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picker:tilt_pair_picking [2017/06/12 15:53]
kbertra2 		picker:tilt_pair_picking [2017/06/20 17:17] (current)
kbertra2
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   - From this point, work with //tilted data// until otherwise noted. You will deal with the tilted and untilted data separately. Once the data is appended, it needs to be filtered. Find the [[eyes:​logics:​Filtering|]] logic and connect it with the [[eyes:​logics:​Append|]] logic. Click on the [[eyes:​logics:​Filtering|]] logic and apply the following settings: Processor = Gauss bandpass, Upper frequency = 0.6, Lower frequency = 0.04, Show filter function = unchecked, Transmission = 0. Click the "​Play"​ icon to run the logic.   - From this point, work with //tilted data// until otherwise noted. You will deal with the tilted and untilted data separately. Once the data is appended, it needs to be filtered. Find the [[eyes:​logics:​Filtering|]] logic and connect it with the [[eyes:​logics:​Append|]] logic. Click on the [[eyes:​logics:​Filtering|]] logic and apply the following settings: Processor = Gauss bandpass, Upper frequency = 0.6, Lower frequency = 0.04, Show filter function = unchecked, Transmission = 0. Click the "​Play"​ icon to run the logic.
   - Next select the [[eyes:​logics:​Normalization|]] logic and connect it to the [[eyes:​logics:​Filtering|]] logic of the previous step. Click on the [[eyes:​logics:​Normalization|]] logic and apply the following settings: Processor = Normalize against background, Invert = (select yes if micrographs were acquired in negative stain). ​   - Next select the [[eyes:​logics:​Normalization|]] logic and connect it to the [[eyes:​logics:​Filtering|]] logic of the previous step. Click on the [[eyes:​logics:​Normalization|]] logic and apply the following settings: Processor = Normalize against background, Invert = (select yes if micrographs were acquired in negative stain). ​
-  - Find the [[eyes:​logics:​Rct2|]] (random conical tilt) logic and connect ​it to the output of [[eyes:​logics:​Normalization|]] to "​io:​tilted"​ input of the [[eyes:​logics:​Rct2|]] logic. Before running the [[eyes:​logics:​Rct2|]] logic, click on it and adjust the settings as shown below (note: pixel size varies): ​+  - Find the [[eyes:​logics:​rct|]] (random conical tilt) logic and connect the output of [[eyes:​logics:​Normalization|]] to "​io:​tilted"​ input of the [[eyes:​logics:​rct|]] logic. Before running the [[eyes:​logics:​rct|]] logic, click on it and adjust the settings as shown below (note: pixel size varies): ​
 {{ :​picker:​selection_008.png |}} At this point, your logics should be set up in the following way: {{ :​picker:​selection_009.png |}}    {{ :​picker:​selection_008.png |}} At this point, your logics should be set up in the following way: {{ :​picker:​selection_009.png |}}   
 Note that the input labeled "​io:​untilted"​ has not been connected. Your //​untilted//​ data must now be processed. Note that the input labeled "​io:​untilted"​ has not been connected. Your //​untilted//​ data must now be processed.
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 **Untilted Data** **Untilted Data**
   - Repeat steps 1-2 from the instructions for Tilted Data.    - Repeat steps 1-2 from the instructions for Tilted Data. 
-  - Perform 2D operations as listed in the [[:​tutorial|]]. Once you have a 2D classification,​ connect the "​output"​ of your [[eyes:​logics:​Classification|]] to the "​io:​untilted"​ input of the [[eyes:​logics:​Rct2|]] logic. Click the "​Play"​ icon to run the logic.+  - Perform 2D operations as listed in the [[:​tutorial|]]. Once you have a 2D classification,​ connect the "​output"​ of your [[eyes:​logics:​Classification|]] to the "​io:​untilted"​ input of the [[eyes:​logics:​rct|]] logic. Click the "​Play"​ icon to run the logic.