First-time autoscreening setup » History » Version 11
Anchi Cheng, 03/15/2022 02:55 PM
1 | 10 | Anchi Cheng | h2. First-time Leginon setup |
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2 | 1 | Anchi Cheng | |
3 | 10 | Anchi Cheng | Run MSi-Ptolemy and start a new session. This session can be used for setting up and as the example session that the autoscreen base its settings and stage z height on. |
4 | 1 | Anchi Cheng | |
5 | 10 | Anchi Cheng | # Start the session as usual. |
6 | # Set z to the height that is typical for this scope's eucentric height. |
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7 | # Acquire a grid atlas for the next step. |
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9 | 6 | Anchi Cheng | h2. Setup Square Targeting Node |
10 | 4 | Anchi Cheng | |
11 | h3. Set, in Blobs Settings, the script to run as */path_to/sq_finder.sh* |
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13 | h3. Define target area size sampling in the settings next to "acquisition" target panel. |
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15 | Enter |
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16 | 1 | Anchi Cheng | # Maximal number of squares to select |
17 | # Number of target group to sample |
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19 | For example, total of 12 squares selected in 3 groups means the program divided out all blob squares with valid area range into 3 size group (small, medium,and large). It then choose 4 blob squares in each group with highest score given by Ptolemy as the output square targets. High score in Ptolemy result means it is more likely to be a good square. |
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21 | 4 | Anchi Cheng | h3. Set the limits of the square area range in "Thresholded" settings. |
22 | 2 | Anchi Cheng | |
23 | 4 | Anchi Cheng | You can set it directly. However, it is easier to select a number of examples targets including the smallest and the largest grid square you will choose and then click on the auto square finding tool on the toolbar. Leginon will use the example targets to set the limits of the square area. |
24 | 2 | Anchi Cheng | |
25 | 4 | Anchi Cheng | !Square_FindingGUI.png! |
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27 | h3. Activate auto finding in the main settings dialog. |
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29 | Shortest path can be applied in ordering the resulting targets as well. |
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31 | 6 | Anchi Cheng | !ProcessingSettings.png! |
32 | 1 | Anchi Cheng | |
33 | 6 | Anchi Cheng | h2. Setup Exposure Targeting Node |
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35 | 10 | Anchi Cheng | h3. Define Hole Settings |
36 | 6 | Anchi Cheng | |
37 | * the script to run as */path_to/hl_finder.sh* or whatever path your shell script is located. |
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38 | * the json key for threshold the result. For Ptolemy, this should be "score" |
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39 | * the minimal key value to accept. For Ptolemy, the probability score range is 0-1. We tend to use a very small number to only rule out the obvious bad holes. 0.01, for example. |
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40 | 9 | Anchi Cheng | !score_finder.png! |
41 | 6 | Anchi Cheng | |
42 | h3. Define Ice thickness thresholding |
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44 | Like JAHC template hole finder, you can narrow the selection in Leginon with hole statistics calculation and create template for convolution. The interface is similar to JAHC hole finder. |
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46 | h3. Define target sampling |
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48 | 1 | Anchi Cheng | For screening, you may not want all targets found to be acquired. Use Acquisition Target Sampling section to achieve this: |
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50 | {{include(Settings for Target Sampling)}} |
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51 | 10 | Anchi Cheng | |
52 | h2. (Optional) Specify and setup auto aperture selection for nodes that need to be specified. |
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54 | If you want objective aperture to be retracted only during Grid imaging, set in its advanced settings to |
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56 | !aperture_settings.png! |
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59 | h2. Setup grid loading list text file |
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61 | Autoscreen reads a *tab-separated* text file that contains the slot number and the session comment to setup the sequence of grid loading and screening. The grids will be screened in the order or the list. |
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63 | Currently, all grids needs to be in the same project as the example session. We will expand that in the future. |
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65 | An example file is attached in this wiki called grid.list |
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67 | <pre> |
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68 | 3 best test grid |
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69 | 2 second best test grid |
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70 | </pre> |