| ex-1 | ||
| ex-2 | ||
| ex-3 | ||
| ex-4 | ||
| ex-5 | ||
| ex-6 | ||
| ex-7 | ||
| lectures | ||
| notes | ||
| .gitignore | ||
| makefile | ||
| README.md | ||
| shell.nix | ||
Statistical analysis
Description
This repository contains the source code of two documents
-
lectures: a summary of the lectures of the course -
notes: an explanation of the solutions of the exercises
and the programs written for each exercise (ex-n directories)
Building the documents
The two documents excercise.pdf and lectures.pdf are written in Pandoc
markdown. XeTeX (with some standard LaTeX packages), the
pandoc-crossref filter and a
Make program are required to build. Simply typing make in the respective
directory will build the document, provided the above dependencies are met.
Building the programs
The programs used to solve the exercise are written in standard C99 (with the
only exception of the #pragma once clause) and require the following
libraries to build:
- pkg-config (build-time only)
Additionally Python (version 3) with numpy and matplotlib is required to
generate plots.
For convenience a shell.nix file is provided to set up the build environment.
See this guide if you have
never used Nix before. Running nix-shell in the top-level will drop you into
the development shell.
Once ready, invoke make with the program you wishes to build. For example
$ make ex-1/bin/main
or, to build every program of an exercise
$ make ex-1
To clean up the build results run
$ make clean
Running the programs
Notes:
- Many programs generate random numbers using a PRNG that is seeded with a
fixed value, for reproducibility. It's possible to test the program on
different samples by changing the seed via the environment variable
GSL_RNG_SEED.
Exercise 1
ex-1/bin/main generate random numbers following the Landau distribution and
run a series of test to check if they really belong to such a distribution.
The size of the sample can be controlled with the argument -n N.
The program outputs the result of a Kolmogorov-Smirnov test and t-tests
comparing the sample mode, FWHM and median, in this order.
ex-1/bin.pdf prints a list of x-y points of the Landau PDF to the stdout.
The output can be redirected to ex-1/pdf-plot.py to generate a plot.
Exercise 2
Every program in ex-2 computes the best available approximation (with a given
method) to the Euler-Mascheroni γ constant and prints[1]:
-
the leading decimal digits of the approximate value found
-
the exact decimal digits of γ
-
the absolute difference between the 1. and 2.
[1]: Some program may also print additional debugging information.
ex-2/bin/fancy, ex-2/bin/fancier can compute γ to a variable precision and
take therefore the required number of decimal places as their only argument.
The exact γ digits (used in comparison) are limited to 50 and 500 places,
respectively.
Exercise 3
ex-3/bin/main generates a sample of particle decay events and attempts to
recover the distribution parameters via both a MLE and a χ² method. In both
cases the best fit and the parameter covariance matrix are printed.
The program then performs a t-test to assert the compatibility of the data with
two hypothesis and print the results in a table.
To plot a 2D histogram of the generated sample do
$ ex-3/bin/main -i | ex-3/plot.py
In addition the program accepts a few more parameters to control the histogram
and number of events, run it with -h to see their usage.
Note: the histogram parameters affect the computation of the χ² and the relative parameter estimation.