mark_edf_misses (int ncpus, vector<IP_RESULT>& ip_results){
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vector<IP_RESULT>::iterator ipp_it;
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double booked_to[128];
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int j;
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INFO1 fprintf(stderr, "mark_edf_misses\n");
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// keeps track of when each cpu is next free
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//
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for (j=0; j<ncpus; j++) {
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booked_to[j] = 0;
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}
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// sort ipp_results in ascending order by deadline
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//
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sort(ip_results.begin(), ip_results.end(), lessthan_deadline);
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// simulate edf execution of all queued results
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//
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for (unsigned int i=0; i<ip_results.size(); i++) {
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IP_RESULT& r = ip_results[i];
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// find the CPU that will be free first
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//
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double lowest_booked_time = booked_to[0];
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int lowest_booked_cpu = 0;
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for (j=1; j<ncpus; j++) {
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if (booked_to[j] < lowest_booked_time) {
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lowest_booked_time = booked_to[j];
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lowest_booked_cpu = j;
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}
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}
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booked_to[lowest_booked_cpu] += r.cpu_time_remaining;
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INFO2 fprintf(stderr, " running %s on cpu %d; finishes at %f\n",
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r.name, lowest_booked_cpu, booked_to[lowest_booked_cpu]
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);
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if (booked_to[lowest_booked_cpu] > r.computation_deadline) {
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r.misses_deadline = true;
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r.estimated_completion_time = booked_to[lowest_booked_cpu];
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INFO1 fprintf(stderr, " %s misses_deadline; est completion %f\n",
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r.name, booked_to[lowest_booked_cpu]
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);
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} else {
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r.misses_deadline = false;
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INFO1 fprintf(stderr, " %s makes deadline; est completion %f\n",
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r.name, booked_to[lowest_booked_cpu]
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);
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// if result doesn't miss its deadline,
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// then the estimated_completion_time is of no use
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}
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}
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}
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// For each ip_result, computes computation_deadline from report_deadline,
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// and determines if the deadline would be missed by simulating edf
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//
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void init_ip_results(
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double work_buf_min,
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int ncpus,
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vector<IP_RESULT>& ip_results
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){
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unsigned int i;
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INFO0 fprintf(stderr, "init_ip_results; work_buf_min %f ncpus %d:\n", work_buf_min, ncpus);
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for (i=0; i<ip_results.size(); i++) {
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IP_RESULT& r = ip_results[i];
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r.computation_deadline = r.report_deadline - work_buf_min;
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INFO0 fprintf(stderr, " %s: deadline %.2f cpu %.2f\n",
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r.name, r.computation_deadline, r.cpu_time_remaining
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);
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}
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// run edf simulation to determine whether any results miss their deadline
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//
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mark_edf_misses(ncpus, ip_results);
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}
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#if 0
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// Sort test_results by computation_deadline.
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// For each test result in ascending order of deadline,
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// see whether adding it to the work queue would cause deadline misses
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// or deadline miss delays.
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// If a test result passes these checks, append it to the work queue
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// for further result additions.
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// Return list of new results that can be sent to the client.
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//
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// NOTE: should we sort by increasing deadline or by increasing slack time?
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//
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vector<TEMP_RESULT> REQUEST_HANDLER_WORK_SEND::find_sendable_test_results (
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vector<TEMP_RESULT> test_results,
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int ncpus,
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vector<TEMP_RESULT> ipp_results,
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double cpu_pessimism_factor // = 1 by default
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) {
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//test results to send
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vector<TEMP_RESULT> sendable_test_results;
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vector<TEMP_RESULT>::iterator test_results_it;
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sort(test_results.begin(), test_results.end(), lessthan_deadline);
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// see if each test result can be added to the work queue without
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// causing deadline misses or deadline miss delays
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//
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for (test_results_it = test_results.begin();
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test_results_it != test_results.end();
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test_results_it++
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) {
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bool failed = result_cause_deadline_miss_or_delay(
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(*test_results_it).computation_deadline*cpu_pessimism_factor,
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(*test_results_it).cpu_time_remaining,
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ncpus,
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ipp_results
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);
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if (!failed){
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// add sendable result to work queue, copying by value, so that we
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// can evaluate what happens if we add more new results to the queue
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//
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ipp_results.push_back(*test_results_it);
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sendable_test_results.push_back (*test_results_it);
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}
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}
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return (sendable_test_results);
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}
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#endif
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// Return false if
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// 1) the candidate result X would cause another result Y to miss its deadline
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// (which Y would not have otherwise missed)
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// 2) X causes another result Y to miss its deadline by more than
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// it otherwise would have, or
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// 3) X would miss its deadline
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//
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bool check_candidate (
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IP_RESULT& candidate,
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int ncpus,
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vector<IP_RESULT> ip_results // passed by value (copy)
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) {
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double booked_to[128]; // keeps track of when each cpu is free
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int j;
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INFO0 fprintf(stderr, "check_candidate %s: dl %f cpu %f\n",
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candidate.name, candidate.computation_deadline,
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candidate.cpu_time_remaining
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);
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for (j=0; j<ncpus; j++) {
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booked_to[j] = 0;
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}
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ip_results.push_back(candidate);
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// sort ip_results in ascending order by deadline
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//
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sort(ip_results.begin(), ip_results.end(), lessthan_deadline);
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// simulate execution of all queued results and test result
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//
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for (unsigned int i=0; i<ip_results.size(); i++) {
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IP_RESULT& r = ip_results[i];
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// find the CPU that will be free first
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//
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double lowest_booked_time = booked_to[0];
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int lowest_booked_cpu = 0;
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for (j=1; j<ncpus; j++) {
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if (booked_to[j] < lowest_booked_time) {
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lowest_booked_time = booked_to[j];
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lowest_booked_cpu = j;
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}
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}
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booked_to[lowest_booked_cpu] += r.cpu_time_remaining;
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INFO2 fprintf(stderr, " running %s on cpu %d; finishes at %f\n",
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r.name, lowest_booked_cpu, booked_to[lowest_booked_cpu]
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);
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// return false if completion time if > computation_deadline AND
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// result would not have missed deadline to begin with
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//
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if (booked_to[lowest_booked_cpu] > r.computation_deadline
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&& !r.misses_deadline
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) {
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INFO0 fprintf(stderr, " cand. fails; %s now misses deadline: %f\n",
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r.name, booked_to[lowest_booked_cpu]
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);
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return false;
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}
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// check a late result (i.e., one that would have missed its
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// deadline) // would be made even later
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//
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if (r.misses_deadline
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&& booked_to[lowest_booked_cpu] > r.estimated_completion_time
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){
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INFO1 fprintf(stderr, " cand. fails; late result %s to be returned even later\n", r.name);
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return false;
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}
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}
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INFO1 fprintf(stderr, " cand. succeeds\n");
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return true;
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}
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#ifdef TEST
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int main() {
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vector<IP_RESULT> ip_results;
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double work_buf_min = 0;
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double cpu_pessimism_factor = 1;
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int ncpus = 1;
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bool flag;
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ip_results.push_back(IP_RESULT("R1", 5, 3));
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ip_results.push_back(IP_RESULT("R2", 5, 3));
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init_ip_results(work_buf_min, ncpus, ip_results);
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IP_RESULT c1 = IP_RESULT("C1", 10, 1);
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if (check_candidate(c1, ncpus, ip_results)) {
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printf("adding %s\n", c1.name);
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ip_results.push_back(c1);
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}
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IP_RESULT c2 = IP_RESULT("C2", 7, 2);
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if (check_candidate(c2, ncpus, ip_results)) {
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printf("adding %s\n", c2.name);
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ip_results.push_back(c2);
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}
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}
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#endif
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