Differences between revisions 32 and 34 (spanning 2 versions)

EMAN2 Concepts and Conventions

Data Storage

File Formats, Data storage conventions, and the internal database (what is BDB: ?)
Using EMAN2 in environments with NFS or other network-shared directories
Parameters/Metadata appearing in EMData attributes (and stored on disk with the image), accessed with get_attr and set_attr
Parameters/Metadata for applications, not associated with a specific image, stored in bdb:project

Mathematical Conventions

Modular functions in EMAN2

Many aspects of EMAN2 are modular, meaning new functions can be easily added for a variety of tasks. These categories are used in the GUI and from the command-line, and are not just useful for programmers. For example, the '--process' option in e2proc2d.py and e2proc3d.py uses 'processors' as defined below.

Overview of how to use modular functions
Processors - Filters, masks and other basic image processing operations
Comparators (cmp) - Similarity metrics (cmp) for comparing two images/volumes
Aligners - Algorithms for aligning one image/volume to another
Averagers - Methods for averaging many images/volumes together
Projectors - Generate 2-D projections of 3-D volumes (or 1-D projections of 2-D images)
Reconstructors - Generate 3-D volumetric reconstructions from sets of 2-D images and orientation paramters
Analyzers - Perform various analyses on sets of images/volumes
Symmetries - Permissible symmetries to use in EMAN2
Orientation Generators (orientgen) - Methods for generating sets of orientations filling an asymmetric unit

-  ⇤ ← Revision 32 as of 2011-10-10 15:43:44 → 
  Size: 4092
  Editor: SteveLudtke
  Comment:
+   ← Revision 34 as of 2011-10-12 14:58:00 → ⇥
  Size: 2321
  Editor: SteveLudtke
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
 Line 1:
-== EMAN2 Concepts and Conventions ==
+= EMAN2 Concepts and Conventions =
 Line 3:
+=== Data Storage ===
 * [[Eman2DataStorage|File Formats, Data storage conventions, and the internal database (what is BDB: ?)]]
 * [[Eman2NFS|Using EMAN2 in environments with NFS or other network-shared directories]]
 * [[Eman2Metadata|Parameters/Metadata appearing in EMData attributes (and stored on disk with the image), accessed with get_attr and set_attr]]
 * [[Eman2AppMetadata|Parameters/Metadata for applications, not associated with a specific image, stored in bdb:project]]

=== Mathematical Conventions ===
-Line 6:
+Line 13:
- * [[Eman2DataStorage|File Formats, Data storage conventions, and the internal database (what is BDB: ?)]]
 * [[Eman2NFS|Using EMAN2 in environments with NFS or other network-shared directories]]
-Line 9:
+Line 14:
- * [[Eman2Metadata|Parameters/Metadata appearing in EMData attributes (and stored on disk with the image), accessed with get_attr and set_attr]]
 * [[Eman2AppMetadata|Parameters/Metadata for applications, not associated with a specific image, stored in bdb:project]]
-Line 17:
+Line 20:
+ * [[EMAN2/Modular/Overview|Overview of how to use modular functions]]
-Line 27:
+Line 31:
-=== Information on specific files used in 3-D single particle refinement ===
This section documents the contents of all of the files produced by running e2refine.py in one of the refine_xx directories.
 * [[EMAN2/ProjectionFiles|Map projection files (projections_xx, proj_stg1_xx)]]
 * [[EMAN2/SimmxFiles|Similarity matrix image files (simmx_xx, simmx_stg1_xx, proj_simmx_xx)]]
 * [[EMAN2/ClassmxFiles|Classification matrix image files (classify_xx)]]
 * [[EMAN2/ClsResultFiles|Class-Averaging Results matrix image files (cls_result_xx)]]
 * [[EMAN2/ClassesFiles|Class-averages (classes_xx)]]
 * [[EMAN2/ThreedFiles|3-D reconstructions (threed_xx, threed_filt_xx, threed_mask_xx)]]

=== Information on specific files used in 2-D reference-free class-averaging ===
You may also wish to look at: [[EMAN2/Programs/e2refine2d|e2refine2d]]

 * '''input_fp''' - rotational/translational invariants for each particle
 * '''input_fp_basis''' - MSA basis vectors (images) from input_fp
 * '''input_fp_basis_proj''' - MSA subspace projections of the input_fp invariants 
 * '''classmx_00''' - Initial classification of particles, same format as [[EMAN2/ClassmxFiles|classmx]] above
 * '''classes_init''' - Initial set of class-averages from invariant method (not very good usually)
 * '''allrefs_XX''' - All of the references (sorted) to be used for the current iteration
 * '''basis_XX''' - MSA basis from allrefs_xx
 * '''aliref_XX''' - Subset of allrefs used for alignment of raw particles
 * '''simmx_XX''' - Similarity matrix in same format as [[EMAN2/SimmxFiles|simmx]] above
 * '''input_XX_proj''' - Aligned particles projected into '''basis_XX''' subspace
 * '''classmx_XX''' - Classification matrix for the current iteration (as above)
 * '''classes_XX''' - Class averages at the end of the iteration. The highest numbered classes_XX file is the final output of the program