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FerFlow.jl
Commit 9e3c24de authored by Fernando Pérez Panadero's avatar Fernando Pérez Panadero
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Input file update. Some typos fixed

parent 151adfe9
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Showing with 14 additions and 7 deletions
input/FerFlow.in
View file @ 9e3c24de
...@@ -17,7 +17,16 @@ eps = 0.01 ...@@ -17,7 +17,16 @@ eps = 0.01
ns = 30 ns = 30
mclength = -1 # Number of measurements. Negative to ignore mclength = -1 # Number of measurements. Negative to ignore
[Fermion] [Fermion1]
kappa = 0.1348
theta = 0.0
theta_t = 3.1415926535897
csw = 1.76923076923077
ct = 9.8718528389891003e-01
tolerance = 1.0e-13
maxiter = 50000
[Fermion2]
kappa = 0.1348 kappa = 0.1348
theta = 0.0 theta = 0.0
theta_t = 3.1415926535897 theta_t = 3.1415926535897
......
src/io.jl
View file @ 9e3c24de
...@@ -105,8 +105,8 @@ function write_log() ...@@ -105,8 +105,8 @@ function write_log()
println(log_file,"Parameters:") println(log_file,"Parameters:")
println(log_file,"Lattice size: ", lp.iL) println(log_file,"Lattice size: ", lp.iL)
println(log_file,"Boundary conditions: ", params["Space"]["bc"]) println(log_file,"Boundary conditions: ", params["Space"]["bc"])
for i in fernames for f in fernames
println(log_file,"Fermion"*i*" parameters:") println(log_file,"Fermion"*f*" parameters:")
println(log_file,"kappa = ", params["Fermion"*f]["kappa"]) println(log_file,"kappa = ", params["Fermion"*f]["kappa"])
println(log_file,"theta_t = ", params["Fermion"*f]["theta_t"]) println(log_file,"theta_t = ", params["Fermion"*f]["theta_t"])
println(log_file,"theta = ", params["Fermion"*f]["theta"]) println(log_file,"theta = ", params["Fermion"*f]["theta"])
......
src/meas.jl
View file @ 9e3c24de
...@@ -91,9 +91,8 @@ function Frontflow_pt() # Will be Frontflow ...@@ -91,9 +91,8 @@ function Frontflow_pt() # Will be Frontflow
if params["Frontflow"]["t_zero"]>0.0 if params["Frontflow"]["t_zero"]>0.0
_,epslist = flw_adapt(U, psi, int, params["Frontflow"]["t_zero"], gp, dpar[f], lp, ymws, dws) _,epslist = flw_adapt(U, psi, int, params["Frontflow"]["t_zero"], gp, dpar[f], lp, ymws, dws)
println(log_file,"Flowed correlator to t = ",params["Frontflow"]["t_zero"]," with last stepsize ",epslist[end-1]) println(log_file,"Flowed correlator to t = ",params["Frontflow"]["t_zero"]," with last stepsize ",epslist[end-1])
end
println(log_file,"Flowing correlator ",params["Frontflow"]["nsteps"]," steps of size ",params["Frontflow"]["epsilon"])
flush(log_file) flush(log_file)
end
for tstep in 1:params["Frontflow"]["nsteps"] for tstep in 1:params["Frontflow"]["nsteps"]
...@@ -327,9 +326,8 @@ function Two_pt_lagrange() # Will be 2pt lagrange mult ...@@ -327,9 +326,8 @@ function Two_pt_lagrange() # Will be 2pt lagrange mult
if params["Frontflow"]["t_zero"]>0.0 if params["Frontflow"]["t_zero"]>0.0
_,epslist = flw_adapt(U, psi, int, params["Frontflow"]["t_zero"], gp, dpar[f], lp, ymws, dws) _,epslist = flw_adapt(U, psi, int, params["Frontflow"]["t_zero"], gp, dpar[f], lp, ymws, dws)
println(log_file,"Flowed correlator to t = ",params["Frontflow"]["t_zero"]," with last stepsize ",epslist[end-1]) println(log_file,"Flowed correlator to t = ",params["Frontflow"]["t_zero"]," with last stepsize ",epslist[end-1])
end
println(log_file,"Flowing correlator ",params["Frontflow"]["nsteps"]," steps of size ",params["Frontflow"]["epsilon"])
flush(log_file) flush(log_file)
end
@timeit "CPU to GPU" copyto!(dws.st,psit_CPU) @timeit "CPU to GPU" copyto!(dws.st,psit_CPU)
......
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