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fix device error

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ton
2023-08-26 15:43:33 +07:00
parent eb4f22de11
commit d4bfe537b9
2 changed files with 209 additions and 209 deletions
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414
src/forward.jl
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@@ -612,238 +612,238 @@ function onForward( zit,
return nothing return nothing
end end
function lifForward(kfn_zit::Array{T}, # function lifForward(kfn_zit::Array{T},
zit::Array{T}, # zit::Array{T},
wRec::Array{T}, # wRec::Array{T},
vt0::Array{T}, # vt0::Array{T},
vt1::Array{T}, # vt1::Array{T},
vth::Array{T}, # vth::Array{T},
vRest::Array{T}, # vRest::Array{T},
zt1::Array{T}, # zt1::Array{T},
alpha::Array{T}, # alpha::Array{T},
phi::Array{T}, # phi::Array{T},
epsilonRec::Array{T}, # epsilonRec::Array{T},
refractoryCounter::Array{T}, # refractoryCounter::Array{T},
refractoryDuration::Array{T}, # refractoryDuration::Array{T},
gammaPd::Array{T}, # gammaPd::Array{T},
firingCounter::Array{T}, # firingCounter::Array{T},
arrayProjection4d::Array{T}, # arrayProjection4d::Array{T},
recSignal::Array{T}, # recSignal::Array{T},
decayed_vt0::Array{T}, # decayed_vt0::Array{T},
decayed_epsilonRec::Array{T}, # decayed_epsilonRec::Array{T},
vt1_diff_vth::Array{T}, # vt1_diff_vth::Array{T},
vt1_diff_vth_div_vth::Array{T}, # vt1_diff_vth_div_vth::Array{T},
gammaPd_div_vth::Array{T}, # gammaPd_div_vth::Array{T},
phiActivation::Array{T}, # phiActivation::Array{T},
) where T<:Number # ) where T<:Number
# project 3D kfn zit into 4D lif zit # # project 3D kfn zit into 4D lif zit
i1, i2, i3, i4 = size(alif_wRec) # i1, i2, i3, i4 = size(alif_wRec)
lif_zit .= reshape(kfn_zit, (i1, i2, 1, i4)) .* lif_arrayProjection4d # lif_zit .= reshape(kfn_zit, (i1, i2, 1, i4)) .* lif_arrayProjection4d
for j in 1:size(wRec, 4), i in 1:size(wRec, 3) # compute along neurons axis of every batch # for j in 1:size(wRec, 4), i in 1:size(wRec, 3) # compute along neurons axis of every batch
if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active # if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active
@. @views refractoryCounter[:,:,i,j] -= 1 # @. @views refractoryCounter[:,:,i,j] -= 1
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
@. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@. @views phi[:,:,i,j] = 0 # @. @views phi[:,:,i,j] = 0
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j]
else # refractory period is inactive # else # refractory period is inactive
@. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wRec[:,:,i,j] # @. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wRec[:,:,i,j]
@. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j])) # @view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j]))
if sum(@view(vt1[:,:,i,j])) > sum(@view(vth[:,:,i,j])) # if sum(@view(vt1[:,:,i,j])) > sum(@view(vth[:,:,i,j]))
@. @views zt1[:,:,i,j] = 1 # @. @views zt1[:,:,i,j] = 1
@. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j] # @. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j]
@. @views firingCounter[:,:,i,j] += 1 # @. @views firingCounter[:,:,i,j] += 1
@. @views vt1[:,:,i,j] = vRest[:,:,i,j] # @. @views vt1[:,:,i,j] = vRest[:,:,i,j]
else # else
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
end # end
# compute phi, there is a difference from alif formula # # compute phi, there is a difference from alif formula
@. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j] # @. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j]
@. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j] # @. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j]
@. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j] # @. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j]
@view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j]))) # @view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j])))
@. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j] # @. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j]
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j]
end # end
end # end
end # end
function alifForward(zit::Array{T}, # function alifForward(zit::Array{T},
wRec::Array{T}, # wRec::Array{T},
vt0::Array{T}, # vt0::Array{T},
vt1::Array{T}, # vt1::Array{T},
vth::Array{T}, # vth::Array{T},
vRest::Array{T}, # vRest::Array{T},
zt1::Array{T}, # zt1::Array{T},
alpha::Array{T}, # alpha::Array{T},
phi::Array{T}, # phi::Array{T},
epsilonRec::Array{T}, # epsilonRec::Array{T},
refractoryCounter::Array{T}, # refractoryCounter::Array{T},
refractoryDuration::Array{T}, # refractoryDuration::Array{T},
gammaPd::Array{T}, # gammaPd::Array{T},
firingCounter::Array{T}, # firingCounter::Array{T},
recSignal::Array{T}, # recSignal::Array{T},
decayed_vt0::Array{T}, # decayed_vt0::Array{T},
decayed_epsilonRec::Array{T}, # decayed_epsilonRec::Array{T},
vt1_diff_vth::Array{T}, # vt1_diff_vth::Array{T},
vt1_diff_vth_div_vth::Array{T}, # vt1_diff_vth_div_vth::Array{T},
gammaPd_div_vth::Array{T}, # gammaPd_div_vth::Array{T},
phiActivation::Array{T}, # phiActivation::Array{T},
epsilonRecA::Array{T}, # epsilonRecA::Array{T},
avth::Array{T}, # avth::Array{T},
a::Array{T}, # a::Array{T},
beta::Array{T}, # beta::Array{T},
rho::Array{T}, # rho::Array{T},
phi_x_epsilonRec::Array{T}, # phi_x_epsilonRec::Array{T},
phi_x_beta::Array{T}, # phi_x_beta::Array{T},
rho_diff_phi_x_beta::Array{T}, # rho_diff_phi_x_beta::Array{T},
rho_div_phi_x_beta_x_epsilonRecA::Array{T}, # rho_div_phi_x_beta_x_epsilonRecA::Array{T},
beta_x_a::Array{T}, # beta_x_a::Array{T},
) where T<:Number # ) where T<:Number
for j in 1:size(wRec, 4), i in 1:size(wRec, 3) # compute along neurons axis of every batch # for j in 1:size(wRec, 4), i in 1:size(wRec, 3) # compute along neurons axis of every batch
if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active # if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active
@. @views refractoryCounter[:,:,i,j] -= 1 # @. @views refractoryCounter[:,:,i,j] -= 1
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
@. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@. @views phi[:,:,i,j] = 0 # @. @views phi[:,:,i,j] = 0
@. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j] # @. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j]
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j]
# compute epsilonRecA # # compute epsilonRecA
@. @views phi_x_epsilonRec[:,:,i,j] = phi[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views phi_x_epsilonRec[:,:,i,j] = phi[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views phi_x_beta[:,:,i,j] = phi[:,:,i,j] * beta[:,:,i,j] # @. @views phi_x_beta[:,:,i,j] = phi[:,:,i,j] * beta[:,:,i,j]
@. @views rho_diff_phi_x_beta[:,:,i,j] = rho[:,:,i,j] - phi_x_beta[:,:,i,j] # @. @views rho_diff_phi_x_beta[:,:,i,j] = rho[:,:,i,j] - phi_x_beta[:,:,i,j]
@. @views rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] = rho_diff_phi_x_beta[:,:,i,j] * epsilonRecA[:,:,i,j] # @. @views rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] = rho_diff_phi_x_beta[:,:,i,j] * epsilonRecA[:,:,i,j]
@. @views epsilonRecA[:,:,i,j] = phi_x_epsilonRec[:,:,i,j] + rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] # @. @views epsilonRecA[:,:,i,j] = phi_x_epsilonRec[:,:,i,j] + rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j]
# compute avth # # compute avth
@. @views beta_x_a[:,:,i,j] = beta[:,:,i,j] * a[:,:,i,j] # @. @views beta_x_a[:,:,i,j] = beta[:,:,i,j] * a[:,:,i,j]
@. @views avth[:,:,i,j] = vth[:,:,i,j] + beta_x_a[:,:,i,j] # @. @views avth[:,:,i,j] = vth[:,:,i,j] + beta_x_a[:,:,i,j]
else # refractory period is inactive # else # refractory period is inactive
@. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wRec[:,:,i,j] # @. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wRec[:,:,i,j]
@. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j])) # @view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j]))
# compute avth # # compute avth
@. @views beta_x_a[:,:,i,j] = beta[:,:,i,j] * a[:,:,i,j] # @. @views beta_x_a[:,:,i,j] = beta[:,:,i,j] * a[:,:,i,j]
@. @views avth[:,:,i,j] = vth[:,:,i,j] + beta_x_a[:,:,i,j] # @. @views avth[:,:,i,j] = vth[:,:,i,j] + beta_x_a[:,:,i,j]
if sum(@view(vt1[:,:,i,j])) > sum(@view(avth[:,:,i,j])) # if sum(@view(vt1[:,:,i,j])) > sum(@view(avth[:,:,i,j]))
@. @views zt1[:,:,i,j] = 1 # @. @views zt1[:,:,i,j] = 1
@. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j] # @. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j]
@. @views firingCounter[:,:,i,j] += 1 # @. @views firingCounter[:,:,i,j] += 1
@. @views vt1[:,:,i,j] = vRest[:,:,i,j] # @. @views vt1[:,:,i,j] = vRest[:,:,i,j]
@. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j] # @. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j]
@. @views a[:,:,i,j] = a[:,:,i,j] += 1 # @. @views a[:,:,i,j] = a[:,:,i,j] += 1
else # else
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
@. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j] # @. @views a[:,:,i,j] = rho[:,:,i,j] * a[:,:,i,j]
end # end
# compute phi, there is a difference from alif formula # # compute phi, there is a difference from alif formula
@. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j] # @. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j]
@. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j] # @. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j]
@. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j] # @. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j]
@view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j]))) # @view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j])))
@. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j] # @. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j]
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j]
# compute epsilonRecA # # compute epsilonRecA
@. @views phi_x_epsilonRec[:,:,i,j] = phi[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views phi_x_epsilonRec[:,:,i,j] = phi[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views phi_x_beta[:,:,i,j] = phi[:,:,i,j] * beta[:,:,i,j] # @. @views phi_x_beta[:,:,i,j] = phi[:,:,i,j] * beta[:,:,i,j]
@. @views rho_diff_phi_x_beta[:,:,i,j] = rho[:,:,i,j] - phi_x_beta[:,:,i,j] # @. @views rho_diff_phi_x_beta[:,:,i,j] = rho[:,:,i,j] - phi_x_beta[:,:,i,j]
@. @views rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] = rho_diff_phi_x_beta[:,:,i,j] * epsilonRecA[:,:,i,j] # @. @views rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] = rho_diff_phi_x_beta[:,:,i,j] * epsilonRecA[:,:,i,j]
@. @views epsilonRecA[:,:,i,j] = phi_x_epsilonRec[:,:,i,j] + rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j] # @. @views epsilonRecA[:,:,i,j] = phi_x_epsilonRec[:,:,i,j] + rho_div_phi_x_beta_x_epsilonRecA[:,:,i,j]
end # end
end # end
end # end
function onForward(kfn_zit::Array{T}, # function onForward(kfn_zit::Array{T},
zit::Array{T}, # zit::Array{T},
wOut::Array{T}, # wOut::Array{T},
vt0::Array{T}, # vt0::Array{T},
vt1::Array{T}, # vt1::Array{T},
vth::Array{T}, # vth::Array{T},
vRest::Array{T}, # vRest::Array{T},
zt1::Array{T}, # zt1::Array{T},
alpha::Array{T}, # alpha::Array{T},
phi::Array{T}, # phi::Array{T},
epsilonRec::Array{T}, # epsilonRec::Array{T},
refractoryCounter::Array{T}, # refractoryCounter::Array{T},
refractoryDuration::Array{T}, # refractoryDuration::Array{T},
gammaPd::Array{T}, # gammaPd::Array{T},
firingCounter::Array{T}, # firingCounter::Array{T},
arrayProjection4d::Array{T}, # arrayProjection4d::Array{T},
recSignal::Array{T}, # recSignal::Array{T},
decayed_vt0::Array{T}, # decayed_vt0::Array{T},
decayed_epsilonRec::Array{T}, # decayed_epsilonRec::Array{T},
vt1_diff_vth::Array{T}, # vt1_diff_vth::Array{T},
vt1_diff_vth_div_vth::Array{T}, # vt1_diff_vth_div_vth::Array{T},
gammaPd_div_vth::Array{T}, # gammaPd_div_vth::Array{T},
phiActivation::Array{T}, # phiActivation::Array{T},
) where T<:Number # ) where T<:Number
# project 3D kfn zit into 4D lif zit # # project 3D kfn zit into 4D lif zit
zit .= reshape(kfn_zit, # zit .= reshape(kfn_zit,
(size(wOut, 1), size(wOut, 2), 1, size(wOut, 4))) .* arrayProjection4d # (size(wOut, 1), size(wOut, 2), 1, size(wOut, 4))) .* arrayProjection4d
for j in 1:size(wOut, 4), i in 1:size(wOut, 3) # compute along neurons axis of every batch # for j in 1:size(wOut, 4), i in 1:size(wOut, 3) # compute along neurons axis of every batch
if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active # if sum(@view(refractoryCounter[:,:,i,j])) > 0 # refractory period is active
@. @views refractoryCounter[:,:,i,j] -= 1 # @. @views refractoryCounter[:,:,i,j] -= 1
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
@. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views vt1[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@. @views phi[:,:,i,j] = 0 # @. @views phi[:,:,i,j] = 0
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j]
else # refractory period is inactive # else # refractory period is inactive
@. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wOut[:,:,i,j] # @. @views recSignal[:,:,i,j] = zit[:,:,i,j] * wOut[:,:,i,j]
@. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j] # @. @views decayed_vt0[:,:,i,j] = alpha[:,:,i,j] * vt0[:,:,i,j]
@view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j])) # @view(vt1[:,:,i,j]) .= @view(decayed_vt0[:,:,i,j]) .+ sum(@view(recSignal[:,:,i,j]))
if sum(@view(vt1[:,:,i,j])) > sum(@view(vth[:,:,i,j])) # if sum(@view(vt1[:,:,i,j])) > sum(@view(vth[:,:,i,j]))
@. @views zt1[:,:,i,j] = 1 # @. @views zt1[:,:,i,j] = 1
@. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j] # @. @views refractoryCounter[:,:,i,j] = refractoryDuration[:,:,i,j]
@. @views firingCounter[:,:,i,j] += 1 # @. @views firingCounter[:,:,i,j] += 1
@. @views vt1[:,:,i,j] = vRest[:,:,i,j] # @. @views vt1[:,:,i,j] = vRest[:,:,i,j]
else # else
@. @views zt1[:,:,i,j] = 0 # @. @views zt1[:,:,i,j] = 0
end # end
# compute phi, there is a difference from alif formula # # compute phi, there is a difference from alif formula
@. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j] # @. @views gammaPd_div_vth[:,:,i,j] = gammaPd[:,:,i,j] / vth[:,:,i,j]
@. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j] # @. @views vt1_diff_vth[:,:,i,j] = vt1[:,:,i,j] - vth[:,:,i,j]
@. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j] # @. @views vt1_diff_vth_div_vth[:,:,i,j] = vt1_diff_vth[:,:,i,j] / vth[:,:,i,j]
@view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j]))) # @view(phiActivation[:,:,i,j]) .= max(0, 1 - sum(@view(vt1_diff_vth_div_vth[:,:,i,j])))
@. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j] # @. @views phi[:,:,i,j] = gammaPd_div_vth[:,:,i,j] * phiActivation[:,:,i,j]
# compute epsilonRec # # compute epsilonRec
@. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j] # @. @views decayed_epsilonRec[:,:,i,j] = alpha[:,:,i,j] * epsilonRec[:,:,i,j]
@. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j] # @. @views epsilonRec[:,:,i,j] = decayed_epsilonRec[:,:,i,j] + zit[:,:,i,j]
end # end
end # end
end # end

4
src/learn.jl
View File

@@ -275,7 +275,7 @@ function learn!(kfn::kfn_1, device=cpu)
kfn.lif_synapticConnectionNumber, kfn.lif_synapticConnectionNumber,
kfn.zitCumulative, kfn.zitCumulative,
device) device)
println("kfn.lif_wRec $(typeof(kfn.lif_wRec))")
# alif learn # alif learn
kfn.alif_wRec, kfn.alif_neuronInactivityCounter, kfn.alif_synapticInactivityCounter = kfn.alif_wRec, kfn.alif_neuronInactivityCounter, kfn.alif_synapticInactivityCounter =
alifLearn(kfn.alif_wRec, alifLearn(kfn.alif_wRec,
@@ -286,7 +286,7 @@ function learn!(kfn::kfn_1, device=cpu)
kfn.alif_synapticConnectionNumber, kfn.alif_synapticConnectionNumber,
kfn.zitCumulative, kfn.zitCumulative,
device) device)
error("DEBUG -> kfn learn! $(Dates.now())")
# on learn # on learn
onLearn!(kfn.on_wOut, onLearn!(kfn.on_wOut,
kfn.on_wOutChange, kfn.on_wOutChange,