# Numerical experiments: A fast algorithm with error bounds for Quadrature by Expansion [![DOI](https://zenodo.org/badge/214558364.svg)](https://zenodo.org/badge/latestdoi/214558364) This repository contains the code for (corrected) numerical experiments in the paper 'A fast algorithm with error bounds for Quadrature by Expansion,' available at [doi:10.1016/j.jcp.2018.05.006](https://doi.org/10.1016/j.jcp.2018.05.006) or on [arXiv](https://arxiv.org/abs/1801.04070). The code that is included reproduces the following parts of the paper: * Tables 3, 4, 5, and 6 * Figures 14 and 15 * Data presented in Section 5.2.2 ## Running Everything Install the [Docker image](#docker-image), and from a shell running in a container, go to the code directory and type: ``` ./run.sh ``` This script re-runs all experiments, and generates an output file `summary/summary.pdf` containing all the generated figures, tables, and data. It's also possible to have more selective control over what gets run. See [below](#running-experiments). ## Installation Hints This code uses a special branch of [Pytential](https://github.com/inducer/pytential), available [here](https://github.com/mattwala/pytential/tree/fix-cost-model-for-2d-paper-code-v2). Two options are available for obtaining the needed revisions of Pytential and its dependencies. ### Docker Image The simplest way to install is to use the [Docker image](https://doi.org/10.5281/zenodo.3483367). The code and software are installed in the image directory `/home/inteq/gigaqbx-2d-results`. ### Manual Installation If you don't want to use the Docker image, you can install necessary software manually using the command: ``` ./install.sh ``` This script downloads and installs software in an isolated environment in this directory using Conda and pip. For producing figures and outputs, you also need LaTeX and the [latexrun](https://github.com/aclements/latexrun) script. ### Post-Installation Before directly running the Python scripts in this directory, activate the Conda environment and instruct PyOpenCL to use POCL, as follows: ``` source .miniconda3/bin/activate inteq export PYOPENCL_TEST=portable ``` To ensure that everything works, you can run a short test: ``` py.test --disable-warnings utils.py ``` A more extensive set of tests can be found in the Pytential test suite (included in `src/pytential/test`), which should also pass. ## Running Experiments The scripts `generate-data.py` and `generate-figures-and-tables.py` can be used to run individual experiments or groups of experiments, and postprocess experimental outputs, respectively. Pass the `--help` option for more documentation and the list of available experiments. The `raw-data` directory is written to by `generate-data.py` and holds experimental outputs. The `out` directory contains generated figures and tables and is written to by `generate-figures-and-tables.py`. To regenerate all outputs from the data that is already in the `raw-data` directory, run ``` ./generate-figures-and-tables.py --all make -f makefile.summary ``` To run an individual experiment or to regenerate the data for a single experiments, supply the command line option `-x experiment-name`. For instance, to regenerate the results for the `bvp` experiment, run ``` ./generate-data.py -x bvp ./generate-figures-and-tables.py -x bvp ``` ## Contents The following files and directories in this repository are included and/or generated: | Name | Description | |----------------------------------|------------------------------------------------------------------------------------------------------------| | `Dockerfile` | Used for generating the Docker image | | `README.md` | This file | | `install.sh` | Installation script | | `generate-data.py` | Script for running experiments. Puts output in the `raw-data` directory | | `generate-figures-and-tables.py` | Script for postprocessing experiments and producing figures and tables. Puts output in the `out` directory | | `makefile.summary` | Makefile for generating the summary PDF | | `utils.py` | Extra code used by `generate-data.py` | | `summary.tex` | Source code for summary PDF | | `run.sh` | Script for re-running all experiments and generating all outputs | | `env` | Files used by the installer to set up the Conda and pip environments | | `.miniconda3` | Conda install directory | | `src` | Pip install directory | | `raw-data` | Holds data generated by experiments | | `out` | Holds generated figures and tables | | `summary` | Holds generated summary PDF and auxiliary files | ## Citations ``` @article{gigaqbx2d, title = "A fast algorithm with error bounds for {Quadrature} by {Expansion}", journal = "Journal of Computational Physics", volume = "374", pages = "135 - 162", year = "2018", doi = "10.1016/j.jcp.2018.05.006", author = "Matt Wala and Andreas Klöckner", } ```