Difference between revisions of "Random Variable Distributions"

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(Weibull Distribution)
(Weibull Distribution)
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CDF:    <math> f(x; k, \lambda) = 1 - e^{\left(-{x \over \lambda}\right)^k}</math>
 
CDF:    <math> f(x; k, \lambda) = 1 - e^{\left(-{x \over \lambda}\right)^k}</math>
 +
 +
EXPECTED: <math> \lambda \Gamma(1 + {1 \over k})</math>
  
 
[[File:Weibull-PDF.png]]
 
[[File:Weibull-PDF.png]]
 
[[File:Weibull-CDF.png]]
 
[[File:Weibull-CDF.png]]

Revision as of 18:27, 24 October 2013

This page describes random distributions supported by Filebench

Uniform Distribution

DOMAIN: [a;b]

PDF: <math> f(x; a, b) = {1 \over {b - a}} </math>

CDF: <math> F(x; a, b) = {x - a \over {b - a}} </math>

EXPECTED: <math> (b - a) \over 2 </math>

Uniform-pdf.png Uniform-cdf.png

Exponential Distribution

DOMAIN: <math> [0:\infty) </math>

PDF: <math> f(x; \lambda) = \lambda e^{-\lambda x} </math>

CDF: <math> F(x; \lambda) = 1 - e^{-\lambda x} </math>

EXPECTED: <math> 1 \over \lambda </math>

Exponential-pdf.png Exponential-cdf.png

Erlang and Gamma Distributions

DOMAIN: <math> [x:\infty) </math>

PDF: <math> f(x; k, \lambda) = {\lambda^{k} x^{k-1} e^{-\lambda x} \over \Gamma(k)} </math>

CDF: <math> F(x; k, \lambda) = {\gamma(k, \lambda x) \over \Gamma(k)} </math>

EXPECTED: <math> k \over \lambda </math>

In Erlang distribution <math>k</math> is an integer. In Gamma distribution <math>k</math> is a real number.

NOTICE: <math>\gamma()</math> above is a non-normalized incomplete gamma function. Gnuplot's <math>igamma()</math> function, however, is already normalized (i.e., divided by <math>\Gamma(k)</math>).

Erlang-Gamma-PDF.png Erlang-Gamma-CDF.png

Weibull Distribution

DOMAIN: <math> [x:\infty] </math>

PDF: <math> f(x; k, \lambda) = {k \over \lambda} \left({x \over \lambda}\right)^{k - 1} e^{\left({- {x \over \lambda}}\right) ^ k} </math>

CDF: <math> f(x; k, \lambda) = 1 - e^{\left(-{x \over \lambda}\right)^k}</math>

EXPECTED: <math> \lambda \Gamma(1 + {1 \over k})</math>

Weibull-PDF.png Weibull-CDF.png