examples:orchestrated_plasticity
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examples:orchestrated_plasticity [2016/01/29 18:38] – [Getting the source] update path zenke | examples:orchestrated_plasticity [2016/06/16 17:02] (current) – Updates link zenke | ||
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====== Orchestrated Plasticity ====== | ====== Orchestrated Plasticity ====== | ||
- | You will find the code to reproduce the key results of [[http:// | + | You will find the code to reproduce the key results of [[http:// |
{{ : | {{ : | ||
===== Getting the source | ===== Getting the source | ||
- | To run the orchestrated plasticity simulation as described in Figure 3 of the paper download or clone the pubsim | + | To run the orchestrated plasticity simulation as described in Figure 3 of the paper download or clone the pub2015orchestrated |
===== Running the code ===== | ===== Running the code ===== | ||
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===== Output files ===== | ===== Output files ===== | ||
- | The simulation will per default run on 4 cores locally, but this might change depending on your [[manual: | + | The simulation will per default run on 4 cores locally, but this might change depending on your [[manual: |
+ | |||
+ | ==== Phases of the simulation ==== | ||
+ | |||
+ | Overall the code runs in three distinct and phases which are run consecutively. | ||
+ | The network is initialized with random recurrent weights and spatially localized input weights as described in the paper. '' | ||
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+ | The second phase is executed by '' | ||
+ | |||
+ | Finally, the simulation is continued with '' | ||
==== Updating rf1.pat to sort cells according to their preferred stimulus ==== | ==== Updating rf1.pat to sort cells according to their preferred stimulus ==== |
examples/orchestrated_plasticity.1454092696.txt.gz · Last modified: 2016/01/29 18:38 by zenke