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TutorialsNew FermiQCD Tutorials and Papers and visualization code... to be posted soonOld FermiQCD Tutorials and PapersFermiQCD is based on Matrix Distributed Processing (MDP). MDP is not free but it is distributed for free for non-commercial Lattice QCD applications. Lattice QCD Tutorials TutorialsPSIM Tutorials and PapersFermiQCD is based on MDP which uses PSIM. PSIM is used to run parallel processes on a single node architecture and/or on a shared memory architecture. |
Video Tutorials and Visualizations search vimeo Fully Object Oriented gauge_field U(lattice,Nc); cout << U(x+mu,nu); Natural Linear Algebra mdp_matrix A(Nc,Nc); cout << inv(A*A)+exp(3*I*A); Local PRNG forallsites(x) cout << lattice.random(x).SU(Nc); Parallel but trasparent forallsites(x) psi(x)=U(x,mu)*psi(x+mu); psi.update(); Arbitrary lattice dimensions int box[]={4,4,4,4,4,4}; mdp_lattice lattice(6,box); Variety of fields mdp_field<float> f(lattice); gauge_field U(lattice,Nc); fermi_field psi(lattice,Nc); staggered_field phi(lattice,Nc); dwfermi_field chi(lattice,Nc); (and more...) Variety of actions Wilson, Clover, unisotropic, Asqtad, Domain Wall, etc... And algorithms Minimum Residue, Stabilized Biconjugate Gradient, BiCGStabUML, Lanczos, etc. New: SSE/SSE2 Optimizations g++ test.cpp -DSSE2 New: Parallel simulator ./a.out -PSIM_NPROCS=4 (no MPI needed) .. or just use MPI mpiCC test.cpp -DPARALLEL mpirun -np 4 a.out |
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