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IPPS
2006
IEEE
2006
IEEE
Phylospaces: reconstructing evolutionary trees in tuple space
Phylospaces is a novel framework for reconstructing evolutionary trees in tuple space, a distributed shared memory that permits processes to communicate and coordinate with each other. Our choice of tuple space as a concurrency model is somewhat unusual, given the prominence and success of pure message passing models, such as MPI. We use Phylospaces to devise Cooperative Rec-I-DCM3, a population-based strategy for navigating tree space. Cooperative Rec-I-DCM3 is based on Rec-I-DCM3, the fastest sequential algorithm under maximum parsimony. We compare the performance of the algorithms on two datasets consisting of 2,000 and 7,769 taxa, respectively. Our results demonstrate that Cooperative Rec-I-DCM3 outperforms its sequential counterpart by at least an order of magnitude.
Real-time TrafficCooperative Rec-I-DCM3 | Distributed And Parallel Computing | Distributed Shared Memory | IPPS 2006 | Tuple Space |
| Added | 12 Jun 2010 |
| Updated | 12 Jun 2010 |
| Type | Conference |
| Year | 2006 |
| Where | IPPS |
| Authors | Marc L. Smith, Tiffani L. Williams |
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