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view test-data/phylip_phyml_stats.txt @ 2:2bf47d57ebb5 draft

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"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/phyml commit 61b727022bd1b24a8843830a9c5f34ef66835694"
author iuc
date Mon, 22 Jun 2020 18:37:56 -0400
parents 850e213bee26
children 7157a5b34a68
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                                  ---  PhyML 3.3.20190909  ---                                             
                              http://www.atgc-montpellier.fr/phyml                                          
                             Copyright CNRS - Universite Montpellier                                 
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. Sequence filename: 			phylip
. Data set: 				#1
. Initial tree: 			BioNJ
. Model of nucleotides substitution: 	HKY85
. Number of taxa: 			7
. Log-likelihood: 			-3113.71269
. Unconstrained log-likelihood: 	-3015.37711
. Composite log-likelihood: 		-14534.82403
. Parsimony: 				177
. Tree size: 				0.12462
. Discrete gamma model: 		Yes
  - Number of classes: 			4
  - Gamma shape parameter: 		0.774
  - Relative rate in class 1: 		0.08994 [freq=0.250000] 		
  - Relative rate in class 2: 		0.39631 [freq=0.250000] 		
  - Relative rate in class 3: 		0.94938 [freq=0.250000] 		
  - Relative rate in class 4: 		2.56437 [freq=0.250000] 		
. Transition/transversion ratio: 	2.937995
. Nucleotides frequencies:
  - f(A)=  0.28368
  - f(C)=  0.21846
  - f(G)=  0.26233
  - f(T)=  0.23552

. Run ID:				none
. Random seed:				1458308600
. Subtree patterns aliasing:		no
. Version:				3.3.20190909
. Time used:				0h0m0s (0 seconds)

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 Suggested citations:
 S. Guindon, JF. Dufayard, V. Lefort, M. Anisimova, W. Hordijk, O. Gascuel
 "New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0."
 Systematic Biology. 2010. 59(3):307-321.

 S. Guindon & O. Gascuel
 "A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood"
 Systematic Biology. 2003. 52(5):696-704.
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