_            _    _        _         _
      /\ \         /\ \ /\ \     /\_\      / /\
      \_\ \       /  \ \\ \ \   / / /     / /  \
      /\__ \     / /\ \ \\ \ \_/ / /     / / /\ \__
     / /_ \ \   / / /\ \ \\ \___/ /     / / /\ \___\
    / / /\ \ \ / / /  \ \_\\ \ \_/      \ \ \ \/___/
   / / /  \/_// / /   / / / \ \ \        \ \ \
  / / /      / / /   / / /   \ \ \   _    \ \ \
 / / /      / / /___/ / /     \ \ \ /_/\__/ / /
/_/ /      / / /____\/ /       \ \_\\ \/___/ /
\_\/       \/_________/         \/_/ \_____\/
r-simdesign 2.17.1
Propagated dependencies: r-beepr@2.0 r-dplyr@1.1.4 r-future@1.34.0 r-future-apply@1.11.3 r-parallelly@1.39.0 r-pbapply@1.7-2 r-progressr@0.15.0 r-r-utils@2.12.3 r-rpushbullet@0.3.4 r-sessioninfo@1.2.2 r-snow@0.4-4 r-testthat@3.2.1.1
Channel: guix
Location: gnu/packages/cran.scm (gnu packages cran)
Home page: http://philchalmers.github.io/SimDesign/
Licenses: GPL 2+
Synopsis: Structure for organizing Monte Carlo simulation designs
Description:

This package provides tools to safely and efficiently organize and execute Monte Carlo simulation experiments in R. The package controls the structure and back-end of Monte Carlo simulation experiments by utilizing a generate-analyse-summarise workflow. The workflow safeguards against common simulation coding issues, such as automatically re-simulating non-convergent results, prevents inadvertently overwriting simulation files, catches error and warning messages during execution, implicitly supports parallel processing with high-quality random number generation, and provides tools for managing high-performance computing (HPC) array jobs submitted to schedulers such as SLURM. For a pedagogical introduction to the package see Sigal and Chalmers (2016) <doi:10.1080/10691898.2016.1246953>. For a more in-depth overview of the package and its design philosophy see Chalmers and Adkins (2020) <doi:10.20982/tqmp.16.4.p248>.

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