Topic: monte-carlo-simulations Goto Github
Some thing interesting about monte-carlo-simulations
Some thing interesting about monte-carlo-simulations
monte-carlo-simulations,Monte Carlo overview and their applications
User: amajji
monte-carlo-simulations,Parallel and sequential versions of Monte Carlo integral estimation algorithm implemented in Scala
User: andriyka
monte-carlo-simulations,A simple Monte Carlo Simulation for simulating chances of winning a gambler.
User: ankushbhatia2
monte-carlo-simulations,Monte Carlo Simulation Course Assignments
User: ashar97
monte-carlo-simulations,the goal is to find out the probability of an insurance company going bankrupt given the insurance data
User: azharuddinkazi
monte-carlo-simulations,A Simple Algorithm for Converting Random Number Generator Outputs to Universal Distributions to Aid Teaching and Research in Modern Physical Chemistry
User: barryyangtao
Home Page: https://doi.org/10.26434/chemrxiv-2024-4thlz
monte-carlo-simulations,ParaMonte: Parallel Monte Carlo and Machine Learning Library for Python, MATLAB, Fortran, C++, C.
Organization: cdslaborg
Home Page: https://www.cdslab.org/paramonte
monte-carlo-simulations,using the Inverse-Transform method to speed up options pricing simulations in R
User: chicago-joe
monte-carlo-simulations,In this repository, a buy-and-hold investment is studied using Python and a Monte Carlo approach.
User: davidcico
monte-carlo-simulations,The Gaussian Mixture Probability Hypothesis Density filter, GMPHD python implementation
User: djape24394
monte-carlo-simulations,For benchmarking MCCE experiments viz experimental pKas or viz other MCCE experiments (A/B testing)
Organization: gunnerlab
monte-carlo-simulations,Data Science portfolio of ipython Notebooks with several Machine Learning algorithms. They follow a structured data science methodology to face various challenges
User: ibarrond
monte-carlo-simulations,This program generates dots with an active user interface.
User: jrice170
monte-carlo-simulations,Monte Carlo and Molecular Dynamics Simulation Package
User: khavernathy
monte-carlo-simulations,Pseudo-random number Linear Congruential Generator (LCG) with arbitrarily long integer arithmetic
User: lkeegan
monte-carlo-simulations,Repository for the code written for the MMC LongLab
User: luigi-ranno
monte-carlo-simulations,ATLAS is one of two general-purpose detectors at the Large Hadron Collider (LHC) at CERN. It investigates a wide range of physics, from the search for the Higgs boson to extra dimensions and particles that could make up dark matter. The ATLAS detector consists of a series of ever-larger concentric cylinders around the interaction point where the proton beams from the LHC collide. It can be divided into four major sections: Ξ€he Inner Detector, the innermost component, tracks the motion of charged particles as they move away from the interaction point. The tracks measured by recording particle/detector interactions at a multitude of discrete points, form the first step in identifying the unknown particles. The calorimeters measure the energy of both neutral and charged particles by interacting with them, resulting in creating cascades of secondary particles. The Muon Spectrometer, the outermost component of the detector, makes additional measurements of highly penetrating muons, which are capable of passing through the inner layers without interaction. Finally, the magnet systems bend charged particles in the Inner Detector and the Muon Spectrometer; their direction of motion and degree of curvature become indicative of their charge and momentum, respectively. The detector generates unmanageably large amounts of raw data: about 25 megabytes per event, multiplied by 40 million beam crossings per second in the center of the detector, producing a total of 1 petabyte of raw data per second. Thus, a trigger system is needed in order to select potentially interesting events for storage in real-time, so as to avoid being overwhelmed by background processes. The ATLAS trigger system uses simple information to identify the most interesting events to retain for detailed analysis. The data acquisition system receives and buffers the event data from the detector-specific readout electronics. Grid computing is being extensively used for event reconstruction, allowing the parallel use of computer networks throughout the world. A major problem at the ATLAS detector is the huge radiation background, coming from the collisions at the interaction point. This background causes several problems such as radiation damage to silicon detectors and readout electronics, ageing of the subdetectors, radiation deposits that disrupt electronic signals or destroy components, and background signals resulting in spurious and random triggers. For the limitation of these consequences, ATLAS uses almost 3000 tonnes of shielding in a multilayer design, taking advantage of the absorbing capacities of different materials.
User: marialymperaiou
monte-carlo-simulations,Third year mathematics dissertation on variational, laplace and mcmc approximations of bayesian logistic regression
User: mauroce
monte-carlo-simulations,Monte Carlo Event Generator for High Energy Diffraction [arXiv:1910.06300] [arXiv:2304.06010]
User: mieskolainen
monte-carlo-simulations,MOCASSIN - MOnte CArlo SimulationS of Ionized Nebulae, Version 2.0
Organization: mocassin
monte-carlo-simulations,MOCASSIN - MOnte CArlo SimulationS of Ionized Nebulae, Version 3.0
Organization: mocassin
monte-carlo-simulations,MOCASSIN - MOnte CArlo SimulationS of Ionized Nebulae on Voronoi Meshes
Organization: mocassin
monte-carlo-simulations,A set of radiation transport mini-applications used for performance optimization on HPC systems.
Organization: ornl-cees
Home Page: ornl-cees.github.io/Profugus
monte-carlo-simulations,Open-source/Oak-Ridge Wang-Landau (OWL): A suite for first-principles based Monte Carlo simulations
Organization: owl-suite
monte-carlo-simulations,Monte Carlo Simulations in different languages
User: patrickneugebauer
monte-carlo-simulations,Series of simulations analyzing common chemical engineering, thermodynamic, and kinetic phenomena
User: pjasmin1046
monte-carlo-simulations,An asset-pricing model using historical prices. Volatility of the asset is modeled as the random variable that changes over time and each iteration. For modelling the future price behavior, Monte Carlo simulations were performed.
User: puneat
monte-carlo-simulations,Here I will be doing budget analysis with Plaid, creating a retirement plan with Monte Carlo simulations, and generating a financial report.
User: quantessentiallyme
monte-carlo-simulations,RLumCarlo - Modelling luminescence using Monte Carlo methods
Organization: r-lum
Home Page: https://r-lum.github.io/RLumCarlo/
monte-carlo-simulations,Assortment of code for model systems in computational physics. github.com/rajeshrinet/compPhy
User: rajeshrinet
Home Page: https://github.com/rajeshrinet/compPhy
monte-carlo-simulations,Web apps illustrating science & math concepts.
User: rbyirdaw
Home Page: https://rbyirdaw.github.io/principe1919
monte-carlo-simulations,Python code of commonly used stochastic models for Monte-Carlo simulations
User: rsadykhov
monte-carlo-simulations,
User: ruosengao
monte-carlo-simulations,Hard sphere monte carlo simulations in C++
User: sachu92
monte-carlo-simulations,This was a first year University project I completed in 2013. It uses a Monte Carlo method to find an approximation to Pi. See Buffon's needle problem for related reading. Written in Python, and uses Turtle.
User: shammill
monte-carlo-simulations,A student Investment portfolio web app built with various optimization techniques and screening parameters from core finance
User: shivanshsinghal107
Home Page: https://quantizers.herokuapp.com/
monte-carlo-simulations,A Monte Carlo molecular simulation software especially suited for materials simulations with polarizable models
Organization: space-group-research
monte-carlo-simulations,Monte-Carlo simulations of four-dimensional Yang-Mills theories coupled to scalar and fermion fields
User: spiemonte
monte-carlo-simulations,PXO (Poly-XTAL Operations). Generate, analyze and export complex 2D space partitions like metallic grain structures
User: sunilanandatheertha
Home Page: https://sunilanandatheertha.github.io/PXO/
monte-carlo-simulations,Pricing TARN Using Numerical Methods
User: vbandelier
monte-carlo-simulations,C++QED: a framework for simulating open quantum dynamics
User: vukics
monte-carlo-simulations,Monte Carlo simulations in R
User: wfjvdham
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