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This is the basic example from Introduction to simmer. Please, refer to that vignette for further detail.
library(simmer)
library(parallel)
<- trajectory("patients' path") %>%
patient ## add an intake activity
seize("nurse", 1) %>%
timeout(function() rnorm(1, 15)) %>%
release("nurse", 1) %>%
## add a consultation activity
seize("doctor", 1) %>%
timeout(function() rnorm(1, 20)) %>%
release("doctor", 1) %>%
## add a planning activity
seize("administration", 1) %>%
timeout(function() rnorm(1, 5)) %>%
release("administration", 1)
<- mclapply(1:100, function(i) {
envs simmer("SuperDuperSim") %>%
add_resource("nurse", 1) %>%
add_resource("doctor", 2) %>%
add_resource("administration", 1) %>%
add_generator("patient", patient, function() rnorm(1, 10, 2)) %>%
run(80) %>%
wrap()
})
This package provides some basic visualisation tools to help you take a glance at your simulations quickly, but of course you probably may want to develop your own data analysis.
There are three types of plot implemented with different metrics available:
All these plots and metrics are accessible through the S3 methods for
the plot
generic provided by this package (see
?plot.mon
for more details), which uses the
ggplot2
package as backend.
For instance, after you’ve left it simmering for a bit (pun intended), we can have a look at the overall resource utilization. The top and bottom of the error bars show respectively the 25th and 75th percentile of the utilization across all the replications. The top of the bar shows the median utilization.
library(simmer.plot)
<- get_mon_resources(envs)
resources plot(resources, metric = "utilization")
It is also possible to have a look at resources’ activity during the simulation.
plot(resources, metric = "usage", c("nurse", "doctor"), items = "server")
In the above graph, the individual lines are all separate replications. The smoothing performed is a cumulative average. Let’s take a look now at the instantaneous behaviour for a specific replication and resource. In the example below, the 6th replication is shown.
plot(get_mon_resources(envs[[6]]), metric = "usage", "doctor", items = "server", steps = TRUE)
Next we can have a look at the evolution of the arrivals’ flow time during the simulation. In the plot below, each individual line represents a replication. A smooth line is drawn over them. All arrivals that didn’t finish their entire trajectory are excluded from the plot.
<- get_mon_arrivals(envs)
arrivals plot(arrivals, metric = "flow_time")
Similarly one can have a look at the evolution of the activity times
with metric = "activity_time"
and waiting times with
metric = "waiting_time"
.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.