Parallel SAT Solving on Peer-to-Peer Desktop Grids

Sven, Schulz; Blochinger, Wolfgang

doi:10.1007/s10723-010-9160-1

Cited by 20 publications

(22 citation statements)

References 64 publications

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“…Therefore, it combines search splitting with a portfolio of algorithms for each subspace of the search tree. -Satciety [88]: It is the first parallel solver with clause exchange for Desktop…”

Section: Discussionmentioning

confidence: 99%

“…On the other hand, oblique splits occur when the resulting subspaces are small. To reduce the impact of bad splits, Schulz and Blochinger [88] propose a heuristic that tracks the quality of the split operations performed during the solving process. The notion of quality is based on balancedness of the runtime of the generated subspaces.…”

Section: Algorithm 4 Jack-sat(p)mentioning

confidence: 99%

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An overview of parallel SAT solving

2012

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Section: Discussionmentioning

confidence: 99%

Section: Algorithm 4 Jack-sat(p)mentioning

confidence: 99%

An overview of parallel SAT solving

2012

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“…Thus, it can be considered highly questionable whether one can actually use Desktop Grids for these classes of applications. However, there are already several examples where task parallel applications with complex interaction, like discrete optimization [2] and SAT solving [3], have been successfully deployed on Desktop Grids. Our aim is to foster further research on such superordinate questions.…”

Section: Introductionmentioning

confidence: 99%

Orbweb—A Network Substrate for Peer-to-Peer Desktop Grid Computing Based on Open Standards

2009

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While Desktop Grid Computing has become a promising alternative to classical Grids for certain kinds of applications, it has not yet reached the same level of standardization. In this article, we present Orbweb, a network substrate for Peer-to-Peer Desktop Grid Computing based on the open industrial-strength eXtensible Messaging and Presence Protocol (XMPP). We discuss, how XMPP can be leveraged to tackle domain-specific challenges, including high scalability, support for volatility, NAT/Firewall traversal, and protocol efficiency. Where XMPP fails to meet these requirements, we contribute pertinent extensions. In particular, we boost the scalability of XMPP by taking load of the XMPP servers through dynamically negotiated direct Peer-to-Peer communication channels between XMPP peers. We pave the way for scalable group membership management by substituting the existing XMPP MultiUser Chat protocol for one that does not suffer from limitations imposed by an »everyone knows everyone« visibility model and allows for deploying custom virtual topologies that best match the interaction patterns of a given application. As efficient multicasting is an essential prerequisite for many distributed algorithms, we adapt the well-known Bimodal Multicast protocol to work in a highly volatile Peer-to-Peer Desktop Grid Computing environment. Finally, we show how to improve the protocol efficiency of XMPP by leveraging a standardized binary encoding of the XML Information Set for XMPP packet transmission. To substantiate the applicability of our approach and the effectiveness of our extensions, we describe how some important higher-level services used in Peer-to-Peer Desktop Grid Computing can be implemented on top of Orbweb and provide a detailed experimental analysis with up to 10K nodes.

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“…Schulz and Blochinger [23] have proposed an original approach to distribute SAT. Indeed, in contrast to most other distributed techniques where a central point (often called master) is needed, their contribution consists in proposing a full peer-to-peer (P2P) system, where all workers play exactly the same role, without any need of centralization.…”

Section: Related Workmentioning

confidence: 99%

“…Indeed, in contrast to most other distributed techniques where a central point (often called master) is needed, their contribution consists in proposing a full peer-to-peer (P2P) system, where all workers play exactly the same role, without any need of centralization. The resulting P2P system is called SatCiety [23].…”

Section: Related Workmentioning

confidence: 99%

Dolius: A Distributed Parallel SAT Solving Framework

Audemard¹,

Hoessen²,

Jabbour³

et al.

EPiC Series in Computing

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Over the years, parallel SAT solving becomes more and more important. However, most of state-of-the-art parallel SAT solvers are portfolio-based ones. They aim at running several times the same solver with different parameters. In this paper, we propose a tool called Dolius, mainly based on the divide and conquer paradigm. In contrast to most current parallel efficient engines, Dolius does not need shared memory, can be distributed, and scales well when a large number of computing units is available. Furthermore, our tool contains an API allowing to plug any SAT solver in a simple way.

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Parallel SAT Solving on Peer-to-Peer Desktop Grids

Cited by 20 publications

References 64 publications

An overview of parallel SAT solving

An overview of parallel SAT solving

Orbweb—A Network Substrate for Peer-to-Peer Desktop Grid Computing Based on Open Standards

Dolius: A Distributed Parallel SAT Solving Framework

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