Fedlearn algorithm toolkit for researchers

Overview

FedLearn-algo

Installation

Development Environment Checklist

python3 (3.6 or 3.7) is required. To configure and check the development environment is correct, a checklist file is provided: environment_checklist.sh. Under the path of FedLearn-algo, please run:

sh environment_checklist.sh

Recommended Python Package

Package License Version Github
datasets MIT 1.8.0 https://github.com/huggingface/datasets
gmpy2 LGPL 3.0 2.0.8 https://github.com/BrianGladman/gmpy2
grpc Apache 2.0 1.38.0 https://github.com/grpc/grpc
numpy BSD 3 1.19.2 https://github.com/numpy/numpy
omegaconf BSD 3 2.1.0 https://github.com/omry/omegaconf
oneflow Apache 2.0 0.4.0 https://github.com/Oneflow-Inc/oneflow
orjson Apache 2.0 3.5.2 https://github.com/ijl/orjson
pandas BSD 3 1.2.4 https://github.com/pandas-dev/pandas
phe LGPL 3.0 1.4.0 https://github.com/data61/python-paillier
sklearn BSD 3 0.24.2 https://github.com/scikit-learn/scikit-learn
tensorflow Apache 2.0 2.4.1 https://github.com/tensorflow/tensorflow
torch BSD 1.9 https://github.com/pytorch/pytorch
tornado Apache 2.0 6.1 https://github.com/tornadoweb/tornado
transformers Apache 2.0 4.7.0 https://github.com/huggingface/transformers
protobuf 3-Clause BSD 3.12.2 https://github.com/protocolbuffers/protobuf

Device Deployment

The device deployment is a centralized distributed topology, as shown in the above figure. The server terminal controls the training loop, and the N client terminals operate independent algorithm computation, respectively. For non-deep learning algorithms, each client terminal depends on CPU-based computation, otherwise GPU (e.g., NVIDIA series) should be configured to guarantee training speed.

Optional Text

Run an Example

An algorithm flow example is provided to demonstrate a customized algorithm development (one server terminal with three client terminals). Server should communicate with each client. The server and three clients could be sited on different machines or started by command line terminal in one machine.

First, users should set the IP, port, and token. In client terminals, run the following commands, respectively.

python demos/custom_alg_demo/custom_client.py -I 127.0.0.1 -P 8891 -T client_1
python demos/custom_alg_demo/custom_client.py -I 127.0.0.1 -P 8892 -T client_2
python demos/custom_alg_demo/custom_client.py -I 127.0.0.1 -P 8893 -T client_3

Second, in the server terminal, run the following to start the server and complete a simulated training pipeline.

python demos/custom_alg_demo/custom_server.py

Architecture Design

FedLearn-algo is an open source framework in the research environment to promote the study of novel federated learning algorithms. FedLearn-algo proposes a distributed machine learning architecture enabling both vertical and horizontal federated learning (FL) development. This architecture supports flexible module configurations for each particular algorithm design, and can be extended to build state-of-the-art algorithms and systems. FedLearn-algo also provides comprehensive examples, including FL-based kernel methods, random forest, and neural networks. At last, the horizontal FL extension in FedLearn-algo is compatible with popular deep learning frameworks, e.g., PyTorch, OneFlow.

Optional Text

The above figure shows the proposed FL framework. It has one server and multiple clients to complete the multi-party joint modeling in the federated learning procedure. The server is located at the centre of architecture topology, and it coordinates the training pipeline. Clients operate modeling computation independently in local terminals without sharing data, and thus could protect data privacy and data security.

Demonstration Algorithms

According to the data partition differences, existing FL algorithms can be mainly categorized into horizontal FL algorithms and vertical FL algorithms. Horizontal FL refers to the setting that samples on the involved machines share the same feature space while the machines have different sample ID space. Vertical FL means all machines share the same sample ID space while each machine has a unique feature space.

Vertical Federated Learning

  • Federated Kernel Learning. Kernel method is a nonlinear machine learning algorithm to handle linearly non-separable data.

  • Federated Random Forest. Random forest is an ensemble machine learning method for classification and regression by building a multitude of decision trees in model training.

Horizontal Federated Learning

  • Federated HFL. An extension framework in FedLearn-algo designed to provide flexible and easy-to-use algorithms in Horizontal Federated scenarios.

Documentation

License

The distribution of FedLearn-algo in this repository is under Apache 2.0 license.

Citation

Please cite FedLearn-algo in your publications if it makes some contributions to your research/development:

@article{liu2021fedlearn,
  title={Fedlearn-Algo: A flexible open-source privacy-preserving machine learning platform},
  author={Liu, Bo and Tan, Chaowei and Wang, Jiazhou and Zeng, Tao and Shan, Huasong and Yao, Houpu and Heng, Huang and Dai, Peng and Bo, Liefeng and Chen, Yanqing},
  journal={arXiv preprint arXiv:2107.04129},
  url={https://arxiv.org/abs/2107.04129},
  year={2021}
}

Contact us

Please contact us at [email protected] if you have any questions.

Comments
  • 咨询random_forest demo的Prediction结果

    咨询random_forest demo的Prediction结果

    冒昧求教:框架中的random_forest demo处理的是一个二分类问题, 1、为什么Prediction的结果是一个有9个元素的数组?我猜测预测的是不是inference数据集中9位uid得糖尿病的概率?如果是这样的话如何去检查预测的准确度呢? 2、为什么每次运行Prediction的结果都是不同的?

    opened by ZhangQiusi 4
  • how the complete tree form in random forest demo_local,py

    how the complete tree form in random forest demo_local,py

    0: {0: {'processed': True}, 1: {'processed': True}, 2: {'processed': True}, 3: {'processed': True, 'is_leaf': True}, 4: {'processed': True}, 5: {'processed': True, 'is_leaf': True}, 6: {'processed': True}, 9: {'processed': True, 'is_leaf': True}, 10: {'processed': True}, 13: {'processed': True, 'is_leaf': True}, 14: {'processed': True}, 21: {'processed': True, 'is_leaf': True}, 22: {'processed': True, 'is_leaf': True}, 29: {'processed': True, 'is_leaf': True}, 30: {'processed': True, 'is_leaf': True}}} how with this information we can analyse the tree,which one is root which one is leaf

    opened by monuheeya 3
  • Incompatible package version in `environment_checklist.sh`

    Incompatible package version in `environment_checklist.sh`

    Problem: The intel-numpy package is incompatible with pandas package which are installed by running the file environment_checklist.sh

    Details: The version of the installed intel-numpy is 1.15.1. The version of the installed pandas package is incompatible with numpy < 1.15.4

    Reproduce the error:

    1. Under the environment of Python 3.6.13
    2. Go to the root repository of fedlearn-algo
    3. Install the python packages by running ./environment_checklist.sh
    4. See this error when running command python demos/random_forest/client.py -I 0 -C demos/random_forest/config.py
    opened by flyingcat047 2
  • Failure to set up the local environment by running environment_checklist.sh

    Failure to set up the local environment by running environment_checklist.sh

    Below is the error message that I got when I tried to set up the local envrionment by running environment_checklist.sh. Some of the dependency failed to be installed.

    (py36) * xuebin.wang$ sh environment_checklist.sh 
    
    Run the checklist...
    
    environment_checklist.sh: line 6: yum: command not found
    
    1. check development env...
    
    environment_checklist.sh: line 11: yum: command not found
    
    environment_checklist.sh: line 12: yum: command not found
    
    Development env checking finished.
    
    2. check python 3.6 env...
    
    environment_checklist.sh: line 20: yum: command not found
    
    Python 3.6 checking finished.
    
    3. check paillier packages...
    
    environment_checklist.sh: line 28: yum: command not found
    
    Collecting gmpy2
    
      Using cached gmpy2-2.0.8.zip (280 kB)
    
    Collecting phe
    
      Using cached phe-1.4.0.tar.gz (35 kB)
    
    Building wheels for collected packages: gmpy2, phe
    
      Building wheel for gmpy2 (setup.py) ... error
    
      ERROR: Command errored out with exit status 1:
    
       command: /Users/xuebin.wang/opt/anaconda3/envs/py36/bin/python3 -u -c 'import io, os, sys, setuptools, tokenize; sys.argv[0] = '"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"'; __file__='"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"';f = getattr(tokenize, '"'"'open'"'"', open)(__file__) if os.path.exists(__file__) else io.StringIO('"'"'from setuptools import setup; setup()'"'"');code = f.read().replace('"'"'\r\n'"'"', '"'"'\n'"'"');f.close();exec(compile(code, __file__, '"'"'exec'"'"'))' bdist_wheel -d /private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-wheel-qxmh5v9h
    
           cwd: /private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/
    
      Complete output (14 lines):
    
      running bdist_wheel
    
      running build
    
      running build_ext
    
      building 'gmpy2' extension
    
      creating build
    
      creating build/temp.macosx-10.9-x86_64-3.6
    
      creating build/temp.macosx-10.9-x86_64-3.6/src
    
      gcc -Wno-unused-result -Wsign-compare -Wunreachable-code -DNDEBUG -g -fwrapv -O3 -Wall -Wstrict-prototypes -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include -arch x86_64 -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include -arch x86_64 -DWITHMPFR -DWITHMPC -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include/python3.6m -c src/gmpy2.c -o build/temp.macosx-10.9-x86_64-3.6/src/gmpy2.o
    
      In file included from src/gmpy2.c:426:
    
      src/gmpy.h:106:12: fatal error: 'gmp.h' file not found
    
      #  include "gmp.h"
    
                 ^~~~~~~
    
      1 error generated.
    
      error: command 'gcc' failed with exit status 1
    
      ----------------------------------------
    
      ERROR: Failed building wheel for gmpy2
    
      Running setup.py clean for gmpy2
    
      Building wheel for phe (setup.py) ... done
    
      Created wheel for phe: filename=phe-1.4.0-py2.py3-none-any.whl size=37362 sha256=1b08747fb6775a103f53ac225fefc0e13206acabbdeeff65bd15bec56a809975
    
      Stored in directory: /Users/xuebin.wang/Library/Caches/pip/wheels/61/2c/64/036a5dd340f2608a6d3c7cb8e88333a841d7ad3457ca9fd7f9
    
    Successfully built phe
    
    Failed to build gmpy2
    
    Installing collected packages: phe, gmpy2
    
        Running setup.py install for gmpy2 ... error
    
        ERROR: Command errored out with exit status 1:
    
         command: /Users/xuebin.wang/opt/anaconda3/envs/py36/bin/python3 -u -c 'import io, os, sys, setuptools, tokenize; sys.argv[0] = '"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"'; __file__='"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"';f = getattr(tokenize, '"'"'open'"'"', open)(__file__) if os.path.exists(__file__) else io.StringIO('"'"'from setuptools import setup; setup()'"'"');code = f.read().replace('"'"'\r\n'"'"', '"'"'\n'"'"');f.close();exec(compile(code, __file__, '"'"'exec'"'"'))' install --record /private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-record-o053dhrt/install-record.txt --single-version-externally-managed --compile --install-headers /Users/xuebin.wang/opt/anaconda3/envs/py36/include/python3.6m/gmpy2
    
             cwd: /private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/
    
        Complete output (14 lines):
    
        running install
    
        running build
    
        running build_ext
    
        building 'gmpy2' extension
    
        creating build
    
        creating build/temp.macosx-10.9-x86_64-3.6
    
        creating build/temp.macosx-10.9-x86_64-3.6/src
    
        gcc -Wno-unused-result -Wsign-compare -Wunreachable-code -DNDEBUG -g -fwrapv -O3 -Wall -Wstrict-prototypes -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include -arch x86_64 -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include -arch x86_64 -DWITHMPFR -DWITHMPC -I/Users/xuebin.wang/opt/anaconda3/envs/py36/include/python3.6m -c src/gmpy2.c -o build/temp.macosx-10.9-x86_64-3.6/src/gmpy2.o
    
        In file included from src/gmpy2.c:426:
    
        src/gmpy.h:106:12: fatal error: 'gmp.h' file not found
    
        ```#  include "gmp.h"```
    
                   ^~~~~~~
    
        1 error generated.
    
        error: command 'gcc' failed with exit status 1
    
        ----------------------------------------
    
    ERROR: Command errored out with exit status 1: /Users/xuebin.wang/opt/anaconda3/envs/py36/bin/python3 -u -c 'import io, os, sys, setuptools, tokenize; sys.argv[0] = '"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"'; __file__='"'"'/private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-install-tus8ysrk/gmpy2_804b98d559b94d669dd65ed828081209/setup.py'"'"';f = getattr(tokenize, '"'"'open'"'"', open)(__file__) if os.path.exists(__file__) else io.StringIO('"'"'from setuptools import setup; setup()'"'"');code = f.read().replace('"'"'\r\n'"'"', '"'"'\n'"'"');f.close();exec(compile(code, __file__, '"'"'exec'"'"'))' install --record /private/var/folders/v6/bhhlhsqs21x3rlqfctn9tbr80000gp/T/pip-record-o053dhrt/install-record.txt --single-version-externally-managed --compile --install-headers /Users/xuebin.wang/opt/anaconda3/envs/py36/include/python3.6m/gmpy2 Check the logs for full command output.
    
    Paillier packages checking finished.
    
    4. check numpy/scipy related...
    
    Collecting intel-numpy
    
      Downloading intel_numpy-1.15.1-cp36-cp36m-macosx_10_12_intel.macosx_10_12_x86_64.whl (6.0 MB)
    
         |████████████████████████████████| 6.0 MB 3.3 MB/s 
    
    Collecting intel-scipy
    
      Downloading intel_scipy-1.1.0-cp36-cp36m-macosx_10_12_intel.macosx_10_12_x86_64.whl (28.2 MB)
    
         |████████████████████████████████| 28.2 MB 18.4 MB/s 
    
    Collecting icc-rt
    
      Downloading icc_rt-2019.0-py2.py3-none-macosx_10_12_intel.macosx_10_12_x86_64.whl (9.5 MB)
    
         |████████████████████████████████| 9.5 MB 34.1 MB/s 
    
    Collecting mkl-fft
    
      Downloading mkl_fft-1.0.6-cp36-cp36m-macosx_10_12_intel.macosx_10_12_x86_64.whl (232 kB)
    
         |████████████████████████████████| 232 kB 29.0 MB/s 
    
    Collecting mkl
    
      Downloading mkl-2019.0-py2.py3-none-macosx_10_12_intel.macosx_10_12_x86_64.whl (193.8 MB)
    
         |████████████████████████████████| 193.8 MB 28.7 MB/s 
    
    Collecting tbb4py
    
      Downloading tbb4py-2019.0-cp36-cp36m-macosx_10_12_intel.macosx_10_12_x86_64.whl (47 kB)
    
         |████████████████████████████████| 47 kB 13.7 MB/s 
    
    Collecting mkl-random
    
      Downloading mkl_random-1.0.1.1-cp36-cp36m-macosx_10_12_intel.macosx_10_12_x86_64.whl (393 kB)
    
         |████████████████████████████████| 393 kB 43.2 MB/s 
    
    Collecting intel-openmp
    
      Downloading intel_openmp-2019.0-py2.py3-none-macosx_10_12_intel.macosx_10_12_x86_64.whl (1.1 MB)
    
         |████████████████████████████████| 1.1 MB 22.5 MB/s 
    
    Collecting tbb==2019.*
    
      Downloading tbb-2019.0-py2.py3-none-macosx_10_12_intel.macosx_10_12_x86_64.whl (565 kB)
    
         |████████████████████████████████| 565 kB 21.6 MB/s 
    
    Installing collected packages: tbb, intel-openmp, tbb4py, mkl-random, mkl-fft, mkl, icc-rt, intel-numpy, intel-scipy
    
    Successfully installed icc-rt-2019.0 intel-numpy-1.15.1 intel-openmp-2019.0 intel-scipy-1.1.0 mkl-2019.0 mkl-fft-1.0.6 mkl-random-1.0.1.1 tbb-2019.0 tbb4py-2019.0
    
    Collecting grpcio
    
      Downloading grpcio-1.39.0-cp36-cp36m-macosx_10_10_x86_64.whl (3.9 MB)
    
         |████████████████████████████████| 3.9 MB 4.0 MB/s 
    
    Collecting grpcio-tools
    
      Downloading grpcio_tools-1.39.0-cp36-cp36m-macosx_10_10_x86_64.whl (2.0 MB)
    
         |████████████████████████████████| 2.0 MB 19.1 MB/s 
    
    Collecting six>=1.5.2
    
      Using cached six-1.16.0-py2.py3-none-any.whl (11 kB)
    
    Requirement already satisfied: setuptools in /Users/xuebin.wang/opt/anaconda3/envs/py36/lib/python3.6/site-packages (from grpcio-tools) (52.0.0.post20210125)
    
    Collecting protobuf<4.0dev,>=3.5.0.post1
    
      Downloading protobuf-3.17.3-cp36-cp36m-macosx_10_9_x86_64.whl (1.0 MB)
    
         |████████████████████████████████| 1.0 MB 25.4 MB/s 
    
    Installing collected packages: six, protobuf, grpcio, grpcio-tools
    
    Successfully installed grpcio-1.39.0 grpcio-tools-1.39.0 protobuf-3.17.3 six-1.16.0
    
    opened by flyingcat047 2
  • Need fix for core.encrypt.RandomizedIterativeAffine module for combinatory operations

    Need fix for core.encrypt.RandomizedIterativeAffine module for combinatory operations

    I found one problem of core.encrypt.RandomizedIterativeAffine module. When combinatory scalar products and additions are applied to the encrypted objects, the result may turn wrong. For example, with the inputs below,

    p1= 4592.146866155027
    p2= 532.2228109095383
    k1= 872.0311515320057
    k2= -1033.819189454349
    

    the decrypted result of ([p1]*k1)*k2+[p2] is -532.2228107452393 I also tried with other inputs. It seems that the decryption of ([p1]*k1)*k2+[p2] generally gives me the value of -p2

    opened by flyingcat047 1
  • Deperated riac

    Deperated riac

    For updates and changes

    Changes:

    1. Add readme in he folder
    2. Add announcement for RIAC: The RIAC scheme has been found security flaws, we decide to disable this scheme until a secure version is released.
    opened by guabao 0
  • Clean up code and fix secure inference

    Clean up code and fix secure inference

    Changes:

    1. Clean up develop code in secure inference.
    2. Reposition secure inference data.
    3. Fix running issue in secure inference demo.
    4. Add corresponding instructions in Readme.
    opened by cyqclark 0
  • Add secure inference and async supports

    Add secure inference and async supports

    Changes:

    1. Add Secure Inference demo for sphereface model
    2. Add both synchronized and asynchronized implementation for Secure Inference
    3. Add sphereface related data
    4. Change communication core to support asynchronized communication
    opened by cyqclark 0
  • Vertically federated linear regression algorithm is ready

    Vertically federated linear regression algorithm is ready

    Changes:

    1. Added vertically federated linear regression algorithm based on QR in the demos/linear_regression folder
    2. The scripts for local and remote demos are also under the demos/linear_regression folder
    opened by flyingcat047 0
  • New client

    New client

    For issue fixes

    Fixes ISSUE #xxx

    For updates and changes

    Changes:

    1. update kernel regression code and FDNN code to fit the new client and coordinator
    2. move FDNN code to tensorflow sub-folder, pytorch version is scheduled to push to the code base.
    3. start new feature engineering demo.
    opened by guabao 0
  • A sync hfl

    A sync hfl

    For issue fixes

    Fixes ISSUE #xxx

    For updates and changes

    Changes:

    1. support Fed-aSync framework
    2. support aSyncFedAvg aggregation Algo
    3. support fed-text-classification-model
    4. support 20newsgroups dataset preprocessing
    opened by monadyn 0
Releases(v0.1.0-alpha)
Owner
null
A fast python implementation of the SimHash algorithm.

This Python package provides hashing algorithms for computing cohort ids of users based on their browsing history. As such, it may be used to compute cohort ids of users following Google's Federated Learning of Cohorts (FLoC) proposal.

Hybrid Theory 19 Dec 15, 2022
A genetic algorithm written in Python for educational purposes.

Genea: A Genetic Algorithm in Python Genea is a Genetic Algorithm written in Python, for educational purposes. I started writing it for fun, while lea

Dom De Felice 20 Jul 6, 2022
TikTok X-Gorgon & X-Khronos Generation Algorithm

TikTok X-Gorgon & X-Khronos Generation Algorithm X-Gorgon and X-Khronos headers are required to call tiktok api. I will provide you API as rental or s

TikTokMate 31 Dec 1, 2022
A minimal implementation of the IQRM interference flagging algorithm for radio pulsar and transient searches

A minimal implementation of the IQRM interference flagging algorithm for radio pulsar and transient searches. This module only provides the algorithm that infers a channel mask from some spectral statistic that measures the level of RFI contamination in a time-frequency data block. It should be useful as a reference implementation to developers who wish to integrate IQRM into an existing pipeline / search code.

Vincent Morello 6 Nov 29, 2022
Greedy Algorithm-Problem Solving

MAX-MIN-Hackrrank-Python-Solution Greedy Algorithm-Problem Solving You will be given a list of integers, , and a single integer . You must create an a

Mahesh Nagargoje 3 Jul 13, 2021
An implementation of ordered dithering algorithm in python as multimedia course project

One way of minimizing the size of an image is to simply reduce the number of bits you use to represent each pixel.

null 7 Dec 2, 2022
A custom prime algorithm, implementation, and performance code & review

Colander A custom prime algorithm, implementation, and performance code & review Pseudocode Algorithm 1. given a number of primes to find, the followi

Finn Lancaster 3 Dec 17, 2021
Sorting Algorithm Visualiser using pygame

SortingVisualiser Sorting Algorithm Visualiser using pygame Features Visualisation of some traditional sorting algorithms like quicksort and bubblesor

null 4 Sep 5, 2021
This project is an implementation of a simple K-means algorithm

Simple-Kmeans-Clustering-Algorithm Abstract K-means is a centroid-based algorithm, or a distance-based algorithm, where we calculate the distances to

Saman Khamesian 7 Aug 9, 2022
Search algorithm implementations meant for teaching

Search-py A collection of search algorithms for teaching and experimenting. Non-adversarial Search There’s a heavy separation of concerns which leads

Dietrich Daroch 5 Mar 7, 2022
8-puzzle-solver with UCS, ILS, IDA* algorithm

Eight Puzzle 8-puzzle-solver with UCS, ILS, IDA* algorithm pre-usage requirements python3 python3-pip virtualenv prepare enviroment virtualenv -p pyth

Mohsen Arzani 4 Sep 22, 2021
A Python Package for Portfolio Optimization using the Critical Line Algorithm

A Python Package for Portfolio Optimization using the Critical Line Algorithm

null 19 Oct 11, 2022
🧬 Training the car to do self-parking using a genetic algorithm

?? Training the car to do self-parking using a genetic algorithm

Oleksii Trekhleb 652 Jan 3, 2023
A raw implementation of the nearest insertion algorithm to resolve TSP problems in a TXT format.

TSP-Nearest-Insertion A raw implementation of the nearest insertion algorithm to resolve TSP problems in a TXT format. Instructions Load a txt file wi

sjas_Phantom 1 Dec 2, 2021
A GUI visualization of QuickSort algorithm

QQuickSort A simple GUI visualization of QuickSort algorithm. It only uses PySide6, it does not have any other external dependency. How to run Install

Jaime R. 2 Dec 24, 2021
My own Unicode compression algorithm

Zee Code ZCode is a custom compression algorithm I originally developed for a competition held for the Spring 2019 Datastructures and Algorithms cours

Vahid Zehtab 2 Oct 20, 2021
A python implementation of the Basic Photometric Stereo Algorithm

Photometric-Stereo A python implementation of the Basic Photometric Stereo Algorithm Result Usage run Photometric_Stereo.py Code Tree |data #原始数据,tga格

null 20 Dec 19, 2022
Python package to monitor the power consumption of any algorithm

CarbonAI This project aims at creating a python package that allows you to monitor the power consumption of any python function. Documentation The com

Capgemini Invent France 36 Nov 11, 2022
marching rectangles algorithm in python with clean code.

Marching Rectangles marching rectangles algorithm in python with clean code. Tools Python 3 EasyDraw Creators Mohammad Dori Run the Code Installation

Mohammad Dori 3 Jul 15, 2022