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Fermionic OpSum to TTN constructor #122

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cadd5a0
Initial commit, untested addition of compatibility with fermionic sit…
b-kloss Jan 12, 2024
58defab
Remove debugging output.
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b53f59d
Add missing end.
b-kloss Jan 12, 2024
b5b37d4
Autofermion sign working for fermions, but not for electrons yet.
b-kloss Jan 12, 2024
614669e
Fix flux for fermions by daggering Op. Still broken when using QNs an…
b-kloss Jan 12, 2024
9cd226b
Add hubbard and tight-binding Hamiltonian to models.
b-kloss Jan 12, 2024
e47fa91
Code working for fermions and electrons. Prior failure due to bug in …
b-kloss Jan 12, 2024
769f51a
Move most of complicated qn/arrow-dir logic to the beginning of ttn_svd.
b-kloss Jan 12, 2024
d1d731f
Cleanup. Leaving debug asserts in for the time being.
b-kloss Jan 12, 2024
82d05f2
Restore state with regards to auto-fermion after test.
b-kloss Jan 12, 2024
f54d59b
Merge branch 'main' into AutoTTNO-fix-fermion
b-kloss Jan 12, 2024
b933301
Restore usual arrow directions.
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beeebfc
Fix tests. Lower threshold in tests and workaround an issue when comp…
b-kloss Jan 12, 2024
d17c7ae
Add DMRG test for QNs + fermions on tree.
b-kloss Jan 14, 2024
68eb46d
Fix typo in hubbard model.
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a03b4a7
Add ToDo annotation for randomTTN
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4135a4f
Format.
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c96bb49
Remove commented out models.
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c03b359
Implement suggested improvements to model, including general nth-neig…
b-kloss Jan 21, 2024
0d96aff
Adapt test_dmrg and test_dmrg_x, remove usage of Sweeps.
b-kloss Jan 21, 2024
b5738ad
Merge branch 'main' into AutoTTNO-fix-fermion
b-kloss Jan 21, 2024
93ce636
Change use of nsite to nsites.
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c1d0909
Refactor fermionic test and add comparison with single-particle energ…
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6822fe5
Add comparison with JW string ITensors.MPO for fermions to DMRG.
b-kloss Jan 21, 2024
4b58afd
ITensorGaussianMPS
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f6a43e4
Clean up test_opsum_to_ttn.jl
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Format.
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Format models.
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Apply suggestions from code review
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Minor edits on models and import LinearAlgebra.eigvals in test.
Jan 22, 2024
69138fa
Switch internal index direction to In regardless of whether autofermi…
Jan 22, 2024
ee0fa95
Have non-fermionic QN test in DMRG run with autofermion-sign enabled.
Jan 22, 2024
5993c58
Remove output from src/models.jl
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e0ea0f4
Improve ITensor to matrix conversion.
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Format.
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Simplify ITensor Matrix conversion.
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Simplify expression for index direction and have a shallow copy of si…
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Add comment to remove autofermion enabling/disabling part of test onc…
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Edit comment for copy os sites in ttn_svd.
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74 changes: 71 additions & 3 deletions src/models.jl
Original file line number Diff line number Diff line change
@@ -1,6 +1,74 @@
_maybe_fill(x, n) = x
_maybe_fill(x::Number, n) = fill(x, n)

function tight_binding(g::AbstractGraph; t=1.0, tp=0.0, h::Union{<:Real,Vector{<:Real}}=0)
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h = _maybe_fill(h, nv(g))
ℋ = OpSum()
if !iszero(t)
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for e in edges(g)
ℋ += -t, "Cdag", maybe_only(src(e)), "C", maybe_only(dst(e))
ℋ += -t, "Cdag", maybe_only(dst(e)), "C", maybe_only(src(e))
end
end
if !iszero(t')
# TODO, more clever way of looping over next to nearest neighbors?
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for (i, v) in enumerate(vertices(g))
nnn = [neighbors(g, n) for n in neighbors(g, v)]
nnn = setdiff(Base.Iterators.flatten(nnn), neighbors(g, v))
nnn = setdiff(nnn, vertices(g)[1:i])
for nn in nnn
ℋ += -tp, "Cdag", maybe_only(v), "C", maybe_only(nn)
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ℋ += -tp, "Cdag", maybe_only(nn), "C", maybe_only(v)
end
end
end
for (i, v) in enumerate(vertices(g))
if !iszero(h[i])
ℋ -= h[i], "N", maybe_only(v)
end
end
return ℋ
end

"""
t-t' Hubbard Model
"""
function hubbard(g::AbstractGraph; U=0.0, t=1.0, tp=0.0, h::Union{<:Real,Vector{<:Real}}=0)
h = _maybe_fill(h, nv(g))
ℋ = OpSum()
if !iszero(t)
for e in edges(g)
ℋ += -t, "Cdagup", maybe_only(src(e)), "Cup", maybe_only(dst(e))
ℋ += -t, "Cdagup", maybe_only(dst(e)), "Cup", maybe_only(src(e))
ℋ += -t, "Cdagdn", maybe_only(src(e)), "Cdn", maybe_only(dst(e))
ℋ += -t, "Cdagdn", maybe_only(dst(e)), "Cdn", maybe_only(src(e))
end
end
if !iszero(tp)
# TODO, more clever way of looping over next to nearest neighbors?
for (i, v) in enumerate(vertices(g))
nnn = [neighbors(g, n) for n in neighbors(g, v)]
nnn = setdiff(Base.Iterators.flatten(nnn), neighbors(g, v))
nnn = setdiff(nnn, vertices(g)[1:i])
for nn in nnn
ℋ += -tp, "Cdagup", maybe_only(v), "Cup", maybe_only(nn)
ℋ += -tp, "Cdagup", maybe_only(nn), "Cup", maybe_only(v)
ℋ += -tp, "Cdagdn", maybe_only(v), "Cdn", maybe_only(nn)
ℋ += -tp, "Cdagdn", maybe_only(nn), "Cdn", maybe_only(v)
end
end
end
for (i, v) in enumerate(vertices(g))
if !iszero(h[i])
ℋ -= h[i], "Sz", maybe_only(v)
end
if !iszero(U)
ℋ += U, "Nupdn", maybe_only(v)
end
end
return ℋ
end

"""
Random field J1-J2 Heisenberg model on a general graph
"""
Expand Down Expand Up @@ -43,7 +111,7 @@ function ising(g::AbstractGraph; J1=-1.0, J2=0.0, h::Union{<:Real,Vector{<:Real}
ℋ = OpSum()
if !iszero(J1)
for e in edges(g)
ℋ += J1, "Z", maybe_only(src(e)), "Z", maybe_only(dst(e))
ℋ += J1, "Sz", maybe_only(src(e)), "Sz", maybe_only(dst(e))
end
end
if !iszero(J2)
Expand All @@ -53,13 +121,13 @@ function ising(g::AbstractGraph; J1=-1.0, J2=0.0, h::Union{<:Real,Vector{<:Real}
nnn = setdiff(Base.Iterators.flatten(nnn), neighbors(g, v))
nnn = setdiff(nnn, vertices(g)[1:i])
for nn in nnn
ℋ += J2, "Z", maybe_only(v), "Z", maybe_only(nn)
ℋ += J2, "Sz", maybe_only(v), "Sz", maybe_only(nn)
end
end
end
for (i, v) in enumerate(vertices(g))
if !iszero(h[i])
ℋ += h[i], "X", maybe_only(v)
ℋ += h[i], "Sx", maybe_only(v)
end
end
return ℋ
Expand Down
85 changes: 37 additions & 48 deletions src/treetensornetworks/opsum_to_ttn.jl
Original file line number Diff line number Diff line change
Expand Up @@ -59,8 +59,10 @@ function ttn_svd(
vertextype_sites = vertextype(sites)
thishasqns = any(v -> hasqns(sites[v]), vertices(sites))

linkdir_ref = ITensors.using_auto_fermion() ? ITensors.In : ITensors.Out
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# traverse tree outwards from root vertex
vs = reverse(post_order_dfs_vertices(sites, root_vertex)) # store vertices in fixed ordering relative to root
# ToDo: Add check in ttn_svd that the ordering matches that of find_index_in_tree, which is used in sorteachterm #fermion-sign!
es = reverse(reverse.(post_order_dfs_edges(sites, root_vertex))) # store edges in fixed ordering relative to root
# some things to keep track of
degrees = Dict(v => degree(sites, v) for v in vs) # rank of every TTN tensor in network
Expand All @@ -81,7 +83,7 @@ function ttn_svd(
op_cache[ITensors.which_op(st) => ITensors.site(st)] = op_tensor
end
if !isnothing(flux(op_tensor))
q -= flux(op_tensor)
q += flux(op_tensor)
end
end
return q
Expand All @@ -93,13 +95,13 @@ function ttn_svd(
for v in vs
is_internal[v] = isempty(sites[v])
if isempty(sites[v])
push!(sites[v], Index(Hflux => 1)) ###FIXME: using Hflux may be a problem with AutoFermion, the dummy index has to be bosonic (but the QN of H should be too?) ...
push!(sites[v], Index(Hflux => 1))
end
end
inbond_coefs = Dict(
e => Dict{QN,Vector{ITensors.MatElem{coefficient_type}}}() for e in es
) # bond coefficients for incoming edge channels
site_coef_done = Prod{Op}[] # list of terms for which the coefficient has been added to a site factor
site_coef_done = Prod{Op}[] # list of terms for which the coefficient has been added to a site factor
# temporary symbolic representation of TTN Hamiltonian
tempTTN = Dict(v => QNArrElem{Scaled{coefficient_type,Prod{Op}},degrees[v]}[] for v in vs)

Expand Down Expand Up @@ -139,7 +141,7 @@ function ttn_svd(

# compute QNs
incoming_qn = calc_qn(incoming)
not_incoming_qn = calc_qn(not_incoming) ###does this work?
not_incoming_qn = calc_qn(not_incoming)
outgoing_qns = Dict(e => calc_qn(outgoing[e]) for e in edges_out)
site_qn = calc_qn(onsite)

Expand All @@ -151,9 +153,10 @@ function ttn_svd(
bond_col = -1
if !isempty(incoming)
# get the correct map from edge=>QN to term and channel
coutmap = get!(outmaps, edge_in => -not_incoming_qn, Dict{Vector{Op},Int}())
cinmap = get!(inmaps, edge_in => incoming_qn, Dict{Vector{Op},Int}())
# this checks if term exists on edge=>QN ( otherwise insert it) and returns it's index
coutmap = get!(outmaps, edge_in => not_incoming_qn, Dict{Vector{Op},Int}())
cinmap = get!(inmaps, edge_in => -incoming_qn, Dict{Vector{Op},Int}())

bond_row = ITensors.posInLink!(cinmap, incoming)
bond_col = ITensors.posInLink!(coutmap, not_incoming) # get incoming channel
bond_coef = convert(coefficient_type, ITensors.coefficient(term))
Expand All @@ -162,14 +165,14 @@ function ttn_svd(
)
push!(q_inbond_coefs, ITensors.MatElem(bond_row, bond_col, bond_coef))
T_inds[dim_in] = bond_col
T_qns[dim_in] = incoming_qn
T_qns[dim_in] = -incoming_qn
end
for dout in dims_out
coutmap = get!(
outmaps, edges[dout] => -outgoing_qns[edges[dout]], Dict{Vector{Op},Int}()
outmaps, edges[dout] => outgoing_qns[edges[dout]], Dict{Vector{Op},Int}()
)
T_inds[dout] = ITensors.posInLink!(coutmap, outgoing[edges[dout]]) # add outgoing channel
T_qns[dout] = -outgoing_qns[edges[dout]] # minus sign to account for outgoing arrow direction
T_qns[dout] = outgoing_qns[edges[dout]]
end
# if term starts at this site, add its coefficient as a site factor
site_coef = one(coefficient_type)
Expand All @@ -192,6 +195,7 @@ function ttn_svd(

push!(tempTTN[v], el)
end

ITensors.remove_dups!(tempTTN[v])
# manual truncation: isometry on incoming edge
if !isnothing(dim_in) && !isempty(inbond_coefs[edges[dim_in]])
Expand All @@ -210,20 +214,15 @@ function ttn_svd(
# compress this tempTTN representation into dense form

link_space = Dict{edgetype_sites,Index}()
linkdir = ITensors.using_auto_fermion() ? ITensors.In : ITensors.Out ###FIXME: ??
for e in es
qi = Vector{Pair{QN,Int}}()
push!(qi, QN() => 1)
for (q, Vq) in Vs[e]
cols = size(Vq, 2)
if ITensors.using_auto_fermion() # <fermions>
push!(qi, (-q) => cols)
else
push!(qi, q => cols)
end
push!(qi, q => cols)
end
push!(qi, Hflux => 1)
link_space[e] = Index(qi...; tags=edge_tag(e), dir=linkdir)
link_space[e] = Index(qi...; tags=edge_tag(e), dir=linkdir_ref)
end

H = TTN(sites0) # initialize TTN without the dummy indices added
Expand All @@ -240,12 +239,9 @@ function ttn_svd(
edges = filter(e -> dst(e) == v || src(e) == v, es)
dim_in = findfirst(e -> dst(e) == v, edges)
dims_out = findall(e -> src(e) == v, edges)

# slice isometries at this vertex
Vv = [Vs[e] for e in edges]

linkinds = [link_space[e] for e in edges]
linkdims = dim.(linkinds)

# construct blocks
blocks = Dict{Tuple{Block{degrees[v]},Vector{Op}},Array{coefficient_type,degrees[v]}}()
Expand Down Expand Up @@ -274,30 +270,22 @@ function ttn_svd(
for d in normal_dims
block_helper_inds[d] = qnblock(linkinds[d], T_qns[d])
end

@assert all(≠(-1), block_helper_inds)# check that all block indices are set
# make Block
theblock = Block(Tuple(block_helper_inds))

# T_qns takes into account incoming/outgoing arrow direction, while Vs are stored for incoming arrow
# flip sign of QN for outgoing arrows, to match incoming arrow definition of Vs
iT_qns = deepcopy(T_qns)
for d in dims_out
iT_qns[d] = -iT_qns[d]
end

# make and fill Block
theblock = Block(Tuple(block_helper_inds))
if isempty(normal_dims)
M = get!(blocks, (theblock, terms(t)), zero_arr())
@assert isone(length(M))
M[] += ct
else
M = get!(blocks, (theblock, terms(t)), zero_arr())
dim_ranges = Tuple(size(Vv[d][iT_qns[d]], 2) for d in normal_dims)
for c in CartesianIndices(dim_ranges)
dim_ranges = Tuple(size(Vv[d][T_qns[d]], 2) for d in normal_dims)
for c in CartesianIndices(dim_ranges) # applies isometries in a element-wise manner
z = ct
temp_inds = copy(T_inds)
for (i, d) in enumerate(normal_dims)
V_factor = Vv[d][iT_qns[d]][T_inds[d], c[i]]
V_factor = Vv[d][T_qns[d]][T_inds[d], c[i]]
z *= (d == dim_in ? conj(V_factor) : V_factor) # conjugate incoming isometry factor
temp_inds[d] = c[i]
end
Expand All @@ -308,32 +296,28 @@ function ttn_svd(

H[v] = ITensor()

# make the final arrow directions
_linkinds = copy(linkinds)
if !isnothing(dim_in)
_linkinds[dim_in] = dag(_linkinds[dim_in])
end

for ((b, q_op), m) in blocks
Op = computeSiteProd(sites, Prod(q_op))
if hasqns(Op) ###FIXME: this may not be safe, we may want to check for the equivalent (zero tensor?) case in the dense case as well
if hasqns(Op) # FIXME: this may not be safe, we may want to check for the equivalent (zero tensor?) case in the dense case as well
iszero(nnzblocks(Op)) && continue
end
sq = flux(Op)
if !isnothing(sq)
rq = (b[1] == 1 ? Hflux : first(space(linkinds[1])[b[1]])) # get row (dim_in) QN
cq = rq - sq # get column (out_dims) QN
if ITensors.using_auto_fermion()
@assert false
###assuming we want index ordering dim_in, phys..., dims_out...
###but are assembling the tensor by tensor product (dim_in,dims_out...) x (phys...)
###we need to undo the autofermion logic.
###this requires the perm and the quantum numbers
###perm is 1,3,2 (switching phys and dims_out dimensions)
###quantum numbers need to be retrieved from block and linkinds
###basically first(space(linkinds[i])[j]) for (i,j) in block
###this logic requires dim_in to be 1 always, i don't think this is guaranteed
###however, maybe it is required when using autofermion?
###so we would have to figure out a perm to bring it into that format
##compute perm factor to bring into this format, combine with perm factor that results from MPS-like logic
#perm=(1,3,2)
# we need to account for the direct product below ordering the physical indices as the last indices
# although they are in between incoming and outgoing indices in the canonical site-ordering
perm = (1, 3, 2)
if ITensors.compute_permfactor(perm, rq, sq, cq) == -1
Op .*= -1
end
end
end
T = ITensors.BlockSparseTensor(coefficient_type, [b], _linkinds)
Expand All @@ -342,9 +326,13 @@ function ttn_svd(
if !thishasqns
iT = removeqns(iT)
end

if is_internal[v]
H[v] += iT
else
if hasqns(iT)
@assert flux(iT * Op) == Hflux
end
H[v] += (iT * Op)
end
end
Expand Down Expand Up @@ -411,7 +399,8 @@ function computeSiteProd(sites::IndsNetwork{V,<:Index}, ops::Prod{Op})::ITensor
return T
end

###CHECK/ToDo: Understand the fermion logic on trees...
# This is almost an exact copy of ITensors/src/opsum_to_mpo_generic:sorteachterm except for the site ordering being
# given via find_index_in_tree
# changed `isless_site` to use tree vertex ordering relative to root
function sorteachterm(os::OpSum, sites::IndsNetwork{V,<:Index}, root_vertex::V) where {V}
os = copy(os)
Expand Down Expand Up @@ -458,7 +447,7 @@ function sorteachterm(os::OpSum, sites::IndsNetwork{V,<:Index}, root_vertex::V)
prevsite = currsite

if fermionic
error("No verified fermion support for automatic TTN constructor!") # no verified support, just throw error
#error("No verified fermion support for automatic TTN constructor!") # no verified support, just throw error
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parity = -parity
else
# Ignore bosonic operators in perm
Expand Down
1 change: 1 addition & 0 deletions src/treetensornetworks/ttn.jl
Original file line number Diff line number Diff line change
Expand Up @@ -65,6 +65,7 @@ end

# TODO: Implement `random_circuit_ttn` for non-trivial
# bond dimensions and correlations.
# TODO: Implement random_ttn for QN-Index
function random_ttn(args...; kwargs...)
T = TTN(args...; kwargs...)
randn!.(vertex_data(T))
Expand Down
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