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  • parallel-simulations.png
  • plot-posteriors.png
  • plot-timeseries-vbi.png

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8	8
9	9	== Purpose ==
10	10
11		-This is a Jupyter Lab extension that offers graphical support for TVB and VBI workflows. It is already available in the EBRAINS Lab and it allows users to configure and execute TVB simulations and VBI inference workflows directly from a GUI, while drastically reducing the complexity of configuring them inside a Jupyter Lab notebook.
	11	+This is a Jupyter Lab extension that offers graphical support for TVB and VBI workflows. It is already available in the EBRAINS Lab and it allows users to configure and execute TVB simulations and VBI inference workflows directly from a GUI, while drastically reducing the complexity of configuring them inside a Jupyter Lab notebook. Try edit
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13	13	{{html}}
14	14	<iframe width="1200" height="450" src="https://www.youtube.com/embed/-cjZOsU6PBg" title="YouTube video player" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>
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142	142	[[image:export-model-configuration.png||alt="image-20221116130425-1.png" data-xwiki-image-style-alignment="center" height="763" width="1000"]]
143	143
144	144
145		-=== 2. Visualize time series resulted from TVB simulations ===
	145	+=== 2. Visualize time series resulted from simulations ===
146	146
147	147	This functionality is available for the **StoreResultsToDrive** component. Right click on the **StoreResultsToDrive** and select the **Open Viewer** option:
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156	156
157	157	[[image:timeseries-plotly.png||alt="view3.png" height="593" width="1100"]]
158	158
159		-
160		-=== 3. Visualize posterior samples with a pairplot (VBI inferenece) ===
161		-
162		-This functionality is available for the **SamplePosterior** component. Right click on the component and select the **Open Viewer** functionality.
163		-
164		-This opens a new JupyterLab tab with an editable notebook. After following the instructions in the notebook, you will generate a pairplot of the posterior samples, showing the distribution of each parameter (uncertainty) and the relationships between parameters.
165		-
166		-*Make sure the workflow has been executed so the viewer has data to load.
167		-
168		-[[image:plot-posteriors.png||height="593" width="1100"]]
169		-
170		-
171		-=== 4. Visualize time series from VBI simulations ===
172		-
173		-This functionality is available for the **SimulationRunner** component. Right click on the component and select the **Open Viewer** functionality.
174		-
175		-This opens a new JupyterLab tab with an editable notebook. After following the instructions in the notebook, you will see a simple time-series plot of the simulated model signal over time.
176		-
177		-*Make sure the workflow has been executed so the viewer has data to load.
178		-[[image:plot-timeseries-vbi.png||height="592" width="1100"]]
179		-
180	180	== ==
181	181
182	182	== Workflow examples ==
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193	193
194	194	=== 2. Full VBI Inference workflow ===
195	195
196		-Contains all VBI components required to run an inference workflow, from prior sampling and simulation to posterior training and posterior sampling.
	175	+Contains all VBI components required to run an inference workflow (e.g., inference configuration, model, simulator, train posterior, sample posterior).
197	197
198		-The workflow starts with **ConfigInference**, which builds the configuration inputs needed by the workflow. It samples parameter values from the prior distribution to generate theta and prepares the feature-extraction configuration (cfg) used later in the pipeline.
	177	+[[image:vbi_workflow.png||height="590" width="1100"]]
199	199
200		-Next, **SimulationRunner** executes the selected **VBI model** for a batch of parameter samples (theta) using the chosen backend (//cpp//, //cupy// or //numba//). It selects the requested output signal from the model result and extracts the summary features defined in cfg, producing the feature matrix used for training.
	179	+(% class="wikigeneratedid" %)
	180	+{{{ }}}
201	201
202		-The resulting features and parameter samples are then passed to **TrainPosterior**, which standardizes the feature matrix with //StandardScaler //and trains a posterior distribution using an SBI method (for example //SNPE//, //SNLE//, or //SNRE//). In the last step, **SamplePosterior** draws parameter samples from the trained posterior distribution, conditioned on the selected observed feature vector.
203	203
204		-[[image:vbi_workflow.png||height="590" width="1100"]]
205		-
206	206	=== 3. Configuring model parameters using the PhasePlaneWidget: ===
207	207
208	208	Same workflow as before, but the parameter for the model used in simulation are set using the PhasePlaneWidget.
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211	211	<iframe width="1280" height="720" src="https://www.youtube.com/embed/jhGfYul1z9k" title="YouTube video player" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>
212	212	{{/html}}
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	191	+
214	214	=== 4. Using siibra to retrieve connectivities from the EBRAINS KG ===
215	215
216	216	A simulation workflow where **siibra **is used to retrieve a connectivity from the EBRAINS KG. That connectivity is fed into a TVB Simulator, where the rest of the parameters (coupling, model, etc.) are set to default values.
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219	219	<iframe width="1280" height="720" src="https://www.youtube.com/embed/hnqTpFGCYMg" title="YouTube video player" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>
220	220	{{/html}}
221	221
	200	+
222	222	=== 5. Run a workflow as an HPB job ===
223	223
224	224	A workflow simulation which is run remotely, by submitting a job to an HPC site and getting back the results (TimeSeries object).
225	225
226		-=== 6. Parallel simulations workflow ===
227		-
228		-This example demonstrates **Parameter Space Exploration** (PSE) by running multiple TVB simulations in parallel for different parameter combinations.
229		-
230		-The workflow uses two nested ForEach components to iterate over coupling and conduction speed sets of values. For each (coupling, conduction_speed) pair, a simulation run is executed with the help of the RunParallelProcess component, which runs the workflow body in separate worker processes (using multiprocessing + dill).
231		-
232		-[[image:parallel-simulations.png||height="590" width="1100"]]
233		-
234		-
235	235	{{html}}<iframe width="1280" height="720" src="https://www.youtube.com/embed/M6rZClFgRrM" title="YouTube video player" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share" allowfullscreen></iframe>{{/html}}
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parallel-simulations.png

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