Choose Your Projects
GridRepublic enables members to choose the projects to which they contribute:
  • SETI@home : search for radio evidence of extraterrestrial life.
  • Rosetta@home : study the mechanics of AIDS, Cancer, Alzheimer's, and other protein-related diseases.
  • PrimeGrid : research Prime Numbers.
  • Milkyway@home : discover the structure of our galaxy.
  • Africa@home : develop strategies to control the spread of Malaria.
  • BBC Climate Change : simulate the world's climate.
  • Yoyo@home : support a variety of i distributed computing projects.
  • World Community Grid : support a range of humanitarian research projects.
  • Cosmology@home : learn how the universe took its current shape.
  • SIMAP : construct a vital biomedical database.
  • Enigma@home/M4 : decipher coded messages from WWII.
  • Predictor@home : investigate protein-related diseases.
  • Spinhenge : explore the behavior of nano-magnetic molecules.
  • POEM@home : study protein structures.
  • Quantum Monte Carlo : investigate equations of Quantum Theory.
  • SZTAKI Desktop Grid : search for generalized binary number systems.
  • Docking@home : develop methods to advance the drug discovery process.
  • uFluids : model fluid dynamics in low gravity and at very small scales.
  • Leiden Classical : run Classical Dynamics simulations for scientists and students.
  • MindModeling@home : study human performance and learning.
  • Lattice Project : support the work of researchers at the University of Maryland.
  • Rectilinear Crossing : examine a basic but unsolved problem of geometry.
  • Tanpaku : predict protein structures from genetic sequences.
  • SHA-1 Collision Search : evaluate a widely used computer security algorithm.
  • Superlink@Technion : identify disease-provoking genes.
  • SETI@home Beta : test SETI@home.
  • Proteins@Home : develop drug discovery methods via "Inverse Protein Folding".
  • RieselSieve : find the smallest "Riesel number".
  • Einstein@home : verify Einstein's theories of gravity.
  • Chess960@home : develop basic game theory for Chess960, a variant of basic chess.
  • BURP : render 3D animations.
  • LHC@home : calibrate the Large Hadron Collider, the world's largest particle accelerator.
  • Seasonal Attribution Project : study human impact on the world's climate.
  • RALPH@home : test Rosetta@home.
  • NQueens@home : solve the NQueens puzzle.
  • Pirates@home : test and develop BOINC.
  • XtremLab : study technical aspects of Volunteer Computing.
  • Nano-Hive@home : study nanotechnology through simulations.
  • Hydrogen@home : improve a novel method of Hydrogen production.
  • PS3Grid : do biomedical research on Playstations!
  • Zivis : support local research at the University of Zaragoza (Spain).
  • Climateprediction.net : study the long term effects of climate changes.
  • Sudoku : find the smallest number of numbers requiredfor a valid Sudoku puzzle.
  • WEP-M+2 : factorize Mersenneplustwo numbers.
  • Cels@home : study cell adhesion, a key factor in Cancer treatment.
  • 3X+1@home : find solutions for the 3x+1 conjecture in mathematics.
  • HashClash : investigate weaknesses in MD5 and SHA-1 hash functions.
  • DepSpid : collect statistical data about the structure of the web.
  • TSP : find a general solution to the Traveling Salesman Problem.
  • APS@home : study ecosystem-atmosphere interactions.
  • ABC@home : help resolve an unproven mathematical theory.
  • BOINC Alpha Test : test BOINC.
  • Project Neuron : develop metrics useful for evaluating Volunteer Computing projects.
  • SciLINC : create an index of scientific literature.
  • BRaTS@home : detect unseen "Dark Matter".