`curl -sI --proto =http,https,ftp,ftps -H 'accept-encoding: gzip, deflate, br' --user-agent 'Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/127.0.0.0 Safari/537.36' https://linkinghub.elsevier.com/retrieve/pii/S0003491602000180 --max-time 10 -o /dev/null --write-out '%{http_code} %{url_effective} %{redirect_url}'` failed: exception = failed process: Process(`curl -sI --proto =http,https,ftp,ftps -H 'accept-encoding: gzip, deflate, br' --user-agent 'Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/127.0.0.0 Safari/537.36' https://linkinghub.elsevier.com/retrieve/pii/S0003491602000180 --max-time 10 -o /dev/null --write-out '%{http_code} %{url_effective} %{redirect_url}'`, ProcessExited(28)) [28]

Process completed with exit code 1.

63 docstrings not included in the manual: QuantumInterface.Basis QuantumInterface.identityoperator :: Union{Tuple{S}, Tuple{T}, Tuple{Type{T}, Type{S}, QuantumInterface.Basis, QuantumInterface.Basis}} where {T<:QuantumInterface.AbstractOperator, S} QuantumInterface.check_samebases :: Tuple{Any, Any} QuantumInterface.samebases :: Tuple{QuantumInterface.Basis, QuantumInterface.Basis} QuantumInterface.directsum :: Tuple{QuantumInterface.Basis, QuantumInterface.Basis} QuantumClifford.ECC.batchdecode :: Tuple{QuantumClifford.ECC.AbstractSyndromeDecoder, Any} QuantumClifford.ECC.physical_ECC_circuit QuantumInterface.embed :: Union{Tuple{T}, Tuple{QuantumInterface.CompositeBasis, QuantumInterface.CompositeBasis, Dict{<:Vector{<:Integer}, T}}} where T<:QuantumInterface.AbstractOperator QuantumInterface.embed :: Union{Tuple{T}, Tuple{QuantumInterface.CompositeBasis, QuantumInterface.CompositeBasis, Any, Vector{T}}} where T<:QuantumInterface.AbstractOperator QuantumInterface.basis QuantumClifford.ECC.logx_ops :: Tuple{Any} QuantumClifford.ECC.ReedMuller QuantumClifford.ECC.logz_ops :: Tuple{Any} QuantumInterface.reduced :: Tuple{QuantumInterface.CompositeBasis, Any} QuantumInterface.permutesystems :: Tuple{QuantumInterface.CompositeBasis, Any} LinearAlgebra.norm :: Tuple{QuantumInterface.StateVector} QuantumInterface.AbstractOperator QuantumInterface.IncompatibleBases Base.length :: Tuple{QuantumInterface.Basis} QuantumInterface.identitysuperoperator QuantumClifford.ECC.generator QuantumInterface.check_embed_indices :: Tuple{Any} QuantumClifford.ECC.AbstractSyndromeDecoder QuantumInterface.check_multiplicable :: Tuple{Any, Any} Base.exp :: Tuple{QuantumInterface.AbstractOperator} QuantumClifford.ECC.parity_matrix :: Tuple{QuantumClifford.ECC.AbstractECC} QuantumClifford.ECC.generator_polynomial QuantumClifford.ECC.generator_polynomial :: Tuple{QuantumClifford.ECC.BCH} LinearAlgebra.normalize :: Tuple{QuantumInterface.StateVector} LinearAlgebra.normalize :: Tuple{QuantumInterface.AbstractOperator} QuantumClifford.ECC.naive_ancillary_paulimeasurement :: Union{Tuple{PauliOperator}, Tuple{PauliOperator, Any}, Tuple{PauliOperator, Any, Any}} QuantumInterface.equal_shape :: Tuple{Any, Any} QuantumInterface.SumBasis QuantumInterface.GenericBasis QuantumInterface.equal_bases :: Tuple{Any, Any} QuantumInterface.PauliBasis QuantumInterface.FockBasis QuantumInterface.complement :: Tuple{Any, Any} QuantumInterface.ptrace :: Tuple{QuantumInterface.CompositeBasis, Any} QuantumInterface.check_sortedindices :: Tuple{Any, Any} QuantumClifford.ECC.RecursiveReedMuller QuantumInterface.multiplicable :: Tuple{QuantumInterface.Basis, QuantumInterface.Basis} SparseArrays.sparse :: Tuple{QuantumInterface.AbstractOperator} QuantumInterface.AbstractSuperOperator LinearAlgebra.ishermitian :: Tuple{QuantumInterface.AbstractOperator} QuantumInterface.NLevelBasis QuantumInterface.@samebases :: Tuple{Any} QuantumClifford.ECC.decode LinearAlgebra.tr :: Tuple{QuantumInterface.AbstractOperator} QuantumClifford.ECC.add_two_qubit_gate_noise :: Tuple{AbstractTwoQubitOperator, Any} QuantumInterface.remove :: Tuple{Any, Any} QuantumInterface.CompositeBasis QuantumClifford.ECC.shor_ancillary_paulimeasurement :: Union{Tuple{PauliOperator}, Tuple{PauliOperator, Any}, Tuple{PauliOperator, Any, Any}} LinearAlgebra.normalize! :: Tuple{QuantumInterface.StateVector} LinearAlgebra.normalize! :: Tuple{QuantumInterface.AbstractOperator} QuantumClifford.ECC.AbstractECCSetup QuantumInterface.StateVector QuantumInterface.check_indices :: Tuple{Any, Any} QuantumInterface.shiftremove :: Tuple{Any, Any} QuantumInterface.variance :: Union{Tuple{BC}, Tuple{B}, Tuple{Any, QuantumInterface.AbstractOperator{B, B}, QuantumInterface.AbstractOperator{BC, BC}}} where {B, BC<:QuantumInterface.CompositeBasis} QuantumInterface.SpinBasis QuantumClifford.

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