Difference between revisions of "Tools Comparison 2022"
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| − | Here we collect information about similar software and their features in comparison with BioUML. | + | Here we collect information about similar software and their features in comparison with BioUML. |
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== Comparisons made by third parties == | == Comparisons made by third parties == | ||
<ul> | <ul> | ||
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<li>Extensive comparison of different simulators according to their speed and percentage of passed SBML tests was performed by Maggioli et al.<ref>Maggioli, F., Mancini, T., Tronci, E. (2020). SBML2Modelica: integrating biochemical models within open-sThis comparison was made in February 2022. Previous was done in 2019 and is available at separate page [[Tools Comparison]].tandard simulation ecosystems. Bioinformatics, 36(7), 2165-2172. {{doi|https://doi.org/10.1093/bioinformatics/btz860}}</ref> | <li>Extensive comparison of different simulators according to their speed and percentage of passed SBML tests was performed by Maggioli et al.<ref>Maggioli, F., Mancini, T., Tronci, E. (2020). SBML2Modelica: integrating biochemical models within open-sThis comparison was made in February 2022. Previous was done in 2019 and is available at separate page [[Tools Comparison]].tandard simulation ecosystems. Bioinformatics, 36(7), 2165-2172. {{doi|https://doi.org/10.1093/bioinformatics/btz860}}</ref> | ||
</ul> | </ul> | ||
| − | |||
| − | == Modeling tools comparison | + | == Modeling tools comparison == |
| + | |||
| + | This comparison was made in February 2022. Previous was done in 2019 and is available at separate page [[Tools Comparison]].<br> | ||
{| class="wikitable" | {| class="wikitable" | ||
|+ | |+ | ||
| | | | ||
| − | |BioUML | + | |[http://wiki.biouml.org/ BioUML] <ref>Kolpakov, F., Akberdin, I., Kashapov, T., Kiselev, L., Kolmykov, S., Kondrakhin, Y., Kutumova, E., Mandrik, N., Pintus, S., Ryabova, A. and Sharipov, R. (2019). BioUML: an integrated environment for systems biology and collaborative analysis of biomedical data. Nucleic acids research, 47(W1), W225-W233. {{doi|https://doi.org/10.1093/nar/gkz440}} |
| − | |COPASI | + | </ref> |
| − | |iBioSim | + | |[http://copasi.org/ COPASI] <ref>Hoops S., Sahle S., Gauges R., Lee C., Pahle J., Simus N., Singhal M., Xu L., Mendes P. and Kummer U. (2006). COPASI: a COmplex PAthway SImulator. Bioinformatics 22, 3067-74.</ref> |
| − | |CellDesigner | + | |[https://async.ece.utah.edu/tools/ibiosim/ iBioSim] <ref>Watanabe, L., Nguyen, T., Zhang, M., Zundel, Z., Zhang, Z., Madsen, C., Roehner, N., Myers, C. (2018). iBioSim 3: a tool for model-based genetic circuit design. ACS synthetic biology, 8(7), 1560-1563. {{doi|https://doi.org/10.1021/acssynbio.8b00078}}</ref>. |
| − | |Tellurium | + | |
| − | |Morpheus | + | |[https://www.celldesigner.org/ CellDesigner] <ref>Funahashi, A., Tanimura, N., Morohashi, M., and Kitano, H., CellDesigner: a process diagram editor for gene-regulatory and biochemical networks, BIOSILICO, 1:159-162, 2003</ref> |
| − | |libRoadRunner | + | |[http://libroadrunner.org/ Tellurium]<ref>Choi K., Medley K., König M., Stocking K., Smith L., Gu S., Sauro, H.M. |
| + | Tellurium: An extensible python-based modeling environment for systems and synthetic biology, Biosystems, Volume 171, 2018, Pages 74-79. {{doi|https://doi.org/10.1016/j.biosystems.2018.07.006}}.</ref> | ||
| + | |[https://morpheus.gitlab.io/ Morpheus]<ref>J. Starruß, W. de Back, L. Brusch and A. Deutsch. Morpheus: a user-friendly modeling environment for multiscale and multicellular systems biology. Bioinformatics, 30 (9): 1331-1332, 2014.</ref> | ||
| + | |[http://libroadrunner.org/ libRoadRunner] | ||
|- | |- | ||
| − | | | + | | Current version<br>(stable) |
| − | | | + | | 2021.3<br> (Sep 2021) |
| − | | | + | | 4.34<br> (Aug 2021) |
| − | | | + | | 3.0.0<br> (Sep 2017) |
| − | | | + | | 4.4.2<br> (Jun 2020) |
| − | | | + | | 2.2.0<br> (Dec 2019) |
| − | | | + | | 2.2.6<br> (Feb 2022) |
| − | | | + | | 1.4.18<br> (May 2017) |
|- | |- | ||
| − | |'''Capabilities''' | + | !colspan="9"| <center>'''Capabilities'''</center> |
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|- | |- | ||
|1. Model creation | |1. Model creation | ||
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| text-based | | text-based | ||
| via tables | | via tables | ||
| − | | | + | | via direct API |
|- | |- | ||
|2. Simulation | |2. Simulation | ||
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| - | | - | ||
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| − | | - | + | | +/- (3rd party<br>python libraries) |
| − | | | + | | + |
| − | | | + | | via python/Julia |
|- | |- | ||
|4. Model analysis | |4. Model analysis | ||
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| + | | + | ||
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|- | |- | ||
| − | |5. Database access | + | |5. Unique or rare features |
| + | | Parameter identifiability,<br>Manual parameter fitting | ||
| + | | Generic nonlinear optimization | ||
| + | | Markov Chain analysis<br> using state-based abstraction | ||
| + | | Provides a special notation<br>for biochemical reaction networks<br> (i.e. CellDesigner notation) | ||
| + | | | ||
| + | | MopheusML language for<br> multicellular and multiscale modeling,<br>spatial models,<br>Cellular Potts models | ||
| + | | | ||
| + | |- | ||
| + | |6. Database access | ||
| + | | + | ||
| - | | - | ||
| + | | + | ||
| + | | + | ||
| + | | +/- (3rd party<br>python libraries) | ||
| - | | - | ||
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|- | |- | ||
| − | | | + | |7. Jupyter notebooks |
| + | | + | ||
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| − | |'''Model formalism''' | + | !colspan="9"|<center>'''Model formalism'''</center> |
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|1. ODE | |1. ODE | ||
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|4. Discrete | |4. Discrete | ||
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|5. Flux balance | |5. Flux balance | ||
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|6. Modular modeling | |6. Modular modeling | ||
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|7. Mixed formalisms | |7. Mixed formalisms | ||
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|8. Agent-based | |8. Agent-based | ||
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|9. Rule-based | |9. Rule-based | ||
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|10. Population-based | |10. Population-based | ||
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| + | |11. Cellular Potts Models | ||
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| − | |''' | + | !colspan="9"|'''Systems Biology Markup Language''' |
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| − | |1. | + | |1. level and version |
| − | | l3v2 | + | | l3v2 (all tests passed) |
| − | | | + | | l3v2 except<br>algebraic |
| − | | | + | | l3v2 |
| − | | | + | | l2v4 |
| − | | | + | | l3v2, except<br>algebraic, delay |
| − | | | + | | l3v2, except<br>algebraic |
| − | | | + | | l3v2 except<br>algebraic, delay |
|- | |- | ||
| − | |2. | + | |2. comp |
| − | | fully | + | | fully (all tests passed) |
| + | | import | ||
| + | | fully (all tests passed) | ||
| - | | - | ||
| partially | | partially | ||
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| partially | | partially | ||
| partially | | partially | ||
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| − | |3. | + | |3. fbc |
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| − | |4. | + | |4. arrays |
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| + | |5. distrib | ||
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| − | | | + | |6. layout |
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| − | | | + | !colspan="9"|'''Other Standards''' |
| + | |- | ||
| + | |1. SBGN PD | ||
| + | | + | ||
| + | | export | ||
| + | | - | ||
| + | | + | ||
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| + | |2. SBGN-ML | ||
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| − | | | + | |3. SedML |
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| + | |4. Combine archive | ||
| + | | + | ||
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| + | | - | ||
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| − | | | + | |5. SBOL |
| - | | - | ||
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| + | | +/- (3rd party<br>python libraries) | ||
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| − | | | + | |6. Antimony |
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| − | | | + | |7. Bionetgen |
| − | | + ( | + | | + (standalone) |
| + | | - | ||
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| − | | | + | |8. BioPAX |
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| − | |'''Availability''' | + | !colspan="9"|'''Availability''' |
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|1. Windows | |1. Windows | ||
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|2. Linux | |2. Linux | ||
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|3. MacOS | |3. MacOS | ||
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|4. Web application | |4. Web application | ||
| + | | + | ||
| + | | [http://shiny.copasi.org +] | ||
| - | | - | ||
| - | | - | ||
| + | | via Colab | ||
| - | | - | ||
| − | | | + | | via Colab |
| − | + | ||
| − | + | ||
|- | |- | ||
|'''Programming Language''' | |'''Programming Language''' | ||
| Java | | Java | ||
| C++ | | C++ | ||
| + | | Java/С | ||
| Java | | Java | ||
| − | + | | Python/Julia | |
| − | | Python | + | |
| C++ | | C++ | ||
| − | | | + | | C/C++/Pyhton/Julia |
|} | |} | ||
Latest revision as of 13:50, 28 March 2022
Here we collect information about similar software and their features in comparison with BioUML.
[edit] Comparisons made by third parties
- Support of SBML standard can be measured by percentage of passed tests from test suite presented on SBML web site.
- Extensive comparison of different simulators according to their speed and percentage of passed SBML tests was performed by Maggioli et al.[1]
[edit] Modeling tools comparison
This comparison was made in February 2022. Previous was done in 2019 and is available at separate page Tools Comparison.
| BioUML [2] | COPASI [3] | iBioSim [4]. | CellDesigner [5] | Tellurium[6] | Morpheus[7] | libRoadRunner | ||
| Current version (stable) |
2021.3 (Sep 2021) |
4.34 (Aug 2021) |
3.0.0 (Sep 2017) |
4.4.2 (Jun 2020) |
2.2.0 (Dec 2019) |
2.2.6 (Feb 2022) |
1.4.18 (May 2017) | |
| | ||||||||
|---|---|---|---|---|---|---|---|---|
| 1. Model creation | visual\text-based | via tables | visual | visual | text-based | via tables | via direct API | |
| 2. Simulation | + | + | + | + | + | + | + | |
| 3. Parameter fitting | + | + | - | - | +/- (3rd party python libraries) |
+ | via python/Julia | |
| 4. Model analysis | + | + | + | - | + | + | + | |
| 5. Unique or rare features | Parameter identifiability, Manual parameter fitting |
Generic nonlinear optimization | Markov Chain analysis using state-based abstraction |
Provides a special notation for biochemical reaction networks (i.e. CellDesigner notation) |
MopheusML language for multicellular and multiscale modeling, spatial models, Cellular Potts models |
|||
| 6. Database access | + | - | + | + | +/- (3rd party python libraries) |
- | - | |
| 7. Jupyter notebooks | + | + | + | - | + | - | + | |
| 1. ODE | + | + | + | + | + | + | + | |
| 2. Stochastic Gillespie-type | + | + | + | + | + | + | + | |
| 3. Algebraic | + | - | + | - | + | + | - | |
| 4. Discrete | + | + | + | + | + | + | + | |
| 5. Flux balance | + | - | + | - | - | - | - | |
| 6. Modular modeling | + | - | + | - | + | + | + | |
| 7. Mixed formalisms | + | - | + | - | - | + | - | |
| 8. Agent-based | + | - | + | - | - | + | - | |
| 9. Rule-based | + | - | - | - | - | + | - | |
| 10. Population-based | + | - | + | - | - | + | - | |
| 11. Cellular Potts Models | - | - | - | - | - | + | - | |
| Systems Biology Markup Language | ||||||||
| 1. level and version | l3v2 (all tests passed) | l3v2 except algebraic |
l3v2 | l2v4 | l3v2, except algebraic, delay |
l3v2, except algebraic |
l3v2 except algebraic, delay | |
| 2. comp | fully (all tests passed) | import | fully (all tests passed) | - | partially | partially | partially | |
| 3. fbc | + | - | + | - | - | - | - | |
| 4. arrays | - | - | + | - | - | - | - | |
| 5. distrib | - | - | + | - | - | - | - | |
| 6. layout | - | - | + | - | - | - | - | |
| Other Standards | ||||||||
| 1. SBGN PD | + | export | - | + | - | - | - | |
| 2. SBGN-ML | + | - | - | + | - | - | - | |
| 3. SedML | + | + | + | + | + | - | - | |
| 4. Combine archive | + | + | + | - | + | - | - | |
| 5. SBOL | - | - | + | - | +/- (3rd party python libraries) |
- | - | |
| 6. Antimony | + | - | - | - | + | - | - | |
| 7. Bionetgen | + (standalone) | - | - | - | - | - | - | |
| 8. BioPAX | + | - | - | + | - | - | - | |
| Availability | ||||||||
| 1. Windows | + | + | + | + | + | + | + | |
| 2. Linux | + | + | + | + | + | + | + | |
| 3. MacOS | + | + | + | + | + | + | + | |
| 4. Web application | + | + | - | - | via Colab | - | via Colab | |
| Programming Language | Java | C++ | Java/С | Java | Python/Julia | C++ | C/C++/Pyhton/Julia | |
[edit] References
- ↑ Maggioli, F., Mancini, T., Tronci, E. (2020). SBML2Modelica: integrating biochemical models within open-sThis comparison was made in February 2022. Previous was done in 2019 and is available at separate page Tools Comparison.tandard simulation ecosystems. Bioinformatics, 36(7), 2165-2172. doi:https://doi.org/10.1093/bioinformatics/btz860
- ↑ Kolpakov, F., Akberdin, I., Kashapov, T., Kiselev, L., Kolmykov, S., Kondrakhin, Y., Kutumova, E., Mandrik, N., Pintus, S., Ryabova, A. and Sharipov, R. (2019). BioUML: an integrated environment for systems biology and collaborative analysis of biomedical data. Nucleic acids research, 47(W1), W225-W233. doi:https://doi.org/10.1093/nar/gkz440
- ↑ Hoops S., Sahle S., Gauges R., Lee C., Pahle J., Simus N., Singhal M., Xu L., Mendes P. and Kummer U. (2006). COPASI: a COmplex PAthway SImulator. Bioinformatics 22, 3067-74.
- ↑ Watanabe, L., Nguyen, T., Zhang, M., Zundel, Z., Zhang, Z., Madsen, C., Roehner, N., Myers, C. (2018). iBioSim 3: a tool for model-based genetic circuit design. ACS synthetic biology, 8(7), 1560-1563. doi:https://doi.org/10.1021/acssynbio.8b00078
- ↑ Funahashi, A., Tanimura, N., Morohashi, M., and Kitano, H., CellDesigner: a process diagram editor for gene-regulatory and biochemical networks, BIOSILICO, 1:159-162, 2003
- ↑ Choi K., Medley K., König M., Stocking K., Smith L., Gu S., Sauro, H.M. Tellurium: An extensible python-based modeling environment for systems and synthetic biology, Biosystems, Volume 171, 2018, Pages 74-79. doi:https://doi.org/10.1016/j.biosystems.2018.07.006.
- ↑ J. Starruß, W. de Back, L. Brusch and A. Deutsch. Morpheus: a user-friendly modeling environment for multiscale and multicellular systems biology. Bioinformatics, 30 (9): 1331-1332, 2014.
