In the JMP Formula Editor, you can create formulas that generate random numbers by effectively “rolling the dice” within the constraints of the specified distribution. Each time you click Apply in the Formula Editor window, these functions produce a new set of random numbers.
You can use the Random Reset function to set a random seed that enables you to reproduce a set of random numbers. The random number algorithms in JMP are sometimes refined, and therefore the results might not be consistent across different versions of JMP.
Note: Random numbers are generated using the Mersenne-Twister technique. This technique has a period length of 219937-1. For more information about the generators, see Matsumoto and Nishimura (1998). The new generators are verified to pass all the DIEHARD tests as documented in Marsaglia (1995).
See “Random Functions” in the JSL Syntax Reference for more information about function arguments. See “Probability Functions” and “Discrete Probability Functions” in the JSL Syntax Reference for more information about distribution parameterizations.
Generates a column of random numbers from a Chi-Square distribution with specified degrees of freedom. The optional noncentrality parameter must be greater than or equal to 0. The noncentrality parameter is 0 by default. For more information about the parameterization of the Chi-Square distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from an F distribution with specified numerator degrees of freedom and denominator degrees of freedom. The optional noncentrality parameter must be greater than or equal to 0. The noncentrality parameter is 0 by default. For more information about the parameterization of the F distribution, see “Probability Functions” in the JSL Syntax Reference.
Returns a k by 1 matrix of random integers between 1 and n with no duplicates.
Generates a column of random numbers from a uniform distribution. If no arguments are specified, the minimum of the uniform distribution is 0 and the maximum is 1. This means that any number between 0 and 1 is as likely to be generated as any other. The result is an approximately even distribution. You can use the optional arguments to specify different values for the minimum and maximum numbers of the uniform distribution.
Generates a column of random numbers from a normal distribution with specified mean and standard deviation. If no arguments are specified, the normal distribution has mean of 0 and standard deviation of 1. For more information about the parameterization of the normal distribution, see “Probability Functions” in the JSL Syntax Reference.
Returns a random number from a normal mixture distribution with the specified arguments. For information about the syntax for the Random Normal Mixture function, see “Random Normal Mixture(meanvec, sdvec, probabvec)” in the JSL Syntax Reference.
Generates a column of random numbers from an exponential distribution with lambda=1. You can scale the exponential function to use a different lambda. For example, Random Exp()*.1 generates an exponential distribution for lambda=0.1. For more information about the parameterization of the exponential distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a gamma distribution with specified shape and scale parameters. The default value of the scale parameter is 1. When the scale parameter is 1, the gamma distribution is equivalent to an exponential distribution. For more information about the parameterization of the gamma distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from an extended generalized gamma distribution with specified location, scale, and shape parameters. If no arguments are specified, the generalized gamma distribution has location of 0, scale of 1, and shape of 0. For more information about the parameterization of the generalized gamma distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a log generalized gamma distribution with specified location, scale, and shape parameters. If no arguments are specified, the extended generalized gamma distribution has location of 0, scale of 1, and shape of 0. For more information about the parameterization of the log generalized gamma distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a beta distribution with two specified shape parameters and optional threshold and scale parameters. The default threshold is 0, and the default scale is 1. For more information about the parameterization of the beta distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a Cauchy distribution with location parameter 0 and scale parameter 1. A Cauchy variate with location parameter alpha and scale parameter beta can be generated with the formula alpha+beta*Random Cauchy(). For more information about the parameterization of the Cauchy distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random category assignments based on a set of probability and result expressions (for example, Random Category(.2, "A", .3, "B", .4, "C", "D");). A random uniform number is generated and compared to the probabilities to determine which result expression is returned.
Generates a column of random numbers from a Johnson Su distribution with two specified shape parameters, a location parameter, and a scale parameter. For more information about the parameterization of the Johnson Su distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a Johnson Sb distribution with two specified shape parameters, a location parameter, and a scale parameter. For more information about the parameterization of the Johnson Sb distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a Johnson Sl distribution with two specified shape parameters, a location parameter, and an optional skewness parameter. The skewness parameter can be +1 for positive skew or -1 for negative skew. The default is +1. For more information about the parameterization of the Johnson Sl distribution, see “Probability Functions” in the JSL Syntax Reference.
Retrieves or restores the random seed state to or from a BLOB object.
Generates a column of random numbers from a triangular distribution with specified minimum, maximum, and mode parameters. If you specify only one argument, it represents the mode and the triangular distribution is between 0 and 1. If you specify two arguments, they represent the mode and the maximum, respectively, and the triangular distribution is between 0 and the maximum. If you specify three arguments, they represent the minimum, the mode, and the maximum, respectively, and the triangular distribution is between the minimum and the maximum.
Generates a column of random numbers from a uniform distribution of integers. If you specify one argument, the integers are between 1 and the argument. If you specify two arguments, the integers are between and include the values of the two arguments.
Generates a column of random numbers from a binomial distribution with specified parameters. The first argument is n, the number of trials in a binomial experiment. The second argument is p, the probability that the event of interest occurs. When n is 1, the binomial function generates a distribution of Bernoulli trials. For more information about the parameterization of the binomial distribution, see Discrete Probability Functions in the JSL Syntax Reference.
Generates a column of random numbers from a negative binomial distribution with specified parameters. The first argument is r, the number of successes of interest. The second argument is p, the probability of success. The random variable of interest is the number of failures that precede the rth success. In contrast to the binomial variate, where the number of trials is fixed and the number of successes is variable, the negative binomial variate is for a fixed number of successes and a random number of trials. For more information about the parameterization of the negative binomial distribution, see Discrete Probability Functions in the JSL Syntax Reference.
Generates a column of random numbers from a beta binomial distribution with specified parameters. The first argument is n, the number of trials. The second argument is p, the probability of success for each trial. The third argument is optional and represents the overdispersion parameter. The default overdispersion parameter is 0. For more information about the parameterization of the beta binomial distribution, see Discrete Probability Functions in the JSL Syntax Reference.
Generates a column of random numbers from a Fréchet distribution with specified location and scale parameters. If no arguments are specified, the Fréchet distribution has location of 0 and sigma of 1. For more information about the parameterization of the Fréchet distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a geometric distribution with specified probability parameter. The argument is the probability that a specific event occurs at any one trial. The random variable of interest is the number of trials until a specific event occurs for the first time.
Generates a column of random numbers from a Poisson distribution with specified shape parameter. For more information about the parameterization of the Poisson distribution, see Discrete Probability Functions in the JSL Syntax Reference.
Generates a column of random numbers from a gamma Poisson distribution with specified shape and overdispersion parameters. If the second argument is not specified, the gamma Poisson distribution has an overdispersion of 1. For more information about the parameterization of the gamma Poisson distribution, see Discrete Probability Functions in the JSL Syntax Reference.
Generates a column of random numbers from a Weibull distribution with specified shape and scale parameters. If the second argument is not specified, the Weibull distribution has scale of 1. For more information about the parameterization of the Weibull distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a logistic distribution with specified location and scale parameters. If no arguments are specified, the logistic distribution has location of 0 and scale of 1. For more information about the parameterization of the logistic distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a loglogistic distribution with specified location and scale parameters. If no arguments are specified, the loglogistic distribution has location of 0 and scale of 1. For more information about the parameterization of the loglogistic distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a lognormal distribution with specified location and scale parameters. If no arguments are specified, the lognormal distribution has location of 0 and scale of 1. For more information about the parameterization of the lognormal distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a generalized logarithmic distribution with specified location, scale, and shape parameters. When the shape parameter is 0, the generalized logarithmic distribution is equivalent to a lognormal distribution. For more information about the parameterization of the generalized logarithmic distribution, see “Probability Functions” in the JSL Syntax Reference.
Restarts the random number sequences with a seed that you specify.
Generates a column of random numbers from a largest extreme value (LEV) distribution with specified location and scale parameters. If no arguments are specified, the LEV distribution has location of 0 and scale of 1. For more information about the parameterization of the LEV distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a smallest extreme value (SEV) distribution with specified location and scale parameters. If no arguments are specified, the SEV distribution has location of 0 and scale of 1. For more information about the parameterization of the SEV distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a column of random numbers from a sinh-arcsinh (SHASH) distribution with two specified shape parameters, a location parameter, and a scale parameter. For more information about the parameterization of the SHASH distribution, see “Probability Functions” in the JSL Syntax Reference.
Generates a randomly ordered column of numbers from the numbers in the matrix argument.
Generates a column of random numbers from a t distribution with specified degrees of freedom. The optional noncentrality argument may be negative or positive. The noncentrality parameter is 0 by default. For more information about the parameterization of the t distribution, see “Probability Functions” in the JSL Syntax Reference.
Selects a row number at random from the current data table. Each row number is selected only once. When Col Shuffle is used as a subscript, it returns a value selected at random from the column that serves as its argument. Each value from the original column is assigned only once as Col Shuffle’s result. For more information about the syntax for the Col Shuffle function, see Random Functions in the JSL Syntax Reference.
Generates a random selection with replacement frequency counts, suitable for use in bootstrapping. For example, it supports a second Freq Column argument, enabling it to do bootstrap samples relating to a pre-existing frequency column specified in the second argument. Resample Freq() generates a 100% resample. ResampleFreq(rate) generates a rate frequency sample. Resample(rate, column) generates a sample that is calculated by the rate multiplied by the sum of the specified column. For more information about the syntax for the Resample Freq function, see Discrete Probability Functions in the JSL Syntax Reference.