Please use this identifier to cite or link to this item: http://hdl.handle.net/10400.8/118
Title: Dependability mechanisms for desktop grids
Author: Domingues, Patrício Rodrigues
Keywords: Fault tolerance
Desktop grids
Volunteer computing
Checkpointing
Scheduling
Sabotage-tolerance
Defense Date: 2008
Abstract: It is a well-known fact that most of the computing power spread over the Internet simply goes unused, with CPU and other resources sitting idle most of the time: on average less than 5% of the CPU time is effectively used. Desktop grids are software infrastructures that aim to exploit the otherwise idle processing power, making it available to users that require computational resources to solve longrunning applications. The outcome of some efforts to harness idle machines can be seen in public projects such as SETI@home and Folding@home that boost impressive performance figures, in the order of several hundreds of TFLOPS each. At the same time, many institutions, both academic and corporate, run their own desktop grid platforms. However, while desktop grids provide free computing power, they need to face important issues like fault tolerance and security, two of the main problems that harden the widespread use of desktop grid computing. In this thesis, we aim to exploit a set of fault tolerance techniques, such as checkpointing and redundant executions, to promote faster turnaround times. We start with an experimental study, where we analyze the availability of the computing resources of an academic institution. We then focus on the benefits of sharing checkpoints in both institutional and wide-scale environments. We also explore hybrid schemes, where the traditional centralized desktop grid organization is complemented with peer-to-peer resources. Another major issue regarding desktop grids is related with the level of trust that can be achieved relatively to the volunteered hosts that carry out the executions. We propose and explore several mechanisms aimed at reducing the waste of computational resources needed to detect incorrect computations. For this purpose, we detail a checkpoint-based scheme for early detection of errors. We also propose and analyze an invitation-based strategy coupled to a credit rewarding scheme, to allow the enrollment and filtering of more trustworthy and more motivated resource donors. To summarize, we propose and study several fault tolerance methodologies oriented toward a more efficient usage of resources, resorting to techniques such as checkpointing, replication and sabotage tolerance to fasten and to make more reliable executions that are carried over desktop grid resources. The usage of techniques like these ones will be of ultimate importance for the wider deployment of applications over desktop grids.
Description: Tese apresentada à Faculdade de Ciências e Tecnologia da Universidade de Coimbra para otenção do grau de Doutor em Engenharia Informática, orientada por Luís Moura e Silva.
URI: http://hdl.handle.net/10400.8/118
Appears in Collections:Teses de Doutoramento

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