2012 Data Discussion Examples: Difference between revisions
(note an item to fix) |
|||
| Line 69: | Line 69: | ||
== example of generic 2D SAS data, I(Q) == | == example of generic 2D SAS data, I(Q) == | ||
( | Could use this model, for example, to describe data from multiple detectors (by listing individual pixels off all detectors). Or, could describe data from one detector of any geometry. This is the most flexible. | ||
<pre> | <pre> | ||
Revision as of 07:54, 30 July 2012
1D
example of simple 1D SAS data, I(Q)
SASroot SASentry SASdata @Q="Q" @Qindices="*" @Iindices="Q" I: float[100] Q: float[100]
(see the Discussion page for an XML representation with the recommended minimum content)
example of simple 1D SAS data in a time series, I(Q, t)
SASroot SASentry SASdata @Q="Q" @Qindices="*" @Iindices="Q,time" I: float[100, ntime] Q: float[100] t: float[ntime]
example of generic 1D SAS data in a time series, I(Q(t), t)
SASroot SASentry SASdata @Q="Q" @Qindices="*,time" @Iindices="Q,time" I: float[100, ntime] Q: float[100, ntime] t: float[ntime]
2D
example of simple 2D (image) SAS data, I(Q)
SASroot SASentry SASdata @Q="Qx,Qy" @Qindices="*,*" @Iindices="Q,Q" I: float[100, 512] Qx: float[100, 512] Qy: float[100, 512]
example of generic 2D SAS data, I(Q)
Could use this model, for example, to describe data from multiple detectors (by listing individual pixels off all detectors). Or, could describe data from one detector of any geometry. This is the most flexible.
SASroot SASentry SASdata @Q="Qx,Qy,Qz" @Qindices="*" @Iindices="Q" I: float[100*512] Qx: float[100*512] Qy: float[100*512] Qz: float[100*512]
example of generic 2D SAS data in a time series, I(Q(t),t)
SASroot SASentry SASdata @Q="Qx,Qy,Qz" @Qindices="*,time" @Iindices="Q,time" I: float[100*512,ntime] Qx: float[100*512,ntime] Qy: float[100*512,ntime] Qz: float[100*512,ntime] t: float[ntime]
example of generic 2D SAS data in a time, T, & P series, I(Q(t,T,P),t,T,P)
SASroot SASentry SASdata @Q="Qx,Qy,Qz" @Qindices="*,time,T,P" @Iindices="Q,time,T,P" I: float[100*512,ntime,nT,nP] Qx: float[100*512,ntime,nT,nP] Qy: float[100*512,ntime,nT,nP] Qz: float[100*512,ntime,nT,nP] t: float[ntime] T: float[nT] P: float[nP]
example of generic 2D SAS data in a time, T, & P series, I(T,Q(t),t,P)
SASroot SASentry SASdata @Q="Qx,Qy,Qz" @Qindices=",*,*,time," @Iindices="T,Q,Q,time,P" I: float[nT,100,512,ntime,nP] Qx: float[100,512,ntime] Qy: float[100,512,ntime] Qz: float[100,512,ntime] t: float[ntime] T: float[nT] P: float[nP]
invalid case
example of **over-simple** 2D (image) SAS data, I(Q)
Invalid because the method of addressing the Q values is different from all the above.
SASroot SASentry SASdata @Q="Qx,Qy" @Qindices="*,*" @Iindices=" ??? " I: float[100, 512] Qx: float[100] Qy: float[512]
terms
SASroot
same use as original 1D format
SASentry
some changes from the original 1D format
SASdata
different use from original 1D format, refers to a single reduced data set that can be represented thus (such as from one detector)
SASdata has three possible attributes, as shown in this example:
@Q="Qx,Qy,Qz" @Qindices=",*,*,time," @Iindices="T,Q,Q,time,P"
Commas are used as delimiters in all cases.
@Q
Comma-separated list that describes the names of the actual data objects that describe Q.
@Qindices
Comma-separated list that describes which indices are used (from the I object) to reference Q. Leave a position empty if that index is not used to describe Q, Use a "*" to describe an index that uses the Q definition. For other data storage objects, name the object for the position where it should appear.
@Iindices
Comma-separated list that describes which objects correspond to the indices of the I object. For indices that involve Q, use the term "Q" and the @Qindices attribute will provide more information.
