Difference between revisions of "Manuals/calci/GAMMADIST"

Latest revision as of 17:08, 7 August 2018

GAMMADIST(x,alpha,beta,cumulative,accuracy)

$x$ is the value of the distribution.
$alpha$ and $beta$ are the value of the parameters.
$cumulative$ is the logical value like true or false.
gives accurate value of the solution.
- GAMMADIST(), returns the gamma distribution.

Description

This function gives the value of the Gamma Distribution.
The Gamma Distribution can be used in a queuing models like, the amount of rainfall accumulated in a reservoir.
This distribution is the Continuous Probability Distribution with two parameters $\alpha$ and $\beta$ .
In $GAMMADIST(x,alpha,beta,cumulative,accuracy)$ , $x$ is the value of the distribution, $\alpha$ is called shape parameter and $\beta$ is the rate parameter of the distribution and $cumulative$ is the logical value like TRUE or FALSE.
If $cumulative$ is TRUE, then this function gives the Cumulative Distribution value and if is FALSE then it gives the Probability Density Function.
$cumulative$ gives accurate value of the solution.
The gamma function is defined by :

$Gamma(t)=\int \limits _{0}^{\infty }x^{t-1}e^{-x}dx$ .

It is for all complex numbers except the negative integers and zero.
The Probability Density Function of Gamma function using Shape, rate parameters is:

$f(x;\alpha ,\beta )={\frac {x^{\alpha -1}e^{-{\frac {x}{\beta }}}}{\beta ^{\alpha }\Gamma (\alpha )}}$ , for

x,\alpha ,\beta >0

, where

e

is the natural number(e = 2.71828...),

\alpha

is the number of occurrences of an event, and

\Gamma (\alpha )

is the Gamma function.

The Standard Gamma Probability Density function is:

$f(x,\alpha )={\frac {x^{\alpha -1}e^{-x}}{\Gamma (\alpha )}}$ .

The Cumulative Distribution Function of Gamma is :

$F(x;\alpha ,\beta )={\frac {\gamma (\alpha ,{\frac {x}{\beta }})}{\Gamma (\alpha )}}$ , or

F(x;\alpha ,\beta )=e^{-{\frac {x}{\beta }}}\sum _{i=k}^{\infty }{\frac {1}{i!}}({\frac {x}{\beta }})^{i}

for any positive integer

k

.

When alpha is a positive integer, then the distribution is called Erlang distribution.
If the shape parameter $\alpha$ is held fixed, the resulting one-parameter family of distributions is a natural exponential family.
For a positive integer $n$ , when $\alpha ={\frac {n}{2}}$ , $\beta =2$ , and $cu=TRUE$ , GAMMADIST returns (1 - CHIDIST(x)) with $n$ degrees of freedom.
This function shows the result as error when

1.Any one of the argument is non numeric
2. $x<0$ ,  $\alpha \leq 0$  or  $\beta \leq 0$ .

ZOS

The syntax is to calculate GAMMADIST in ZOS is .
- $x$ is the value of the distribution,
- $alpha$ and $beta$ are the value of the parameters
- $cumulative$ is the logical value like true or false.
- $accuracy$ gives accurate value of the solution.
For e.g.,GAMMADIST(10.45,2.8,6.4,TRUE,0.9)

GAMMADIST(10.45,2.8,6.4,FALSE,0.9)

Gamma Distribution

Examples

GAMMADIST(8.15372,5,7,TRUE)=0.006867292
GAMMADIST(20.78542,2,6,TRUE)=0.860283293
GAMMADIST(20.78542,2,6,FALSE)=0.01806997
GAMMADIST(45.6523,9,4,FALSE)=0.019724471
GAMMADIST(8.15372,5,7,TRUE,0.5)= 0.00693316259
GAMMADIST(8.15372,5,7,TRUE,0.9)=0.0067648564

References

Gamma Distribution

List of Main Z Functions

Z3 home

@@ Line 1: / Line 1: @@
-<div style="font-size:30px">'''GAMMADIST(x,alpha,beta,cu)'''</div><br/>
+<div style="font-size:30px">'''GAMMADIST(x,alpha,beta,cumulative,accuracy)'''</div><br/>
-*<math>x</math> is the value of the distribution,
+*<math>x</math> is the value of the distribution.
-*<math>'alpha'</math> and <math>'beta'</math> are the value of the parameters
+*<math>alpha</math> and <math>beta</math> are the value of the parameters.
-*<math>cu</math> is the logical value like true or false.
+*<math>cumulative</math> is the logical value like true or false.
+*<math>accuracy</math> gives accurate value of the solution.
+**GAMMADIST(), returns the gamma distribution.
 ==Description==
@@ Line 8: / Line 10: @@
 *The Gamma Distribution can be used in a queuing models like, the amount of rainfall accumulated in a reservoir.
 *This distribution is the Continuous Probability Distribution with two parameters <math>\alpha</math> and <math>\beta</math>.
-*In  GAMMADIST(x,alpha,beta,cu), <math>x</math> is the value of the distribution, <math>\alpha</math> is called shape parameter and <math>\beta</math> is the rate parameter of the distribution and <math>cu</math> is the logical value like TRUE or FALSE.
+*In  <math>GAMMADIST(x,alpha,beta,cumulative,accuracy)</math>, <math>x</math> is the value of the distribution, <math>\alpha</math> is called shape parameter and <math>\beta</math> is the rate parameter of the distribution and <math>cumulative</math> is the logical value like TRUE or FALSE.
-*If <math>cu</math> is TRUE, then this function gives the Cumulative Distribution value and if is FALSE then it gives the Probability Density Function.
+*If <math>cumulative</math> is TRUE, then this function gives the Cumulative Distribution value and if is FALSE then it gives the Probability Density Function.
+*<math>cumulative</math> gives accurate value of the solution.
 *The gamma function is defined by :
 <math>Gamma(t) = \int\limits_{0}^{\infty}x^{t-1} e^{-x} dx</math>.
 *It is for all complex numbers except the negative integers and zero.
 *The Probability Density Function of Gamma function using Shape, rate parameters is:
-<math> f(x; \alpha,\beta)=\frac{x^{\alpha-1} e^{-\frac {x}{\beta}}}{\beta^{\alpha} Gamma(\alpha)}</math>, for
+<math> f(x; \alpha,\beta)=\frac{x^{\alpha-1} e^{-\frac {x}{\beta}}}{\beta^{\alpha} \Gamma(\alpha)}</math>, for
-:<math>x, \alpha , \beta > 0 </math>, where <math>e</math> is the natural number(e = 2.71828...),  <math>\alpha</math> is the number of occurrences of an event, and <math>Gamma(\alpha)</math> is the Gamma function.
+:<math>x, \alpha , \beta > 0 </math>, where <math>e</math> is the natural number(e = 2.71828...),  <math>\alpha</math> is the number of occurrences of an event, and <math>\Gamma(\alpha)</math> is the Gamma function.
-*The standard Gamma Probability Density function is:
+*The Standard Gamma Probability Density function is:
-<math>f(x,\alpha)=\frac{x^{\alpha-1} e^{-x}}{Gamma(\alpha)}</math>.
+<math>f(x,\alpha)=\frac{x^{\alpha-1} e^{-x}}{\Gamma(\alpha)}</math>.
 *The  Cumulative Distribution  Function of Gamma is :
-<math>F(x;\alpha,\beta)=\frac{\gamma(\alpha,\frac{x}{\beta})}{Gamma(\alpha)}</math>, or
+<math>F(x;\alpha,\beta)=\frac{\gamma(\alpha,\frac{x}{\beta})}{\Gamma(\alpha)}</math>, or
 :<math>F(x;\alpha,\beta)= e^{-\frac {x}{\beta}} \sum_{i=k}^{\infty} \frac{1}{i!} (\frac{x}{\beta})^i</math> for any positive integer <math>k</math>.
 *When alpha is a positive integer, then the distribution is called Erlang distribution.
-*If the shape parameter α is held fixed, the resulting one-parameter family of distributions is a natural exponential family.
+*If the shape parameter <math>\alpha</math> is held fixed, the resulting one-parameter family of distributions is a natural exponential family.
-*For a positive integer n, when alpha = n/2, beta = 2, and cu= TRUE, GAMMADIST returns (1 - CHIDIST(x)) with n degrees of freedom.
+*For a positive integer <math>n</math>, when <math>\alpha =\frac{n}{2}</math>, <math>\beta = 2</math>, and <math>cu= TRUE</math>, GAMMADIST returns (1 - CHIDIST(x)) with <math>n</math> degrees of freedom.
-*This function shows the result as error when 1.Any one of the argument is non numeric
+*This function shows the result as error when
-. x<0, alpha<=0 or beta<=0
+.Any one of the argument is non numeric
+.<math>x<0</math>, <math>\alpha \le 0</math> or <math>\beta \le 0</math>.
+==ZOS==
+*The syntax is to calculate GAMMADIST in ZOS is <math>GAMMADIST(x,alpha,beta,cumulative,accuracy)</math>.
+**<math>x</math> is the value of the distribution,
+**<math>alpha</math> and <math>beta</math> are the value of the parameters
+**<math>cumulative</math> is the logical value like true or false.
+**<math>accuracy</math> gives accurate value of the solution.
+*For e.g.,GAMMADIST(10.45,2.8,6.4,TRUE,0.9)
+GAMMADIST(10.45,2.8,6.4,FALSE,0.9)
+{{#ev:youtube|l_qRjj8bUdw|280|center|Gamma Distribution}}
 ==Examples==
+#GAMMADIST(8.15372,5,7,TRUE)=0.006867292
+#GAMMADIST(20.78542,2,6,TRUE)=0.860283293
+#GAMMADIST(20.78542,2,6,FALSE)=0.01806997
+#GAMMADIST(45.6523,9,4,FALSE)=0.019724471
+#GAMMADIST(8.15372,5,7,TRUE,0.5)= 0.00693316259
+#GAMMADIST(8.15372,5,7,TRUE,0.9)=0.0067648564
+==Related Videos==
+{{#ev:youtube|SAMTXAAKeug|280|center|GAMMA Distribution}}
 ==See Also==
@@ Line 35: / Line 59: @@
 ==References==
-[http://en.wikipedia.org/wiki/Bessel_function| Bessel Function]
+[http://en.wikipedia.org/wiki/Gamma_distribution  Gamma Distribution]
+*[[Z_API_Functions | List of Main Z Functions]]
+*[[ Z3 |   Z3 home ]]

Difference between revisions of "Manuals/calci/GAMMADIST"

Latest revision as of 17:08, 7 August 2018

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References

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