Fixed input for propagators and test for Csw

parent 1eb6d458
...@@ -34,6 +34,15 @@ struct DiracParam{T,R} ...@@ -34,6 +34,15 @@ struct DiracParam{T,R}
return new{T,SU3fund}(m0,csw,th,ct) return new{T,SU3fund}(m0,csw,th,ct)
end end
end end
function Base.show(io::IO, dpar::DiracParam{T,R}) where {T,R}``
println(io, "Wilson fermions in the: ", R, " representation")
println(io, " - Bare mass: ", dpar.m0," // Kappa = ",0.5/(dpar.m0+4))
println(io, " - Csw : ", dpar.csw)
println(io, " - c_t: ", dpar.ct)
println(io, " - Theta: ", dpar.th)
return nothing
end
struct DiracWorkspace{T} struct DiracWorkspace{T}
...@@ -365,16 +374,14 @@ function krnl_csw!(csw::AbstractArray{T}, U, Ubnd, ipl, ztw, lp::SpaceParm{4,M,B ...@@ -365,16 +374,14 @@ function krnl_csw!(csw::AbstractArray{T}, U, Ubnd, ipl, ztw, lp::SpaceParm{4,M,B
gt2 = U[bud,id2,rud] gt2 = U[bud,id2,rud]
end end
if SFBC && (it == 1)
csw[b,ipl,r] = projalg(U[b,id1,r]*gt1/(U[b,id2,r]*U[bu2,id1,ru2])) + projalg((U[bd2,id2,rd2]\(U[bd2,id1,rd2]*gt2))/U[b,id1,r])
else if !(SFBC && (it == 1))
if TWP if TWP
csw[b,ipl,r] = projalg(ztw,U[b,id1,r]*gt1/(U[b,id2,r]*U[bu2,id1,ru2])) + projalg(ztw,(U[bd2,id2,rd2]\(U[bd2,id1,rd2]*gt2))/U[b,id1,r]) + csw[b,ipl,r] = projalg(ztw,U[b,id1,r]*gt1/(U[b,id2,r]*U[bu2,id1,ru2]) + (U[bd2,id2,rd2]\(U[bd2,id1,rd2]*gt2))/U[b,id1,r] +
projalg(ztw,(U[bdd,id2,rdd]*U[bd1,id1,rd1])\(U[bdd,id1,rdd]*U[bd2,id2,rd2])) + projalg(ztw,(U[b,id2,r]/(U[bd1,id2,rd1]*U[bdu,id1,rdu]))*U[bd1,id1,rd1]) (U[bdd,id2,rdd]*U[bd1,id1,rd1])\(U[bdd,id1,rdd]*U[bd2,id2,rd2]) + (U[b,id2,r]/(U[bd1,id2,rd1]*U[bdu,id1,rdu]))*U[bd1,id1,rd1])
else else
csw[b,ipl,r] = projalg(U[b,id1,r]*gt1/(U[b,id2,r]*U[bu2,id1,ru2])) + projalg((U[bd2,id2,rd2]\(U[bd2,id1,rd2]*gt2))/U[b,id1,r]) + csw[b,ipl,r] = projalg(U[b,id1,r]*gt1/(U[b,id2,r]*U[bu2,id1,ru2]) + (U[bd2,id2,rd2]\(U[bd2,id1,rd2]*gt2))/U[b,id1,r] +
projalg((U[bdd,id2,rdd]*U[bd1,id1,rd1])\(U[bdd,id1,rdd]*U[bd2,id2,rd2])) + projalg((U[b,id2,r]/(U[bd1,id2,rd1]*U[bdu,id1,rdu]))*U[bd1,id1,rd1]) (U[bdd,id2,rdd]*U[bd1,id1,rd1])\(U[bdd,id1,rdd]*U[bd2,id2,rd2]) + (U[b,id2,r]/(U[bd1,id2,rd1]*U[bdu,id1,rdu]))*U[bd1,id1,rd1])
end end
end end
......
...@@ -90,3 +90,4 @@ function isgroup(a::SU3{T}) where T <: AbstractFloat ...@@ -90,3 +90,4 @@ function isgroup(a::SU3{T}) where T <: AbstractFloat
end end
end end
Base.:+(a::SU3{T},b::SU3{T}) where {T} = SU3{T}(a.u11+b.u11,a.u12+b.u12,a.u13+b.u13,a.u21+b.u21,a.u22+b.u22,a.u23+b.u23)
\ No newline at end of file
...@@ -2,13 +2,13 @@ ...@@ -2,13 +2,13 @@
""" """
function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, maxiter::Int64, tol::Float64, y::NTuple{4,Int64}, c::Int64, s::Int64) function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace, ymws::YMworkspace, lp::SpaceParm, maxiter::Int64, tol::Float64, y::NTuple{4,Int64}, c::Int64, s::Int64)
Returns the fermionic progapator for a source at point `y` with color `c` and spin `s`. If the last three arguments are replaced by `time::Int64`, the source is replaced Returns the fermionic progapator for a source at point `y` with color `c` and spin `s`. If the last three arguments are replaced by `time::Int64`, the source is replaced
by a random source in spin and color at t = `time`. by a random source in spin and color at t = `time`.
""" """
function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, maxiter::Int64, tol::Float64, y::NTuple{4,Int64}, c::Int64, s::Int64) where {T} function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace, ymws::YMworkspace, lp::SpaceParm, maxiter::Int64, tol::Float64, y::NTuple{4,Int64}, c::Int64, s::Int64) where {T}
function krnlg5!(src) function krnlg5!(src)
b=Int64(CUDA.threadIdx().x) b=Int64(CUDA.threadIdx().x)
...@@ -25,14 +25,14 @@ function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, m ...@@ -25,14 +25,14 @@ function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, m
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src)
end end
g5Dw!(pro,U,src,dpar,lp) g5Dw!(pro,U,src,dpar,lp,ymws)
CG!(pro,U,DwdagDw!,dpar,lp,dws,maxiter,tol) CG!(pro,U,DwdagDw!,dpar,lp,dws,ymws,maxiter,tol)
return pro return pro
end end
function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, maxiter::Int64, tol::Float64, time::Int64) where {T} function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,ymws::YMworkspace, lp::SpaceParm, maxiter::Int64, tol::Float64, time::Int64) where {T}
function krnlg5!(src) function krnlg5!(src)
b=Int64(CUDA.threadIdx().x) b=Int64(CUDA.threadIdx().x)
...@@ -49,25 +49,25 @@ function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, m ...@@ -49,25 +49,25 @@ function propagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm, m
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src)
end end
g5Dw!(pro,U,src,dpar,lp) g5Dw!(pro,U,src,dpar,lp,ymws)
CUDA.@sync begin CUDA.@sync begin
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src)
end end
CG!(pro,U,DwdagDw!,dpar,lp,dws,maxiter,tol) CG!(pro,U,DwdagDw!,dpar,lp,dws,ymws,maxiter,tol)
return pro return pro
end end
""" """
function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm{4,6,1,D}, maxiter::Int64, tol::Float64, c::Int64, s::Int64) function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace, ymws::YMworkspace, lp::SpaceParm{4,6,1,D}, maxiter::Int64, tol::Float64, c::Int64, s::Int64)
Returns the propagator from the t=0 boundary to the bulk for the SF boundary conditions for a source with color 'c' and spin 's'. Returns the propagator from the t=0 boundary to the bulk for the SF boundary conditions for a source with color 'c' and spin 's'.
""" """
function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm{4,6,1,D}, maxiter::Int64, tol::Float64, c::Int64, s::Int64) where {T,D} function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace, ymws::YMworkspace, lp::SpaceParm{4,6,1,D}, maxiter::Int64, tol::Float64, c::Int64, s::Int64) where {T,D}
function krnlg5!(src) function krnlg5!(src)
b=Int64(CUDA.threadIdx().x) b=Int64(CUDA.threadIdx().x)
...@@ -99,9 +99,9 @@ function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm ...@@ -99,9 +99,9 @@ function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src)
end end
g5Dw!(pro,U,src,dpar,lp) g5Dw!(pro,U,src,dpar,lp,ymws)
CG!(pro,U,DwdagDw!,dpar,lp,dws,maxiter,tol) CG!(pro,U,DwdagDw!,dpar,lp,dws,ymws,maxiter,tol)
return pro return pro
end end
...@@ -4,7 +4,7 @@ using TimerOutputs ...@@ -4,7 +4,7 @@ using TimerOutputs
@timeit "fA_fP test" begin @timeit "fA_fP test" begin
function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm{4,6,1,D}, maxiter::Int64, tol::Float64, c::Int64, s::Int64) where {T,D} function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm{4,6,1,D},ymws, maxiter::Int64, tol::Float64, c::Int64, s::Int64) where {T,D}
function krnlg5!(src) function krnlg5!(src)
b=Int64(CUDA.threadIdx().x) b=Int64(CUDA.threadIdx().x)
...@@ -36,9 +36,9 @@ function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm ...@@ -36,9 +36,9 @@ function bndpropagator(U, dpar::DiracParam{T}, dws::DiracWorkspace,lp::SpaceParm
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(src)
end end
g5Dw!(pro,U,src,dpar,lp) g5Dw!(pro,U,src,dpar,lp,ymws)
CG!(pro,U,DwdagDw!,dpar,lp,dws,"ymws","gp",maxiter,tol) CG!(pro,U,DwdagDw!,dpar,lp,dws,ymws,maxiter,tol)
return pro return pro
end end
...@@ -52,6 +52,7 @@ exptheta = exp.(im.*theta./lp.iL); ...@@ -52,6 +52,7 @@ exptheta = exp.(im.*theta./lp.iL);
dpar = DiracParam{Float64}(SU3fund,m,0.0,exptheta,1.0); dpar = DiracParam{Float64}(SU3fund,m,0.0,exptheta,1.0);
dws = DiracWorkspace(SU3fund{Float64},Float64,lp); dws = DiracWorkspace(SU3fund{Float64},Float64,lp);
ymws = YMworkspace(SU3, Float64, lp)
U = fill!(vector_field(SU3{Float64},lp),one(SU3{Float64})); U = fill!(vector_field(SU3{Float64},lp),one(SU3{Float64}));
psi = scalar_field(Spinor{4,SU3fund{Float64}},lp); psi = scalar_field(Spinor{4,SU3fund{Float64}},lp);
...@@ -106,6 +107,7 @@ function fA_test(;theta = (0.5,0.7,1.0,0.0), m = 1.3, size = (8,8,8,16),prec = 1 ...@@ -106,6 +107,7 @@ function fA_test(;theta = (0.5,0.7,1.0,0.0), m = 1.3, size = (8,8,8,16),prec = 1
dpar = DiracParam{Float64}(SU3fund,m,0.0,exptheta,1.0); dpar = DiracParam{Float64}(SU3fund,m,0.0,exptheta,1.0);
dws = DiracWorkspace(SU3fund{Float64},Float64,lp); dws = DiracWorkspace(SU3fund{Float64},Float64,lp);
ymws = YMworkspace(SU3, Float64, lp)
U = fill!(vector_field(SU3{Float64},lp),one(SU3{Float64})); U = fill!(vector_field(SU3{Float64},lp),one(SU3{Float64}));
psi = scalar_field(Spinor{4,SU3fund{Float64}},lp); psi = scalar_field(Spinor{4,SU3fund{Float64}},lp);
...@@ -113,7 +115,7 @@ function fA_test(;theta = (0.5,0.7,1.0,0.0), m = 1.3, size = (8,8,8,16),prec = 1 ...@@ -113,7 +115,7 @@ function fA_test(;theta = (0.5,0.7,1.0,0.0), m = 1.3, size = (8,8,8,16),prec = 1
res = im*zeros(lp.iL[4]) res = im*zeros(lp.iL[4])
for s in 1:4 for c in 1:3 for s in 1:4 for c in 1:3
psi = bndpropagator(U,dpar,dws,lp,1000,prec,c,s); psi = bndpropagator(U,dpar,dws,lp,ymws,1000,prec,c,s);
for t in 1:lp.iL[4] for t in 1:lp.iL[4]
#for i in 1:lp.iL[1] for j in 1:lp.iL[2] for k in 1:lp.iL[3] #for i in 1:lp.iL[1] for j in 1:lp.iL[2] for k in 1:lp.iL[3]
......
...@@ -79,8 +79,8 @@ end ...@@ -79,8 +79,8 @@ end
CUDA.@sync begin CUDA.@sync begin
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(pwave) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(pwave)
end end
g5Dw!(prop,U,pwave,dpar,lp) g5Dw!(prop,U,pwave,dpar,lp,ymws)
CG!(prop,U,DwdagDw!,dpar,lp,dws,ymws,gp,10000,1.0e-14) CG!(prop,U,DwdagDw!,dpar,lp,dws,ymws,10000,1.0e-14)
end end
dif = sum(norm2.(prop - prop_th)) dif = sum(norm2.(prop - prop_th))
......
...@@ -47,11 +47,9 @@ ymws = YMworkspace(SU3, Float64, lp) ...@@ -47,11 +47,9 @@ ymws = YMworkspace(SU3, Float64, lp)
dpar = DiracParam{Float64}(SU3fund,2.3,0.0,(1.0,1.0,1.0,1.0),0.0) dpar = DiracParam{Float64}(SU3fund,2.3,0.0,(1.0,1.0,1.0,1.0),0.0)
dws = DiracWorkspace(SU3fund{Float64},Float64,lp); dws = DiracWorkspace(SU3fund{Float64},Float64,lp);
randomize!(ymws.mom, lp, ymws) randomize!(ymws.mom, lp, ymws)
U = exp.(ymws.mom) U = exp.(ymws.mom)
rpsi = scalar_field(Spinor{4,SU3fund{Float64}},lp) rpsi = scalar_field(Spinor{4,SU3fund{Float64}},lp)
pfrandomize!(rpsi,lp,dpar) pfrandomize!(rpsi,lp,dpar)
...@@ -69,10 +67,10 @@ end ...@@ -69,10 +67,10 @@ end
CUDA.@sync begin CUDA.@sync begin
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(rpsi) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(rpsi)
end end
g5Dw!(prop,U,rpsi,dpar,lp) g5Dw!(prop,U,rpsi,dpar,lp,ymws)
CG!(prop,U,DwdagDw!,dpar,lp,dws,ymws,gp,10000,1.0e-14) CG!(prop,U,DwdagDw!,dpar,lp,dws,ymws,10000,1.0e-14)
Dw!(dws.sp,U,prop,dpar,lp) Dw!(dws.sp,U,prop,dpar,lp,ymws)
CUDA.@sync begin CUDA.@sync begin
CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(rpsi) CUDA.@cuda threads=lp.bsz blocks=lp.rsz krnlg5!(rpsi)
......
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