comparison test-data/test3_report.html @ 14:3061c8b029e5 draft

planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/quast commit b4d6989e1e185120ce470df5c2b0d93330d5e124
author iuc
date Fri, 05 Aug 2022 15:21:27 +0000
parents 875d0f36d66f
children a3b35edea53a
comparison
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13:675488238c96 14:3061c8b029e5
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4639 4639
4640 <div class='json-code'> 4640 <div class='json-code'>
4641 <div id='total-report-json'> 4641 <div id='total-report-json'>
4642 {"date":"06 February 2022, Sunday, 19:55:12","assembliesNames":["contigs1_fna","contigs2_fna"],"referenceName":"","order":[0,1],"report":[["Genome statistics",[]],["Reads mapping",[]],["Misassemblies",[]],["Unaligned",[]],["Mismatches",[{"metricName":"# N's","quality":"Less is better","values":[0,0],"isMain":false},{"metricName":"# N's per 100 kbp","quality":"Less is better","values":["0.00","0.00"],"isMain":true}]],["Statistics without reference",[{"metricName":"# contigs","quality":"Equal","values":[3,1],"isMain":true},{"metricName":"# contigs (>= 0 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"# contigs (>= 1000 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"# contigs (>= 500 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"Largest contig","quality":"More is better","values":[3980,6650],"isMain":true},{"metricName":"Total length","quality":"More is better","values":[6710,6650],"isMain":true},{"metricName":"Total length (>= 0 bp)","quality":"More is better","values":[6710,6650],"isMain":false},{"metricName":"Total length (>= 1000 bp)","quality":"More is better","values":[6710,6650],"isMain":true},{"metricName":"Total length (>= 500 bp)","quality":"More is better","values":[6710,6650],"isMain":false},{"metricName":"N50","quality":"More is better","values":[3980,6650],"isMain":false},{"metricName":"N75","quality":"More is better","values":[1610,6650],"isMain":false},{"metricName":"L50","quality":"Less is better","values":[1,1],"isMain":false},{"metricName":"L75","quality":"Less is better","values":[2,1],"isMain":false},{"metricName":"GC (%)","quality":"Equal","values":["51.28","52.00"],"isMain":false}]],["K-mer-based statistics",[]],["Predicted genes",[]],["Similarity statistics",[]],["Reference statistics",[]]],"subreferences":[],"subreports":[],"minContig":500} 4642 {"date":"07 July 2022, Thursday, 16:55:14","assembliesNames":["contigs1_fna","contigs2_fna"],"referenceName":"","order":[0,1],"report":[["Genome statistics",[]],["Reads mapping",[]],["Misassemblies",[]],["Unaligned",[]],["Mismatches",[{"metricName":"# N's per 100 kbp","quality":"Less is better","values":["0.00","0.00"],"isMain":true},{"metricName":"# N's","quality":"Less is better","values":[0,0],"isMain":false}]],["Statistics without reference",[{"metricName":"# contigs","quality":"Equal","values":[3,1],"isMain":true},{"metricName":"# contigs (>= 0 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"# contigs (>= 1000 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"# contigs (>= 500 bp)","quality":"Equal","values":[3,1],"isMain":false},{"metricName":"Largest contig","quality":"More is better","values":[3980,6650],"isMain":true},{"metricName":"Total length","quality":"More is better","values":[6710,6650],"isMain":true},{"metricName":"Total length (>= 0 bp)","quality":"More is better","values":[6710,6650],"isMain":false},{"metricName":"Total length (>= 1000 bp)","quality":"More is better","values":[6710,6650],"isMain":true},{"metricName":"Total length (>= 500 bp)","quality":"More is better","values":[6710,6650],"isMain":false},{"metricName":"N50","quality":"More is better","values":[3980,6650],"isMain":false},{"metricName":"N90","quality":"More is better","values":[1120,6650],"isMain":false},{"metricName":"auN","quality":"More is better","values":["2934.0","6650.0"],"isMain":false},{"metricName":"L50","quality":"Less is better","values":[1,1],"isMain":false},{"metricName":"L90","quality":"Less is better","values":[3,1],"isMain":false},{"metricName":"GC (%)","quality":"Equal","values":["51.28","52.00"],"isMain":false}]],["K-mer-based statistics",[]],["Predicted genes",[]],["Similarity statistics",[]],["Reference statistics",[]]],"subreferences":[],"subreports":[],"minContig":500}
4643 </div> 4643 </div>
4644 <div id='qualities-json'> 4644 <div id='qualities-json'>
4645 {{ qualities }} 4645 {{ qualities }}
4646 </div> 4646 </div>
4647 <div id='main-metrics-json'> 4647 <div id='main-metrics-json'>
4718 "Reference length" : "<span>is the total number of bases in the reference.</span>", 4718 "Reference length" : "<span>is the total number of bases in the reference.</span>",
4719 4719
4720 "# contigs (>= 0 bp)" : "<span>is the total number of contigs in the assembly that have size greater than or equal to 0 bp.</span>", 4720 "# contigs (>= 0 bp)" : "<span>is the total number of contigs in the assembly that have size greater than or equal to 0 bp.</span>",
4721 "Total length (>= 0 bp)" : "<span>is the total number of bases in the contigs having size greater than or equal to 0 bp.</span>", 4721 "Total length (>= 0 bp)" : "<span>is the total number of bases in the contigs having size greater than or equal to 0 bp.</span>",
4722 4722
4723 "N50" : "<span>is the contig length such that using longer or equal length contigs produces half (50%) of the bases of the assembly. Usually there is no value that produces exactly 50%, so the technical definition is the maximum length x such that using contigs of length at least x accounts for at least 50% of the total assembly length.</span>", 4723 "N50" : "<span>is the contig length such that using longer or equal length contigs produces half (50%) of the bases of the assembly. Usually there is no value that produces exactly 50%, so the technical definition is the maximum length x such that using contigs of length at least x accounts for at least 50% of the total assembly length. Similarly, Nx for any x between 0 and 100 could be computed (x% of assembly).</span>",
4724 "NG50" : "<span>is the contig length such that using longer or equal length contigs produces half (50%) of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>", 4724 "NG50" : "<span>is the contig length such that using longer or equal length contigs produces half (50%) of the bases of the reference genome. This metric is computed only if a reference genome is provided. Similarly, NGx for any x between 0 and 100 could be computed (x% of the reference).</span>",
4725 "N75" : "<span>is the contig length such that using longer or equal length contigs produces 75% of the bases of the assembly. Usually there is no value that produces exactly 75%, so the technical definition is the maximum length x such that using contigs of length at least x accounts for at least 75% of the total assembly length.</span>", 4725
4726 "NG75" : "<span>is the contig length such that using longer or equal length contigs produces 75% of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>", 4726 "L50" : "<span>is the minimum number of contigs that produce half (50%) of the bases of the assembly. In other words, it's the number of contigs of length at least N50. Similarly, Lx for any x between 0 and 100 could be computed.</span>",
4727 4727 "LG50" : "<span>is the minimum number of contigs that produce half (50%) of the bases of the reference genome. In other words, it's the number of contigs of length at least NG50. This metric is computed only if a reference genome is provided. Similarly, LGx for any x between 0 and 100 could be computed.</span>",
4728 "L50" : "<span>is the minimum number of contigs that produce half (50%) of the bases of the assembly. In other words, it's the number of contigs of length at least N50.</span>", 4728
4729 "LG50" : "<span>is the minimum number of contigs that produce half (50%) of the bases of the reference genome. In other words, it's the number of contigs of length at least NG50. This metric is computed only if a reference genome is provided.</span>", 4729 "NA50" : "<span>is N50 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided. Similarly, NAx for any x between 0 and 100 could be computed.</span>",
4730 "L75" : "<span>is the minimum number of contigs that produce 75% of the bases of the assembly. In other words, it's the number of contigs of length at least N75.</span>", 4730 "NGA50" : "<span>is NG50 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided. Similarly, NGAx for any x between 0 and 100 could be computed.</span>",
4731 "LG75" : "<span>is the minimum number of contigs that produce 75% of the bases of the reference genome. In other words, it's the number of contigs of length at least NG75. This metric is computed only if a reference genome is provided.</span>", 4731
4732 4732 "LA50" : "<span>is L50 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. Similarly, LAx for any x between 0 and 100 could be computed.</span>",
4733 "NA50" : "<span>is N50 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided.</span>", 4733 "LGA50" : "<span>is LG50 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. Similarly, LGAx for any x between 0 and 100 could be computed.</span>",
4734 "NGA50" : "<span>is NG50 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided.</span>", 4734
4735 "NA75" : "<span>is N75 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided.</span>", 4735 "auN" : "<span>is the area under the Nx curve.</span>",
4736 "NGA75" : "<span>is NG75 where the lengths of aligned blocks are counted instead of contig lengths. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces. This metric is computed only if a reference genome is provided.</span>", 4736 "auNG" : "<span>is the area under the NGx curve.</span>",
4737 4737 "auNA" : "<span>is the area under the NAx curve.</span>",
4738 "LA50" : "<span>is L50 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces.</span>", 4738 "auNGA" : "<span>is the area under the NGAx curve.</span>",
4739 "LGA50" : "<span>is LG50 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces.</span>", 4739
4740 "LA75" : "<span>is L75 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces.</span>", 4740 "Average %IDY" : "<span>is the average of alignment identity percent (alignment accuracy) among all contigs.</span>",
4741 "LGA75" : "<span>is LG75 where aligned blocks are counted instead of contigs. I.e., if a contig has a misassembly with respect to the reference, the contig is broken into smaller pieces.</span>",
4742
4743 "Average %IDY" : "<span>is the average of alignment identity percent (Nucmer measure of alignment accuracy) among all contigs.</span>",
4744 "# misassemblies" : "<span>is the number of positions in the assembled contigs where the left flanking sequence aligns over 1 kbp away from the right flanking sequence on the reference (<i>relocation</i>) or they overlap on more than 1 kbp (<i>relocation</i>) or flanking sequences align on different strands (<i>inversion</i>) or different chromosomes (<i>translocation</i>).</span>", 4741 "# misassemblies" : "<span>is the number of positions in the assembled contigs where the left flanking sequence aligns over 1 kbp away from the right flanking sequence on the reference (<i>relocation</i>) or they overlap on more than 1 kbp (<i>relocation</i>) or flanking sequences align on different strands (<i>inversion</i>) or different chromosomes (<i>translocation</i>).</span>",
4745 "# large block misassemblies" : "<span>is the number of misassemblies between alignments with length greater than or equal to 3 kbp and with the misassembly threshold equal to 5 kbp (instead of default 1 kbp for regular misassemblies).</span>", 4742 "# large block misassemblies" : "<span>is the number of misassemblies between alignments with length greater than or equal to 3 kbp and with the misassembly threshold equal to 5 kbp (instead of default 1 kbp for regular misassemblies).</span>",
4746 "# misassembled contigs" : "<span>is the number of contigs that contain misassembly events.</span>", 4743 "# misassembled contigs" : "<span>is the number of contigs that contain misassembly events.</span>",
4747 "Misassembled contigs length" : "<span>is the number of total bases contained in all contigs that have one or more misassemblies.</span>", 4744 "Misassembled contigs length" : "<span>is the number of total bases contained in all contigs that have one or more misassemblies.</span>",
4748 4745
4760 "# possibly misassembled contigs": "<span>is the number of contigs that contain large unaligned fragment (default min length is 500 bp) and thus could possibly contain interspecies translocation with unknown reference.</span>", 4757 "# possibly misassembled contigs": "<span>is the number of contigs that contain large unaligned fragment (default min length is 500 bp) and thus could possibly contain interspecies translocation with unknown reference.</span>",
4761 "# possible misassemblies" : "<span>is the number of putative interspecies translocations in possibly misassembled contigs if each large unaligned fragment is supposed to be a fragment of unknown reference.</span>", 4758 "# possible misassemblies" : "<span>is the number of putative interspecies translocations in possibly misassembled contigs if each large unaligned fragment is supposed to be a fragment of unknown reference.</span>",
4762 "# intergenomic misassemblies" : "<span>is the number of all found and putative (possible) interspecies translocations.</span>", 4759 "# intergenomic misassemblies" : "<span>is the number of all found and putative (possible) interspecies translocations.</span>",
4763 "# structural variations" : "<span>is the number of misassemblies matched with structural variations.</span>", 4760 "# structural variations" : "<span>is the number of misassemblies matched with structural variations.</span>",
4764 "# possible TEs" : "<span>is the number of misassemblies possibly caused by transposable elements (TEs). We define a possible TE as an event that satisfies these conditions: <ol> <li>There are two misassembly breakpoints of the same type around a short alignment (less than 7 kbp by default)</li> <li>The gap between two long flanking sequences on the sides of the short alignment is less than 7 kbp.</li> <li> The long flanking sequences both are on the same strand of the same chromosome of the reference genome.</li> </ol> </span>", 4761 "# possible TEs" : "<span>is the number of misassemblies possibly caused by transposable elements (TEs). We define a possible TE as an event that satisfies these conditions: <ol> <li>There are two misassembly breakpoints of the same type around a short alignment (less than 7 kbp by default)</li> <li>The gap between two long flanking sequences on the sides of the short alignment is less than 7 kbp.</li> <li> The long flanking sequences both are on the same strand of the same chromosome of the reference genome.</li> </ol> </span>",
4765 "# unaligned mis. contigs" : "<span>is the number of contigs that have the number of unaligned bases more than 50% of contig length and a misassembly event in their aligned fragment. Note that such misassemblies are not counted in <i># misassemblies</i> and other <i>misassemblies</i> statistics.</span>", 4762 "# unaligned mis. contigs" : "<span>is the number of contigs that have the number of unaligned bases more than 50% of the contig length and a misassembly event in their aligned fragment. Note that such misassemblies are not counted in <i># misassemblies</i> and other <i>misassemblies</i> statistics.</span>",
4766 4763
4767 "# fully unaligned contigs" : "<span>is the number of contigs that have no alignment to the reference sequence.</span>", 4764 "# fully unaligned contigs" : "<span>is the number of contigs that have no alignment to the reference sequence.</span>",
4768 "Fully unaligned length" : "<span>is the total number of bases contained in all fully unaligned contigs. Uncalled bases (N's) are not counted.</span>", 4765 "Fully unaligned length" : "<span>is the total number of bases contained in all fully unaligned contigs. Uncalled bases (N's) are not counted.</span>",
4769 "# partially unaligned contigs" : "<span>is the number of contigs that have at least one alignment to the reference sequence but also have at least one unaligned fragment of length &ge; <i>unaligned-part-size threshold</i>.</span>", 4766 "# partially unaligned contigs" : "<span>is the number of contigs that have at least one alignment to the reference sequence but also have at least one unaligned fragment of length &ge; <i>unaligned-part-size threshold</i> (uncalled bases (N's) are not counted towards the fragment length).</span>",
4770 "Partially unaligned length" : "<span>is the total number of unaligned bases in all partially unaligned contigs. Uncalled bases (N's) are not counted.</span>", 4767 "Partially unaligned length" : "<span>is the total number of unaligned bases in all partially unaligned contigs. Uncalled bases (N's) are not counted.</span>",
4771 4768
4772 "# ambiguous contigs" : "<span>is the number of contigs that have reference alignments of equal quality in multiple locations on the reference.</span>", 4769 "# ambiguous contigs" : "<span>is the number of contigs that have reference alignments of equal quality in multiple locations on the reference.</span>",
4773 "Ambiguous contigs length" : "<span>is the total number of bases contained in all ambiguous contigs.</span>", 4770 "Ambiguous contigs length" : "<span>is the total number of bases contained in all ambiguous contigs.</span>",
4774 4771
4775 "Genome fraction (%)" : "<span>is the total number of aligned bases in the reference, divided by the genome size. A base in the reference genome is counted as aligned if there is at least one contig with at least one alignment to this base. Contigs from repeat regions may map to multiple places, and thus may be counted multiple times in this quantity.</span>", 4772 "Genome fraction (%)" : "<span>is the total number of aligned bases in the reference, divided by the genome size. A base in the reference genome is counted as aligned if there is at least one contig with at least one alignment to this base. Contigs from repeat regions may map to multiple places, and thus may be counted multiple times in this quantity.</span>",
4776 "GC (%)" : "<span>is the total number of G and C nucleotides in the assembly, divided by the total length of the assembly.</span>", 4773 "GC (%)" : "<span>is the total number of G and C nucleotides in the assembly, divided by the total length of the assembly.</span>",
4777 "Reference GC (%)" : "<span>is the total number of G and C nucleotides in the reference, divided by the total length of the reference.</span>", 4774 "Reference GC (%)" : "<span>is the total number of G and C nucleotides in the reference, divided by the total length of the reference.</span>",
4778 4775
4779 "# mismatches per 100 kbp" : "<span>is the average number of mismatches per 100000 aligned bases.</span>", 4776 "# mismatches per 100 kbp" : "<span>is the average number of mismatches per 100,000 aligned bases in the assembly.</span>",
4780 "# mismatches" : "<span>is the number of mismatches in all aligned bases.</span>", 4777 "# mismatches" : "<span>is the number of mismatches in all aligned bases in the assembly.</span>",
4781 "# indels per 100 kbp" : "<span>is the average number of indels per 100000 aligned bases.</span>", 4778 "# indels per 100 kbp" : "<span>is the average number of indels per 100,000 aligned bases in the assembly.</span>",
4782 "# indels" : "<span>is the number of indels in all aligned bases</span>", 4779 "# indels" : "<span>is the number of indels in all aligned bases in the assembly.</span>",
4783 "# indels (<= 5 bp)" : "<span>is the number of indels of length less than or equal to 5 bp</span>", 4780 "# indels (<= 5 bp)" : "<span>is the number of indels of length less than or equal to 5 bp.</span>",
4784 "# indels (> 5 bp)" : "<span>is the number of indels of length greater than 5 bp</span>", 4781 "# indels (> 5 bp)" : "<span>is the number of indels of length greater than 5 bp.</span>",
4785 "Indels length" : "<span>is the number of total bases contained in all indels</span>", 4782 "Indels length" : "<span>is the number of total bases contained in all indels.</span>",
4786 4783
4787 "# genomic features" : "<span>is the number of genomic features (genes, transcripts, CDS) in the assembly (complete and partial), based on a user-provided annotated list of gene positions in the reference genome. A feature counts as 'partially covered' if the assembly contains at least 100 bp of this feature but not the whole feature.</span>", 4784 "# genomic features" : "<span>is the number of genomic features (genes, transcripts, CDS) in the assembly (complete and partial), based on a user-provided annotated list of gene positions in the reference genome. A feature counts as 'partially covered' if the assembly contains at least 100 bp of this feature but not the whole feature.</span>",
4788 "# operons" : "<span>is the number of operons in the assembly (complete and partial), based on a user-provided annotated list of operon positions in the reference genome. An operon counts as 'partially covered' if the assembly contains at least 100 bp of this operon but not the whole operon.</span>", 4785 "# operons" : "<span>is the number of operons in the assembly (complete and partial), based on a user-provided annotated list of operon positions in the reference genome. An operon counts as 'partially covered' if the assembly contains at least 100 bp of this operon but not the whole operon.</span>",
4789 "# predicted genes (unique)" : "<span>is the number of unique genes in the assembly found by a gene prediction tool.</span>", 4786 "# predicted genes (unique)" : "<span>is the number of unique genes in the assembly found by a gene prediction tool.</span>",
4790 "# predicted genes (>= 0 bp)" : "<span>is the number of found genes having length greater than or equal to 0 bp.</span>", 4787 "# predicted genes (>= 0 bp)" : "<span>is the number of found genes having length greater than or equal to 0 bp.</span>",
4797 "NGx" : "<span>plot shows the NGx metric value as x varies from 0 to 100.</span> <span>NGx is the minimum contig length <b>y</b> such that using contigs of length at least <b>y</b> accounts for at least x% of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>", 4794 "NGx" : "<span>plot shows the NGx metric value as x varies from 0 to 100.</span> <span>NGx is the minimum contig length <b>y</b> such that using contigs of length at least <b>y</b> accounts for at least x% of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>",
4798 "NAx" : "<span>plot shows the NAx metric value as x varies from 0 to 100.</span> <span>NAx is computed similarly to Nx, but based on lengths of aligned blocks instead of contig lengths. Contigs are broken into aligned blocks at misassembly breakpoints. NAx is the minimum block length <b>y</b> such that using blocks of length at least <b>y</b> accounts for at least x% of the bases of the assembly. This metric is computed only if a reference genome is provided.</span>", 4795 "NAx" : "<span>plot shows the NAx metric value as x varies from 0 to 100.</span> <span>NAx is computed similarly to Nx, but based on lengths of aligned blocks instead of contig lengths. Contigs are broken into aligned blocks at misassembly breakpoints. NAx is the minimum block length <b>y</b> such that using blocks of length at least <b>y</b> accounts for at least x% of the bases of the assembly. This metric is computed only if a reference genome is provided.</span>",
4799 "NGAx" : "<span>plot shows the NGAx metric value as x varies from 0 to 100.</span><span>NGAx is computed similarly to NGx, but based on lengths of aligned blocks instead of contig lengths. Contigs are broken at misassembly breakpoints. NGAx is the minimum block length <b>y</b> such that using blocks of length at least <b>y</b> accounts for at least x% of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>", 4796 "NGAx" : "<span>plot shows the NGAx metric value as x varies from 0 to 100.</span><span>NGAx is computed similarly to NGx, but based on lengths of aligned blocks instead of contig lengths. Contigs are broken at misassembly breakpoints. NGAx is the minimum block length <b>y</b> such that using blocks of length at least <b>y</b> accounts for at least x% of the bases of the reference genome. This metric is computed only if a reference genome is provided.</span>",
4800 "GC content" : "<span>plot shows the distribution of GC percentage among the contigs, i.e., the total number of bases in contigs with such GC content. Typically, the distribution is approximately Gaussian. However, for some genomes it is not Gaussian. For assembly projects with contaminants, the GC distribution of the contaminants often differs from the reference genome and may give a superposition of multiple curves with different peaks.</span>", 4797 "GC content" : "<span>plot shows the distribution of GC percentage among the contigs, i.e., the total number of bases in contigs with such GC content. Typically, the distribution is approximately Gaussian. However, for some genomes it is not Gaussian. For assembly projects with contaminants, the GC distribution of the contaminants often differs from the reference genome and may give a superposition of multiple curves with different peaks.</span>",
4801 4798
4802 "Duplication ratio" : "<span>is the total number of aligned bases in the assembly (i.e. <i>Total length</i> - <i>Fully unaligned length</i> - <i>Partially unaligned length</i>), divided by the total number of aligned bases in the reference (see the <b>Genome fraction (%)</b> metric). If the assembly contains many contigs that cover the same regions of the reference, its <i>Duplication ratio</i> may be much larger than 1. This may occur due to overestimating repeat multiplicities and due to small overlaps between contigs, among other reasons.</span>", 4799 "Duplication ratio" : "<span>is the total number of aligned bases in the assembly, divided by the total number of aligned bases in the reference (see the <b>Genome fraction (%)</b> metric). If the assembly contains many contigs that cover the same regions of the reference, its <i>Duplication ratio</i> may be much larger than 1. This may occur due to overestimating repeat multiplicities and due to small overlaps between contigs, among other reasons.</span>",
4803 "Largest alignment" : "<span>is the length of the largest continuous alignment in the assembly. This metric is always equal to the <i>Largest contig</i> metric but it can be smaller if the largest contig of the assembly contains a misassembly event.</span>", 4800 "Largest alignment" : "<span>is the length of the largest continuous alignment in the assembly. This metric is always equal to the <i>Largest contig</i> metric but it can be smaller if the largest contig of the assembly contains a misassembly event.</span>",
4804 "Total aligned length" : "<span>is the total number of aligned bases in the assembly.</span>", 4801 "Total aligned length" : "<span>is the total number of aligned bases in the assembly.</span>",
4805 "Avg contig read support" : "<span>is the average coverage of contigs that have large unique alignments to the reference. Read coverage is extracted from contig names (SPAdes/Velvet naming scheme only).</span>", 4802 "Avg contig read support" : "<span>is the average coverage of contigs that have large unique alignments to the reference. Read coverage is extracted from contig names (SPAdes/Velvet naming scheme only).</span>",
4806 4803
4807 "# N's" : "<span>is the total number of uncalled bases (N's) in the assembly.</span>", 4804 "# N's" : "<span>is the total number of uncalled bases (N's) in the assembly.</span>",
4808 "# N's per 100 kbp" : "<span>is the average number of uncalled bases (N's) per 100000 assembly bases.</span>", 4805 "# N's per 100 kbp" : "<span>is the average number of uncalled bases (N's) per 100,000 assembly bases.</span>",
4809 4806
4810 "# mapped" : "<span>is the number of reads that mapped to the assembly.</span>", 4807 "# mapped" : "<span>is the number of reads that mapped to the assembly.</span>",
4811 "Mapped (%)" : "<span>is the percent of reads that mapped to the assembly.</span>", 4808 "Mapped (%)" : "<span>is the percent of reads that mapped to the assembly.</span>",
4812 "# properly paired" : "<span>is the number of reads that mapped within expected range and orientation of each other to the assembly.</span>", 4809 "# properly paired" : "<span>is the number of reads that mapped within expected range and orientation of each other to the assembly.</span>",
4813 "Properly paired (%)" : "<span>is the percent of reads that mapped within expected range and orientation of each other to the assembly.</span>", 4810 "Properly paired (%)" : "<span>is the percent of reads that mapped within expected range and orientation of each other to the assembly.</span>",