International audienceIn this research we use a decentralized computing approach to allocate and schedule tasks on a massively distributed grid. Using emergent properties of multi-agent systems, the algorithm dynamically creates and dissociates clusters to serve the changing resource demands of a global task queue. The algorithm is compared to a standard first-in first-out (FIFO) scheduling algorithm. Experiments done on a simulator show that the distributed resource allocation protocol (dRAP) algorithm outperforms the FIFO scheduling algorithm on time to empty queue, average waiting time and CPU utilization. Such a decentralized computing approach holds promise for massively distributed processing scenarios like SETI@home and Google MapRed...
Scalable management and scheduling of dynamic grid resources requires new technologies to build the ...
Distributed computing systems aim to connect human and information resources in a transparent, open ...
This paper presents a decentralized scheduling algorithm for dynamic load balancing in a self-organi...
In this research we use a decentralized computing approach to allocate and schedule tasks on a massi...
Multi-agent task allocation problems pervade a wide range of real-world applications, such as search...
Computer grids are systems containing heterogeneous, autonomous and geographically distributed nodes...
This paper presents a detailed design of a decentralised agent-based scheduler, which can be used to...
This work considers the load-balancing problem in dense racks running microsecond-scale services. In...
In this paper, the problem of distributing load of a particular node over m identical nodes of a dis...
With the rapid development of high-speed wide-area networks and powerful yet low-cost computational ...
The practical using of distributed computing systems associated with many problems, including troubl...
We introduce a novel distributed algorithm for multi-agent task allocation problems where the sets o...
In the past two decades, numerous scheduling and load balancing techniques have been proposed for lo...
In this paper we introduce Challenger, a multiagent system that performs completely distributed reso...
International audienceWe study the problem of task reallocation for load-balancing of MapReduce jobs...
Scalable management and scheduling of dynamic grid resources requires new technologies to build the ...
Distributed computing systems aim to connect human and information resources in a transparent, open ...
This paper presents a decentralized scheduling algorithm for dynamic load balancing in a self-organi...
In this research we use a decentralized computing approach to allocate and schedule tasks on a massi...
Multi-agent task allocation problems pervade a wide range of real-world applications, such as search...
Computer grids are systems containing heterogeneous, autonomous and geographically distributed nodes...
This paper presents a detailed design of a decentralised agent-based scheduler, which can be used to...
This work considers the load-balancing problem in dense racks running microsecond-scale services. In...
In this paper, the problem of distributing load of a particular node over m identical nodes of a dis...
With the rapid development of high-speed wide-area networks and powerful yet low-cost computational ...
The practical using of distributed computing systems associated with many problems, including troubl...
We introduce a novel distributed algorithm for multi-agent task allocation problems where the sets o...
In the past two decades, numerous scheduling and load balancing techniques have been proposed for lo...
In this paper we introduce Challenger, a multiagent system that performs completely distributed reso...
International audienceWe study the problem of task reallocation for load-balancing of MapReduce jobs...
Scalable management and scheduling of dynamic grid resources requires new technologies to build the ...
Distributed computing systems aim to connect human and information resources in a transparent, open ...
This paper presents a decentralized scheduling algorithm for dynamic load balancing in a self-organi...