TY - JOUR AU - AHMED MAKHLOUF, SID AU - YAGOUBI, BELABBAS TI - CO-ALLOCATION IN GRID COMPUTING USING RESOURCES OFFERS AND ADVANCE RESERVATION PLANNING JF - Courrier du Savoir; Vol. 14 (2012): Courrier du Savoir KW - N2 - Computational  grids  have  the  potential  for  solving  large-scale  scientific  problems  using  heterogeneous  and  geographically distributed resources. However, a number of major technical hurdles must overcome before this potential can be realized. One problem that is critical to effective utilization of computational grids and gives a certain Quality of Service (QoS) for grid users is  the  efficient  co-allocation  of  jobs.  The  advance  reservation  technique  has  been widely  applied  in many  grid  systems  to provide QoS, however, it will result in low resource utilization rate and high rejection rate when the reservation rate is high. This work  addresses  those  problems  by  describing  and  evaluating  a  grid  resources  co-allocation  algorithm  using  resources providers offers and planning  the advance  reservations.  In our algorithm, a Metascheduler performs  job scheduling based on resources offers and use advance  reservation planning mechanism  to  reserves  the best  offers. Offers act as a mechanism  in which  resource  providers  expose  their  interest  in  executing  an  entire  job  or  only  part  of  it.  The  Metascheduler  selects computational resources based on best offers provided by  the resources; Meta-schedulers can distribute a  job among various clusters that are usually heterogeneous in order to speed up the job execution.   The main aims of our algorithm is to minimize the total time to execute all jobs (Makespen), minimize the waiting time in the global queue, maximize  the resources utilization rate and balance  the  load among the resources. The proposed algorithm has been compared with other scheduling schemes such as First Come First Served (FCFS), easy backfilling (EBF), Fit Processor First Served (FPFS) and a simple co-allocation algorithm without offers support (SCOAL). The proposed algorithm has been verified  through  an  extension  of GridSim  simulation  toolkit  and  the  simulation  results  confirm  that  the  proposed  algorithm allow us to achieve our goals by minimizing the Makespan and the waiting time, maximizing the resources utilization rate and load the balance among the resources. UR - https://revues.univ-biskra.dz/index.php/cds/article/view/414