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Changes for page Arbor

Last modified by abonard on 2025/04/10 15:11
From version 23.1
edited by abonard
on 2025/04/10 15:11
Change comment: There is no comment for this version
To version 2.1
edited by jessicamitchell
on 2023/09/11 11:44
Change comment: There is no comment for this version

Summary

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Author
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1 -XWiki.abonard
1 +XWiki.jessicamitchell
Content
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1 +Available tutorials:
1 1  
3 +=== [[A simple single cell model>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_model.html||rel=" noopener noreferrer" target="_blank"]] ===
2 2  
3 -* ((( ==== **[[Beginner >>||anchor = "HBeginner-1"]]** ==== )))
5 +//Level: beginner//
4 4  
5 -=== **Beginner** ===
7 +Intro to building a morphology from a arbor.segment_tree.
8 +Intro to region and locset expressions.
9 +Intro to decors and cell decorations.
10 +Building a arbor.cable_cell object.
11 +Building a arbor.single_cell_model object.
12 +Running a simulation and visualising the results.
13 +=== [[A detailed single cell model>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_detailed.html||rel=" noopener noreferrer" target="_blank"]] ===
6 6  
7 -=== [[Arbor Tutorial Index – from Cells to Networks>>https://docs.arbor-sim.org/en/latest/tutorial/index.html||rel=" noopener noreferrer" target="_blank"]] ===
15 +//Level: advanced//
8 8  
9 -**Level**: beginner(%%) **Type**: interactive tutorial
17 +Building a morphology from a arbor.segment_tree.
18 +Building a morphology from an SWC file.
19 +Writing and visualizing region and locset expressions.
20 +Building a decor.
21 +Discretising the morphology.
22 +Setting and overriding model and cell parameters.
23 +Running a simulation and visualising the results using a arbor.single_cell_model.
24 +=== [[A detailed single cell recipe>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_detailed_recipe.html||rel=" noopener noreferrer" target="_blank"]] ===
10 10  
11 -=== [[A simple single cell model>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_model.html||rel=" noopener noreferrer" target="_blank"]] ===
26 +//Level: advanced//
12 12  
13 -**Level**: beginner(%%) **Type**: user documentation
28 +Building a arbor.recipe.
29 +Building an arbor.context.
30 +Create a arbor.simulation.
31 +Running the simulation and visualizing the results.
32 +=== [[A ring network>>https://docs.arbor-sim.org/en/stable/tutorial/network_ring.html||rel=" noopener noreferrer" target="_blank"]] ===
14 14  
15 -This tutorial will give you an intro into building a morphology from an arbor.segment_tree, region and locset expressions and into decors and cell decorations.
16 -Furthermore will you learn about building an arbor.cable_cell object, arbor.single_cell_model object as well as running a simulation and visualising the results.
34 +//Level: advanced//
17 17  
36 +Building a basic arbor.cell with a synapse site and spike generator.
37 +Building a arbor.recipe with a network of interconnected cells.
38 +Running the simulation and extract the results.
39 +=== [[A simple dendrite>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_cable.html||rel=" noopener noreferrer" target="_blank"]] ===
40 +
41 +//Level: advanced//
42 +
43 +Creating a simulation recipe of a single dendrite.
44 +Placing probes on the morphology.
45 +Running the simulation and extracting the results.
46 +Investigating the influence of control volume policies.
47 +=== [[A simple single cell recipe>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_recipe.html||rel=" noopener noreferrer" target="_blank"]] ===
48 +
49 +//Level: advanced//
50 +
51 +Building a arbor.recipe.
52 +Using the recipe, default context and domain decomposition to create an arbor.simulation
53 +Running the simulation and visualizing the results.
54 +=== [[A single cell model from the Allen Brain Atlas>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_allen.html||rel=" noopener noreferrer" target="_blank"]] ===
55 +
56 +//Level: advanced//
57 +
58 +Take a model from the Allen Brain Atlas.
59 +Load a morphology from an swc file.
60 +Load a parameter fit file and apply it to a arbor.decor.
61 +Building a arbor.cable_cell representative of the cell in the model.
62 +Building a arbor.recipe reflective of the cell stimulation in the model.
63 +Running a simulation and visualising the results.
64 +=== [[A single cell model from the BluePyOpt Cell Optimisation Library>>https://docs.arbor-sim.org/en/stable/tutorial/single_cell_bluepyopt.html||rel=" noopener noreferrer" target="_blank"]] ===
65 +
66 +//Level: advanced//
67 +
68 +Export a model with optimised parameters from BluePyOpt to a mixed JSON/ACC format.
69 +Load the morphology, label dictionary and decor from the mixed JSON/ACC format in Arbor.
70 +Perform axon replacement with a surrogate model using the segment tree editing functionality.
71 +Determine voltage probe locations that match BluePyOpt protocols defined with the Neuron simulator using the Arbor graphical user interface (GUI).
72 +Create an arbor.cable_cell and an arbor.single_cell_model or arbor.recipe supporting mechanism catalogues that are consistent with BluePyOpt.
73 +Running a simulation and visualising the results.
74 +=== [[Distributed ring network (MPI)>>https://docs.arbor-sim.org/en/stable/tutorial/network_ring_mpi.html||rel=" noopener noreferrer" target="_blank"]] ===
75 +
76 +//Level: advanced//
77 +
78 +Building a basic MPI aware arbor.context to run a network. This requires that you have built Arbor with MPI support enabled.
79 +Running the simulation and extracting the results.
80 +=== [[Extracellular signals (LFPykit)>>https://docs.arbor-sim.org/en/stable/tutorial/probe_lfpykit.html||rel=" noopener noreferrer" target="_blank"]] ===
81 +
82 +//Level: advanced//
83 +
84 +Recording of transmembrane currents using arbor.cable_probe_total_current_cell
85 +Recording of stimulus currents using arbor.cable_probe_stimulus_current_cell
86 +Using the arbor.place_pwlin API
87 +Map recorded transmembrane currents to extracellular potentials by deriving Arbor specific classes from LFPykit’s lfpykit.LineSourcePotential and lfpykit.CellGeometry
88 +=== [[GPU and profiling>>https://docs.arbor-sim.org/en/stable/tutorial/network_ring_gpu.html||rel=" noopener noreferrer" target="_blank"]] ===
89 +
90 +//Level: advanced//
91 +
92 +Building a arbor.context that’ll use a GPU. This requires that you have built Arbor with GPU support enabled.
93 +Build a arbor.domain_decomposition and provide a arbor.partition_hint.
94 +Profile an Arbor simulation using arbor.meter_manager.
95 +=== [[Spike Timing-dependent Plasticity Curve>>https://docs.arbor-sim.org/en/stable/tutorial/calcium_stdp_curve.html||rel=" noopener noreferrer" target="_blank"]] ===
96 +
97 +//Level: advanced//
98 +
99 +=== [[Two cells connected via a gap junction>>https://docs.arbor-sim.org/en/stable/tutorial/network_two_cells_gap_junctions.html||rel=" noopener noreferrer" target="_blank"]] ===
100 +
101 +//Level: advanced//
102 +
103 +Creating a simulation recipe for two cells.
104 +Placing probes.
105 +Running the simulation and extracting the results.
106 +Adding a gap junction connection.
107 +