Reverse Dependencies of iminuit

The following projects have a declared dependency on iminuit:

• alea-inference — A tool to perform toyMC-based inference constructions
• ampel-hu-astro — Astronomy units for the Ampel system from HU-Berlin
• amplitf — no summary
• amstrax — strax for XAMS data
• asgardpy — Gammapy-based pipeline for easy joint analysis of different gamma-ray datasets
• BAccMod — Calculate 2D and 3d acceptance model for creating maps with gammapy (IACT analysis)
• bdata — β-NMR/β-NQR MUD file reader and asymmetry calculator
• becquerel — Tools for radiation spectral analysis.
• bgu-physics-lab — plot and caluclate fiting goodness using chi2 regression
• bgu-physics-lab-b — plot and caluclate fiting goodness using chi2 regression
• cabinetry — design and steer profile likelihood fits
• cronus-mcmc — cronus: MCMC + MPI MADE EASY
• ctapipe — Event reconstruction framework for Imaging Atmospheric Cherenkov Telescopes developed for CTAO.
• detprocess — Detector Data Processing Package
• dftools — dataframe tools
• dspeed — Fast Digital Signal Processing for particle detectors in Python
• erlab — Python package for ARPES data analysis and visualization.
• ExtendedMinuit — Extension library for Minuit Class
• FitBenchmarking — FitBenchmarking: A tool for comparing fitting software
• flamedisx — Fast likelihood analysis in more dimensions for xenon TPCs
• flavio — A Python package for flavour physics phenomenology in the Standard Model and beyond
• gepard — Tool for studying the 3D quark and gluon distributions in the nucleon
• GOFevaluation — Evaluate the Goodness-of-Fit(GOF) for binned or unbinned data.
• HErmes-py — Highly efficient, rapid multipurpose event selection
• hexfarm — Rutgers HEX Computing Utility Library
• hist — Hist classes and utilities
• Histimator — A solution for performing maximum likelihood estimation on models built from histogram templates.
• hyperfine — no summary
• hypergal — Python module for Host modeling
• icecube-tools — Python tools
• ipanema3 — Fitting Tool for High Energy Physics
• jetset — A framework for self-consistent modeling and fitting of astrophysical relativistic jets SEDs
• kafe2 — Karlsruhe Fit Environment 2: a package for fitting and elementary data analysis
• lazyscience — A bunch wrappers for lazy scientists
• lhcb-ftcalib — Library for calibrating flavour tagging algorithms at LHCb
• light-curve — Feature extractor from noisy time series
• magic-cta-pipe — pipeline for the analysis of joint MAGIC+LST-1 data
• metaDMG — metaDMG: Estimating ancient damage in (meta)genomic DNA rapidly
• minkit — Package to perform fits in both CPUs and GPUs
• modefit — modefit: Simple minuit<->mcmc fitting tools.
• multifit — Tool for fitting multiple data sets with shared parameters simultaneously
• mvesuvio — Analyse Vesuvio instrument data
• ncuhep — A Python project for NCU High Energy Physics.
• pachyderm — Physics Analysis Core for Heavy-Ions
• PhyPraKit — Tools for data visualisation and analysis in Physics Lab Courses
• picca — Package for Igm Cosmological-Correlations Analyses
• probfit — Distribution Fitting/Regression Library
• pulsar-spectra — A simple interface to record pulsar's flux density measurements for a large number of papers and perform fitting of spectral models.
• pyerrors — Error propagation and statistical analysis for Monte Carlo simulations
• pyfeyn2 — PyFeyn is a package which makes drawing Feynman diagrams simple and programmatic. Feynman diagrams are important constructs in perturbative field theory, so being able to draw them in a programmatic fashion is important if attempting to enumerate a large number of diagram configurations is important. The output quality of PyFeyn diagrams (into PDF or EPS formats) is very high, and special effects can be obtained by using constructs from PyX, which PyFeyn is based around
• pygama — Python package for data processing and analysis
• pygrc — A package to read SPARC data for Galactic Rotation Curves
• pyhf — pure-Python HistFactory implementation with tensors and autodiff
• pyhfcorr — Extension to pyhf for correlated uncertainties
• pyminufit — A Python package for fitting data with iMinuit
• pyproffit — Python package for PROFFIT
• pysedm — Simulating Transient in the sky and how to observe them
• QETpy — TES Detector Calibration and Analysis Python Tools
• qsonic — Quasar continuum fitter for DESI
• reaction-plane-fit — Implments the reaction plane fit for background subtraction in heavy ion collisions.
• relaxed — Differentiable versions of common HEP operations.
• resspect — no summary
• RootInteractive — no summary
• rustitude — Python bindings for the Rustitude library
• rx-scripts — Generic utilities for data analysis
• scikit-hep — Metapackage of Scikit-HEP project libraries for Particle Physics.
• sengbao-mle — 翻新的最大似然估计库 maximum likelihood estimation
• smpl — SiMPLe plotting and fitting
• sncosmo — Package for supernova cosmology based on astropy
• SNTD — no summary
• spectrogrism — Grism-based spectrograph modeling
• spefit — Fitting of Single Photoelectron Spectra.
• sweights — Tools for producing sweights using classic methods or custom orthogonal weight functions (COWs) and for correcting covariance matrices for weighted data fits.
• tensorwaves — Python fitter package for multiple computational back-ends
• TFPWA — Partial Wave Analysis program using Tensorflow
• yahist — Yet another histogram object with numpy and matplotlib
• zfit — scalable pythonic model fitting for high energy physics