comparison test-data/MzMLSplitter_output_part1.mzML @ 10:c170c9662d11 draft

planemo upload for repository https://github.com/galaxyproteomics/tools-galaxyp/tree/master/tools/openms commit 981be1bde91d6d565693cd691553f77465e653bb
author galaxyp
date Tue, 20 Mar 2018 14:58:47 -0400
parents
children
comparison
equal deleted inserted replaced
9:192045a70b53 10:c170c9662d11
1 <?xml version="1.0" encoding="ISO-8859-1"?>
2 <indexedmzML xmlns="http://psi.hupo.org/ms/mzml" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://psi.hupo.org/ms/mzml http://psidev.info/files/ms/mzML/xsd/mzML1.1.0_idx.xsd">
3 <mzML xmlns="http://psi.hupo.org/ms/mzml" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://psi.hupo.org/ms/mzml http://psidev.info/files/ms/mzML/xsd/mzML1.1.0.xsd" accession="" version="1.1.0">
4 <cvList count="5">
5 <cv id="MS" fullName="Proteomics Standards Initiative Mass Spectrometry Ontology" URI="http://psidev.cvs.sourceforge.net/*checkout*/psidev/psi/psi-ms/mzML/controlledVocabulary/psi-ms.obo"/>
6 <cv id="UO" fullName="Unit Ontology" URI="http://obo.cvs.sourceforge.net/obo/obo/ontology/phenotype/unit.obo"/>
7 <cv id="BTO" fullName="BrendaTissue545" version="unknown" URI="http://www.brenda-enzymes.info/ontology/tissue/tree/update/update_files/BrendaTissueOBO"/>
8 <cv id="GO" fullName="Gene Ontology - Slim Versions" version="unknown" URI="http://www.geneontology.org/GO_slims/goslim_goa.obo"/>
9 <cv id="PATO" fullName="Quality ontology" version="unknown" URI="http://obo.cvs.sourceforge.net/*checkout*/obo/obo/ontology/phenotype/quality.obo"/>
10 </cvList>
11 <fileDescription>
12 <fileContent>
13 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
14 </fileContent>
15 <contact>
16 <cvParam cvRef="MS" accession="MS:1000586" name="contact name" value=", " />
17 <cvParam cvRef="MS" accession="MS:1000590" name="contact affiliation" value="" />
18 </contact>
19 </fileDescription>
20 <sampleList count="1">
21 <sample id="sa_0" name="">
22 <cvParam cvRef="MS" accession="MS:1000004" name="sample mass" value="0" unitAccession="UO:0000021" unitName="gram" unitCvRef="UO" />
23 <cvParam cvRef="MS" accession="MS:1000005" name="sample volume" value="0" unitAccession="UO:0000098" unitName="milliliter" unitCvRef="UO" />
24 <cvParam cvRef="MS" accession="MS:1000006" name="sample concentration" value="0" unitAccession="UO:0000175" unitName="gram per liter" unitCvRef="UO" />
25 </sample>
26 </sampleList>
27 <softwareList count="4">
28 <software id="so_in_0" version="" >
29 <cvParam cvRef="MS" accession="MS:1000799" name="custom unreleased software tool" value="" />
30 </software>
31 <software id="so_default" version="" >
32 <cvParam cvRef="MS" accession="MS:1000799" name="custom unreleased software tool" value="" />
33 </software>
34 <software id="so_dp_sp_0_pm_0" version="" >
35 <cvParam cvRef="MS" accession="MS:1000799" name="custom unreleased software tool" value="" />
36 </software>
37 <software id="so_dp_sp_0_pm_1" version="version_string" >
38 <cvParam cvRef="MS" accession="MS:1000756" name="FileConverter" />
39 </software>
40 </softwareList>
41 <instrumentConfigurationList count="1">
42 <instrumentConfiguration id="ic_0">
43 <cvParam cvRef="MS" accession="MS:1000031" name="instrument model" />
44 <componentList count="3">
45 <source order="0">
46 <cvParam cvRef="MS" accession="MS:1000008" name="ionization type" />
47 </source>
48 <analyzer order="0">
49 <cvParam cvRef="MS" accession="MS:1000014" name="accuracy" value="0" unitAccession="UO:0000169" unitName="parts per million" unitCvRef="UO" />
50 <cvParam cvRef="MS" accession="MS:1000022" name="TOF Total Path Length" value="0" unitAccession="UO:0000008" unitName="meter" unitCvRef="UO" />
51 <cvParam cvRef="MS" accession="MS:1000024" name="final MS exponent" value="0" />
52 <cvParam cvRef="MS" accession="MS:1000025" name="magnetic field strength" value="0" unitAccession="UO:0000228" unitName="tesla" unitCvRef="UO" />
53 <cvParam cvRef="MS" accession="MS:1000443" name="mass analyzer type" />
54 </analyzer>
55 <detector order="0">
56 <cvParam cvRef="MS" accession="MS:1000028" name="detector resolution" value="0" />
57 <cvParam cvRef="MS" accession="MS:1000029" name="sampling frequency" value="0" unitAccession="UO:0000106" unitName="hertz" unitCvRef="UO" />
58 <cvParam cvRef="MS" accession="MS:1000026" name="detector type" />
59 </detector>
60 </componentList>
61 <softwareRef ref="so_in_0" />
62 </instrumentConfiguration>
63 </instrumentConfigurationList>
64 <dataProcessingList count="1">
65 <dataProcessing id="dp_sp_0">
66 <processingMethod order="0" softwareRef="so_dp_sp_0_pm_0">
67 <cvParam cvRef="MS" accession="MS:1000543" name="data processing action" />
68 </processingMethod>
69 <processingMethod order="0" softwareRef="so_dp_sp_0_pm_1">
70 <cvParam cvRef="MS" accession="MS:1000544" name="Conversion to mzML" />
71 <cvParam cvRef="MS" accession="MS:1000747" name="completion time" value="1999-12-31+23:59" />
72 <userParam name="parameter: mode" type="xsd:string" value="test_mode"/>
73 </processingMethod>
74 </dataProcessing>
75 </dataProcessingList>
76 <run id="ru_0" defaultInstrumentConfigurationRef="ic_0" sampleRef="sa_0">
77 <spectrumList count="5" defaultDataProcessingRef="dp_sp_0">
78 <spectrum id="spectrum=1" index="0" defaultArrayLength="787" dataProcessingRef="dp_sp_0">
79 <cvParam cvRef="MS" accession="MS:1000525" name="spectrum representation" />
80 <cvParam cvRef="MS" accession="MS:1000511" name="ms level" value="1" />
81 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
82 <cvParam cvRef="MS" accession="MS:1000130" name="positive scan" />
83 <scanList count="1">
84 <cvParam cvRef="MS" accession="MS:1000795" name="no combination" />
85 <scan >
86 <cvParam cvRef="MS" accession="MS:1000016" name="scan start time" value="20.8713" unitAccession="UO:0000010" unitName="second" unitCvRef="UO" />
87 </scan>
88 </scanList>
89 <binaryDataArrayList count="2">
90 <binaryDataArray encodedLength="8396">
91 <cvParam cvRef="MS" accession="MS:1000514" name="m/z array" unitAccession="MS:1000040" unitName="m/z" unitCvRef="MS" />
92 <cvParam cvRef="MS" accession="MS:1000523" name="64-bit float" />
93 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
94 <binary>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</binary>
95 </binaryDataArray>
96 <binaryDataArray encodedLength="4200">
97 <cvParam cvRef="MS" accession="MS:1000515" name="intensity array" unitAccession="MS:1000131" unitName="number of detector counts" unitCvRef="MS"/>
98 <cvParam cvRef="MS" accession="MS:1000521" name="32-bit float" />
99 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
100 <binary>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</binary>
101 </binaryDataArray>
102 </binaryDataArrayList>
103 </spectrum>
104 <spectrum id="spectrum=2" index="1" defaultArrayLength="683">
105 <cvParam cvRef="MS" accession="MS:1000525" name="spectrum representation" />
106 <cvParam cvRef="MS" accession="MS:1000511" name="ms level" value="1" />
107 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
108 <cvParam cvRef="MS" accession="MS:1000130" name="positive scan" />
109 <scanList count="1">
110 <cvParam cvRef="MS" accession="MS:1000795" name="no combination" />
111 <scan >
112 <cvParam cvRef="MS" accession="MS:1000016" name="scan start time" value="22.4373" unitAccession="UO:0000010" unitName="second" unitCvRef="UO" />
113 </scan>
114 </scanList>
115 <binaryDataArrayList count="2">
116 <binaryDataArray encodedLength="7288">
117 <cvParam cvRef="MS" accession="MS:1000514" name="m/z array" unitAccession="MS:1000040" unitName="m/z" unitCvRef="MS" />
118 <cvParam cvRef="MS" accession="MS:1000523" name="64-bit float" />
119 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
120 <binary>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</binary>
121 </binaryDataArray>
122 <binaryDataArray encodedLength="3644">
123 <cvParam cvRef="MS" accession="MS:1000515" name="intensity array" unitAccession="MS:1000131" unitName="number of detector counts" unitCvRef="MS"/>
124 <cvParam cvRef="MS" accession="MS:1000521" name="32-bit float" />
125 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
126 <binary>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</binary>
127 </binaryDataArray>
128 </binaryDataArrayList>
129 </spectrum>
130 <spectrum id="spectrum=3" index="2" defaultArrayLength="3">
131 <cvParam cvRef="MS" accession="MS:1000525" name="spectrum representation" />
132 <cvParam cvRef="MS" accession="MS:1000511" name="ms level" value="2" />
133 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
134 <cvParam cvRef="MS" accession="MS:1000130" name="positive scan" />
135 <scanList count="1">
136 <cvParam cvRef="MS" accession="MS:1000795" name="no combination" />
137 <scan >
138 <cvParam cvRef="MS" accession="MS:1000016" name="scan start time" value="30.2243" unitAccession="UO:0000010" unitName="second" unitCvRef="UO" />
139 </scan>
140 </scanList>
141 <binaryDataArrayList count="2">
142 <binaryDataArray encodedLength="32">
143 <cvParam cvRef="MS" accession="MS:1000514" name="m/z array" unitAccession="MS:1000040" unitName="m/z" unitCvRef="MS" />
144 <cvParam cvRef="MS" accession="MS:1000523" name="64-bit float" />
145 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
146 <binary>AAAAQJAwgUAAAADAfaiBQAAAACAjJ4JA</binary>
147 </binaryDataArray>
148 <binaryDataArray encodedLength="16">
149 <cvParam cvRef="MS" accession="MS:1000515" name="intensity array" unitAccession="MS:1000131" unitName="number of detector counts" unitCvRef="MS"/>
150 <cvParam cvRef="MS" accession="MS:1000521" name="32-bit float" />
151 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
152 <binary>Q1AYQ2XIvEL9I51D</binary>
153 </binaryDataArray>
154 </binaryDataArrayList>
155 </spectrum>
156 <spectrum id="spectrum=4" index="3" defaultArrayLength="5">
157 <cvParam cvRef="MS" accession="MS:1000525" name="spectrum representation" />
158 <cvParam cvRef="MS" accession="MS:1000511" name="ms level" value="2" />
159 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
160 <cvParam cvRef="MS" accession="MS:1000130" name="positive scan" />
161 <scanList count="1">
162 <cvParam cvRef="MS" accession="MS:1000795" name="no combination" />
163 <scan >
164 <cvParam cvRef="MS" accession="MS:1000016" name="scan start time" value="27.8168" unitAccession="UO:0000010" unitName="second" unitCvRef="UO" />
165 </scan>
166 </scanList>
167 <binaryDataArrayList count="2">
168 <binaryDataArray encodedLength="56">
169 <cvParam cvRef="MS" accession="MS:1000514" name="m/z array" unitAccession="MS:1000040" unitName="m/z" unitCvRef="MS" />
170 <cvParam cvRef="MS" accession="MS:1000523" name="64-bit float" />
171 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
172 <binary>AAAAAAA4gEAAAACg76CHQAAAAGByuIdAAAAAAADIh0AAAABg+26IQA==</binary>
173 </binaryDataArray>
174 <binaryDataArray encodedLength="28">
175 <cvParam cvRef="MS" accession="MS:1000515" name="intensity array" unitAccession="MS:1000131" unitName="number of detector counts" unitCvRef="MS"/>
176 <cvParam cvRef="MS" accession="MS:1000521" name="32-bit float" />
177 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
178 <binary>cnq9QXJQmEPn4JFCfnq9QY1f/0E=</binary>
179 </binaryDataArray>
180 </binaryDataArrayList>
181 </spectrum>
182 <spectrum id="spectrum=5" index="4" defaultArrayLength="8">
183 <cvParam cvRef="MS" accession="MS:1000525" name="spectrum representation" />
184 <cvParam cvRef="MS" accession="MS:1000511" name="ms level" value="2" />
185 <cvParam cvRef="MS" accession="MS:1000294" name="mass spectrum" />
186 <cvParam cvRef="MS" accession="MS:1000130" name="positive scan" />
187 <scanList count="1">
188 <cvParam cvRef="MS" accession="MS:1000795" name="no combination" />
189 <scan >
190 <cvParam cvRef="MS" accession="MS:1000016" name="scan start time" value="25.3972" unitAccession="UO:0000010" unitName="second" unitCvRef="UO" />
191 </scan>
192 </scanList>
193 <binaryDataArrayList count="2">
194 <binaryDataArray encodedLength="88">
195 <cvParam cvRef="MS" accession="MS:1000514" name="m/z array" unitAccession="MS:1000040" unitName="m/z" unitCvRef="MS" />
196 <cvParam cvRef="MS" accession="MS:1000523" name="64-bit float" />
197 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
198 <binary>AAAAgGlaf0AAAAAAxmp/QAAAAKAOin9AAAAAQKXDf0AAAABAsjOAQAAAAAAfeoBAAAAAAJQigUAAAAAg0/aJQA==</binary>
199 </binaryDataArray>
200 <binaryDataArray encodedLength="44">
201 <cvParam cvRef="MS" accession="MS:1000515" name="intensity array" unitAccession="MS:1000131" unitName="number of detector counts" unitCvRef="MS"/>
202 <cvParam cvRef="MS" accession="MS:1000521" name="32-bit float" />
203 <cvParam cvRef="MS" accession="MS:1000576" name="no compression" />
204 <binary>dFNiQxQQLkIcK5ZCCBdQQ2L91UOKGBVDhPZcQ0KtHUM=</binary>
205 </binaryDataArray>
206 </binaryDataArrayList>
207 </spectrum>
208 </spectrumList>
209 </run>
210 </mzML>
211 <indexList count="1">
212 <index name="spectrum">
213 <offset idRef="spectrum=1">4899</offset>
214 <offset idRef="spectrum=2">19011</offset>
215 <offset idRef="spectrum=3">31431</offset>
216 <offset idRef="spectrum=4">32961</offset>
217 <offset idRef="spectrum=5">34527</offset>
218 </index>
219 </indexList>
220 <indexListOffset>36171</indexListOffset>
221 <fileChecksum>0</fileChecksum>
222 </indexedmzML>