Programmer Guide/SPU Reference/AVR: Difference between revisions
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{{DISPLAYTITLE:{{SUBPAGENAME}}}} | {{DISPLAYTITLE:{{SUBPAGENAME}}}} | ||
Average input <var>X</var> over evaluation cycles. | Average input <var>X</var> over evaluation cycles. | ||
==<code>[SPU | ==<code>[SPU AVR <var>X TYP T RS</var> OUT <var>Y</var>]</code>== | ||
{|class="einrahmen" | {|class="einrahmen" | ||
! | !input !!description !!data type !!value type!!default value | ||
|- | |- | ||
|<var>X</var>||data to be averaged ||number, vector, matrix ||variable | |||
|- | |- | ||
|<var>TYP</var>||averaging method ||number (int.), string||constant | |||
|- | |- | ||
|<var>T</var>||averaging parameter, depends on method ||number or n.c.||<var>TYP</var>=1→variable<BR><var>TYP</var>≠2→constant | |||
|- | |- | ||
|<var>RS</var>||reset flag||number or n.c. ||variable | |||
|<var> | |- | ||
!output !!description !!data type !!value type!!comment | |||
|- | |||
|<var>Y</var>||averaged input data ||same type as <var>X</var> ||variable | |||
|} | |} | ||
;Description: | ;Description: | ||
The averaging algorithm is defined by the inputs <var>TYP</var> and <var>T</var>. The atom averages the elements <var>X</var>[i,j]<sub>t</sub> over evaluation cycles t (i=row index, j=column index, t=cycle counter) and stores the averaged value in the element <var>Y</var>[i,j]<sub>t</sub>. | The averaging algorithm is defined by the inputs <var>TYP</var> and <var>T</var>. The atom averages the elements <var>X</var>[''i'',''j'']<sub>''t''</sub> over evaluation cycles t (''i''=row index, ''j''=column index, ''t''=cycle counter) and stores the averaged value in the element <var>Y</var>[''i'',''j'']<sub>''t''</sub>. | ||
:; | The cycle counter ''t'' is initialized with 0 and incremented by 1 after each evaluation cycle. The cycle counter is reset, if the input <var>RS</var> is set to a value greater than <code>0</code>. The input <var>RS</var> is checked each time the SPU is started. | ||
:;infinite average: | |||
::<var>TYP</var>=<code>0</code> or <code>linear</code> | ::<var>TYP</var>=<code>0</code> or <code>linear</code> | ||
::<var>T</var>=<code>0</code> | ::<var>T</var>=<code>0</code> | ||
| Line 28: | Line 32: | ||
\end{cases} | \end{cases} | ||
</math> | </math> | ||
:;running average: | :;running average: | ||
::<var>TYP</var>=<code>0</code> or <code>linear</code> | ::<var>TYP</var>=<code>0</code> or <code>linear</code> | ||
| Line 34: | Line 37: | ||
::<math>Y[i,j]_t = | ::<math>Y[i,j]_t = | ||
\begin{cases} | \begin{cases} | ||
X[i,j] | \frac{1}{t+1}\sum_{z=0}^t X[i,j]_z & \mbox{if }0\leqslant t < T \\ | ||
\frac{1}{t+1}(t | \frac{1}{T}\sum_{z=0}^{T-1}X[i,j]_{t-z} & \mbox{if }t\geqslant T | ||
\end{cases} | |||
</math> | |||
:;exponential average: | |||
::<var>TYP</var>=<code>1</code> or <code>exponential</code> | |||
::<code>0</code><<var>T</var><<code>1</code>; <var>T</var> is the averaging factor | |||
::<math>Y[i,j]_t = | |||
\begin{cases} | |||
X[i,j]_t & \mbox{if }t=0\mbox{ (or }T\mbox{ out of range)}\\ | |||
\sqrt{T}.Y[i,j]_{t-1}+(1-\sqrt{T}).X[i,j]_t & \mbox{if }t>0 | |||
\end{cases} | |||
</math> | |||
:;minimum: | |||
::<var>TYP</var>=<code>2</code> or <code>minimum</code> | |||
::<var>T</var> is not used | |||
::<math>Y[i,j]_t = | |||
\begin{cases} | |||
X[i,j]_t & \mbox{if }t=0 \\ | |||
min(Y[i,j]_{t-1},X[i,j]_t) & \mbox{if }t>0 | |||
\end{cases} | |||
</math> | |||
:;maximum: | |||
::<var>TYP</var>=<code>3</code> or <code>maximum</code> | |||
::<var>T</var> is not used | |||
::<math>Y[i,j]_t = | |||
\begin{cases} | |||
X[i,j]_t & \mbox{if }t=0 \\ | |||
max(Y[i,j]_{t-1},X[i,j]_t) & \mbox{if }t>0 | |||
\end{cases} | \end{cases} | ||
</math> | </math> | ||
Since {{STx}} version 4.5.0 the following two new average modes are available, which were used to implement the spectral averaging mode <code>power</code> of the applications [[User Guide/Spectrogram and Parameter Viewer|Viewer2]] (sectioner) and [[User Guide/Spectrum Viewer|Viewer3]]. | |||
:;power: | |||
::<var>TYP</var>=<code>4</code> or <code>power</code> | |||
::<var>T</var> is not used | |||
::* each input element X<sub>i,j</sub> is squared | |||
::* same averaging as for TYP</var>=<code>0</code> is performed | |||
::* square root of each output element Y<sub>i,j</sub> is taken | |||
:;db-power: | |||
::<var>TYP</var>=<code>5</code> or <code>dbpower</code> | |||
::<var>T</var> is not used | |||
::* each input element X<sub>i,j</sub> is converted from dB to squared magnitude (power) | |||
::* same averaging as for TYP</var>=<code>0</code> is performed | |||
::* each output element Y<sub>i,j</sub> is converted to dB | |||
;See also: | ;See also: | ||
<[[../#Signal Processing Atoms|SP-atoms]]> | <[[../#Signal Processing Atoms|SP-atoms]]> | ||
<!-- AN, 2.5.2011 --> | <!-- AN, 2.5.2011 --> | ||
Latest revision as of 12:00, 16 October 2018
Average input X over evaluation cycles.
[SPU AVR X TYP T RS OUT Y]
| input | description | data type | value type | default value |
|---|---|---|---|---|
| X | data to be averaged | number, vector, matrix | variable | |
| TYP | averaging method | number (int.), string | constant | |
| T | averaging parameter, depends on method | number or n.c. | TYP=1→variable TYP≠2→constant | |
| RS | reset flag | number or n.c. | variable | |
| output | description | data type | value type | comment |
| Y | averaged input data | same type as X | variable |
- Description
The averaging algorithm is defined by the inputs TYP and T. The atom averages the elements X[i,j]t over evaluation cycles t (i=row index, j=column index, t=cycle counter) and stores the averaged value in the element Y[i,j]t.
The cycle counter t is initialized with 0 and incremented by 1 after each evaluation cycle. The cycle counter is reset, if the input RS is set to a value greater than 0. The input RS is checked each time the SPU is started.
- infinite average
- TYP=
0orlinear - T=
0 - running average
- TYP=
0orlinear - T>
0; T is the (integer) number of averaging cycles - exponential average
- TYP=
1orexponential 0<T<1; T is the averaging factor- minimum
- TYP=
2orminimum - T is not used
- maximum
- TYP=
3ormaximum - T is not used
![{\displaystyle Y[i,j]_{t}={\begin{cases}X[i,j]_{t}&{\mbox{if }}t=0\\{\frac {1}{t+1}}(t.Y[i,j]_{t-1}+X[i,j]_{t})&{\mbox{if }}t>0\end{cases}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/1ebb989e256d6d3f8f3ee075730540133d20c3f6)
![{\displaystyle Y[i,j]_{t}={\begin{cases}{\frac {1}{t+1}}\sum _{z=0}^{t}X[i,j]_{z}&{\mbox{if }}0\leqslant t<T\\{\frac {1}{T}}\sum _{z=0}^{T-1}X[i,j]_{t-z}&{\mbox{if }}t\geqslant T\end{cases}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/171c71b4a374cbf81e671334844649a4e8012d82)
![{\displaystyle Y[i,j]_{t}={\begin{cases}X[i,j]_{t}&{\mbox{if }}t=0{\mbox{ (or }}T{\mbox{ out of range)}}\\{\sqrt {T}}.Y[i,j]_{t-1}+(1-{\sqrt {T}}).X[i,j]_{t}&{\mbox{if }}t>0\end{cases}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/d62837f4190e64922bdef8b74c900ea372418458)
![{\displaystyle Y[i,j]_{t}={\begin{cases}X[i,j]_{t}&{\mbox{if }}t=0\\min(Y[i,j]_{t-1},X[i,j]_{t})&{\mbox{if }}t>0\end{cases}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/e4fded79452f5091c73c4c093afe423261f4b23e)
![{\displaystyle Y[i,j]_{t}={\begin{cases}X[i,j]_{t}&{\mbox{if }}t=0\\max(Y[i,j]_{t-1},X[i,j]_{t})&{\mbox{if }}t>0\end{cases}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/a35f971f45e1f926c04e60c39292028c5a8f8739)
Since STx version 4.5.0 the following two new average modes are available, which were used to implement the spectral averaging mode power of the applications Viewer2 (sectioner) and Viewer3.
- power
- TYP=
4orpower - T is not used
- each input element Xi,j is squared
- same averaging as for TYP=
0is performed - square root of each output element Yi,j is taken
- db-power
- TYP=
5ordbpower - T is not used
- each input element Xi,j is converted from dB to squared magnitude (power)
- same averaging as for TYP=
0is performed - each output element Yi,j is converted to dB
- See also
<SP-atoms>
