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Spectrogram
Live sound spectrogram in JavaScript. It can be configured to change buffer size, FFT function, colormap, window type, minimum and maximum frequencies, loudness sensibility, scrolling direction, scrolling speed and pause scrolling.RedPitaya-Hello-World
Simple projects for the RedPitaya board that illustrate the use of standard IPs from Vivado in combination with modules written in Verilog.Fast-Walsh-Hadamard-Transform
Fast Walsh-Hadamard TransformQuantum-Computer-Simulator
Ideal simulator of a quantum computer written in Python, compatible with IBM Quantum ExperienceIntroduccion-a-la-Computacion-Cuantica
Se presenta una introducción práctica a la Computación Cuántica usando el SDK Qiskit desarrollado por IBM en Python.Testing-Bell-Inequality-on-a-Quantum-Computer
We illustrate how to test the version of the Bell inequality proposed by David Mermin using QiskitFFT.js
Compact Fast Fourier transform function in JavaScript based on the Cooley–Tukey algorithm with a demo page that illustrates the use of window functions a a simple spectrogram.Riemann-Zeta-Function
Visualization of the Riemann Zeta Function in JavascriptRedPitaya-Generate-Acquire
Simple Python scripts to illustrate the use of the ASG and the signal acquisition on the RedPitaya board.Mandelbrot-Set-PyCUDA
Interactive Mandelbrot Set Accelerated with PyCUDA in Python LanguageMuon-Decay-Simulation-Python
Monte Carlo simulations of double-pulse events due to muon decays in a simple scintillation detector for educational purposes.Mandelbrot-Set
Fast visualization of the Mandelbrot set in JavaScript using workers with live demo.Tools-Cosmic-Rays
Tools to study arrival directions of ultrahigh-energy cosmic rays.Quantum-Teleportation-with-Qiskit-on-a-Real-Computer
We illustrate how to perform the quantum teleportation of one qubit using Qiskit. We do it on an ideal simulated quantum computer, a simulated quantum computer with noise and a real quantum computer from the IBM Quantum Experience.LabView
LabView modules.MPI-tutorial
Tutorial on the use of MPI on the supercomputer of the Laboratorio Nacional de Supercómputo del Sureste de MéxicoGame-of-Life-Numba
Conway's Game of Life Accelerated with Numba in Python LanguageMake-your-Own-Spectroscope
This web app describes the calculations and procedure to make a simple spectroscope using a CD or a DVD. It includes a template and the code to capture the image with a fixed-focus webcam and to do a simple calibrations of the wavelengths.RedPitaya-Signal-Generator-Python
RedPitaya-Generate-Acquire-App
Web app to control the RedPitaya board using Node.js to generate arbitrary signals with the fast DACs and to acquire them with the fast ADCsRedPitaya-Muon-Decay
Includes Verilog code to program the FPGA of the RedPitaya to detect the occurrence of two pulses within a programmable time window. It includes a programmable double-pulse generator as well. It also includes code in Python and C to read the digitized pulses.Muon-Decay-Real-Data
This app measures the muon lifetime by using real data taken with a liquid-scintillator detector and a RedPitaya STEMLab 125-14 boardRedPitaya-Muon-Decay-App
This app uses a STEMlab 125-14 RedPitaya board as the only electronic device, in addition to the detector, to perform a muon-decay experimentZynq-TDC-Test
Work in progress for a TDC implamentation on a RedPitaya STEMLab 125-14 Xilinx ZYNQ 7010 board using a CARRY4 chain as a delay line.Game-of-Life-PyCUDA
Conway's Game of Life Accelerated with PyCUDA in Python LanguageRedPitaya-Node-Express-App
Communication and control of the Red Pitaya board using Node.js which is a back-end JavaScript runtime environmentMuon-Decay-Simulation-JavaScript
Monte Carlo simulation of double-pulse events due to muon decays in a simple scintillation or water Cherenkov detector for educational purposes written in JavaScript.Quantum-Computing-JavaScript
Simulator of an ideal quantum computer in JavaScript. The unitary operations are optimized with matrix-free algorithms.RedPitaya-C-Periphery
Inverse-Z-Transform
Inverse z transform using the sympy module in PythonGame-of-Life-Julia
Sensor-Plotter-Serial
This app plots and prints data received by a serial port from an ESP32 microcontroller programmed using the different codes provided to control different sensors.INTRODUCCION-A-MACHINE-LEARNING
Dollar-Cost-Averaging
Dollar cost averaging plus a few variationsTransformada-de-Fourier-y-sus-Aplicaciones
Analytic-Hierarchy-Process
Euclidean-Algorithm
Calculates the greatest common divisor (GCD) of two integers. When the two numbers are coprime, i.e., their GCD is 1, the code calculates the modular multiplicative inverse of the second integer module the first integer.Mandelbrot-Set-Numba
Mandelbrot Set Accelerated with Numba in Python Language using the Classical Iteration MethodSuper-Galactic-Coordinates
Julia functions to convert sky coordinates from galactic to supergalactic and vice versaESP32-Lissajous-WebSockets
This Web App plots Lissajous curves sent by an ESP32 microcontroller using WebSockets.Discrete-Fourier-Transform-Calculator
This Web App calculates and plots the Discrete Fourier Transform (DFT). You can use a function and a value for a sampling rate or you can paste your own data.RedPitaya-Nth-Edge-Trigger-App
This app illustrates a way to perform Nth edge trigger on a STEMlab 125-14 RedPitaya board using Node.js and Express with Python scripts.Escuela-Computacion-Cuantica-2023
Material didáctico del Tutorial de Computación Cuántica con Qiskit en la 1st Mexican NISQ Era Quantum Computing Opportunities School de la BUAP del 16-17 de junio de 2023Spectrogram-Musical-Notes
Live sound spectrogram with the addition to test if a person has a talent to recognize and distinguish musical notes.Diffraction-Grating
Calculates diffraction angles for DVD, CD and a diffraction grating of 1000 l/mm. This script is useful to design an spectroscope.ESP32-Lissajous-Serial
This Web App plots Lissajous curves sent by an ESP32 microcontroller using the serial port.Machine-Learning-Resources
Listado de varios recursos de libre acceso para aprender Inteligencia Artificial (AI), Aprendizaje de Máquina (Machine Learning) y Aprendizaje Profundo (Deep Learning).Love Open Source and this site? Check out how you can help us