Package evaluation to test Qecsim on Julia 1.14.0-DEV.1886 (984ad247db*) started at 2026-03-12T14:52:45.770 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Activating project at `~/.julia/environments/v1.14` Set-up completed after 13.6s ################################################################################ # Installation # Installing Qecsim... Resolving package versions... Updating `~/.julia/environments/v1.14/Project.toml` [e6c2bad3] + Qecsim v0.1.0 Updating `~/.julia/environments/v1.14/Manifest.toml` [861a8166] + Combinatorics v1.1.0 [34da2185] + Compat v4.18.1 [9a962f9c] + DataAPI v1.16.0 ⌅ [864edb3b] + DataStructures v0.18.22 [ffbed154] + DocStringExtensions v0.9.5 [92d709cd] + IrrationalConstants v0.2.6 ⌅ [682c06a0] + JSON v0.21.4 [2ab3a3ac] + LogExpFunctions v0.3.29 [e1d29d7a] + Missings v1.2.0 [bac558e1] + OrderedCollections v1.8.1 [69de0a69] + Parsers v2.8.3 [aea7be01] + PrecompileTools v1.3.3 [21216c6a] + Preferences v1.5.2 [e6c2bad3] + Qecsim v0.1.0 [189a3867] + Reexport v1.2.2 [a2af1166] + SortingAlgorithms v1.2.2 [10745b16] + Statistics v1.11.1 [82ae8749] + StatsAPI v1.8.0 ⌅ [2913bbd2] + StatsBase v0.33.21 [56f22d72] + Artifacts v1.11.0 [2a0f44e3] + Base64 v1.11.0 [ade2ca70] + Dates v1.11.0 [b77e0a4c] + InteractiveUtils v1.11.0 [ac6e5ff7] + JuliaSyntaxHighlighting v1.13.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.13.0 [d6f4376e] + Markdown v1.11.0 [a63ad114] + Mmap v1.11.0 [de0858da] + Printf v1.11.0 [9a3f8284] + Random v1.11.0 [ea8e919c] + SHA v1.0.0 [9e88b42a] + Serialization v1.11.0 [2f01184e] + SparseArrays v1.13.0 [f489334b] + StyledStrings v1.13.0 [fa267f1f] + TOML v1.0.3 [cf7118a7] + UUIDs v1.11.0 [4ec0a83e] + Unicode v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.3.0+1 [4536629a] + OpenBLAS_jll v0.3.30+0 [bea87d4a] + SuiteSparse_jll v7.10.1+0 [8e850b90] + libblastrampoline_jll v5.15.0+0 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. To see why use `status --outdated -m` Installation completed after 4.29s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompiling packages... 4089.2 ms ✓ Qecsim 1 dependency successfully precompiled in 5 seconds. 37 already precompiled. Precompilation completed after 26.63s ################################################################################ # Testing # Testing Qecsim Status `/tmp/jl_csQMWy/Project.toml` [861a8166] Combinatorics v1.1.0 ⌅ [682c06a0] JSON v0.21.4 [e6c2bad3] Qecsim v0.1.0 [189a3867] Reexport v1.2.2 [1bc83da4] SafeTestsets v0.1.0 [10745b16] Statistics v1.11.1 ⌅ [2913bbd2] StatsBase v0.33.21 [37e2e46d] LinearAlgebra v1.13.0 [9a3f8284] Random v1.11.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_csQMWy/Manifest.toml` [861a8166] Combinatorics v1.1.0 [34da2185] Compat v4.18.1 [9a962f9c] DataAPI v1.16.0 ⌅ [864edb3b] DataStructures v0.18.22 [ffbed154] DocStringExtensions v0.9.5 [92d709cd] IrrationalConstants v0.2.6 ⌅ [682c06a0] JSON v0.21.4 [2ab3a3ac] LogExpFunctions v0.3.29 [e1d29d7a] Missings v1.2.0 [bac558e1] OrderedCollections v1.8.1 [69de0a69] Parsers v2.8.3 [aea7be01] PrecompileTools v1.3.3 [21216c6a] Preferences v1.5.2 [e6c2bad3] Qecsim v0.1.0 [189a3867] Reexport v1.2.2 [1bc83da4] SafeTestsets v0.1.0 [a2af1166] SortingAlgorithms v1.2.2 [10745b16] Statistics v1.11.1 [82ae8749] StatsAPI v1.8.0 ⌅ [2913bbd2] StatsBase v0.33.21 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [ade2ca70] Dates v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [ac6e5ff7] JuliaSyntaxHighlighting v1.13.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.13.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [a63ad114] Mmap v1.11.0 [de0858da] Printf v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v1.0.0 [9e88b42a] Serialization v1.11.0 [2f01184e] SparseArrays v1.13.0 [f489334b] StyledStrings v1.13.0 [fa267f1f] TOML v1.0.3 [8dfed614] Test v1.11.0 [cf7118a7] UUIDs v1.11.0 [4ec0a83e] Unicode v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.3.0+1 [4536629a] OpenBLAS_jll v0.3.30+0 [bea87d4a] SuiteSparse_jll v7.10.1+0 [8e850b90] libblastrampoline_jll v5.15.0+0 Info Packages marked with ⌅ have new versions available but compatibility constraints restrict them from upgrading. Testing Running tests... ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 1000 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x3941f15760fb393be18b58903f4b3669, 0x630f8e945f937c79f564bb013e41837f) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.8487960000000053, :time_steps => 1, :n_logical_commutations => [221, 209], :error_weight_total => 1198, :wall_time => 0.524139941, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.2396, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 669, :logical_failure_rate => 0.331, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 331, :n_run => 1000) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 1 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x33fa3357d8db3268c1305c044cfd20c6, 0xefb22f0d1e58ee913ebf9970d8edb5db) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 1, :wall_time => 0.000289377, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.2, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 1, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 0, :n_run => 1) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x8572efe447de8a61c05935dd3718d456, 0x40ce56a800cfb097982deec25639bcb1) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.40999999999999986, :time_steps => 1, :n_logical_commutations => [5, 6], :error_weight_total => 17, :wall_time => 0.000533815, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.33999999999999997, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 4, :logical_failure_rate => 0.6, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 6, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = nothing └ max_failures = 2 [ Info: qec_run: rng=Random.MersenneTwister(0x8c9f2300c02b42918c05f3fb9757746e, 0x09ef149df6f49c4c278b90cd2c342a5c) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.888888888888889, :time_steps => 1, :n_logical_commutations => [1, 2], :error_weight_total => 4, :wall_time => 0.000703633, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.26666666666666666, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 1, :logical_failure_rate => 0.6666666666666666, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 2, :n_run => 3) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 10 └ max_failures = 3 [ Info: qec_run: rng=Random.MersenneTwister(0x8a204f0456c42bf341368d3c39be200c, 0xc94196af60c6195329674b9fe7407ba1) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.49000000000000005, :time_steps => 1, :n_logical_commutations => [2, 2], :error_weight_total => 9, :wall_time => 0.000637355, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.18, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 8, :logical_failure_rate => 0.2, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 2, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 1000 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x8a3cfaa33154a7017532ba71b0af6de4, 0xfe2844e769e3a56dcd7ebf505dfe18e0) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 1.009559000000001, :time_steps => 1, :n_logical_commutations => [219, 226], :error_weight_total => 1271, :wall_time => 0.031690851, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.2542, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 661, :logical_failure_rate => 0.339, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 339, :n_run => 1000) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 1 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xc62e034bc9d80fc8801ccc0e9cb98b2d, 0x320b7adcb801ab6bc3cd7b21e4e375e8) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 0, :wall_time => 0.000278807, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 1, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 0, :n_run => 1) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x944e04b775488b33239de5a60b84f244, 0x50f93662a001f9b14870493bf6299ab8) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.21000000000000002, :time_steps => 1, :n_logical_commutations => [6, 5], :error_weight_total => 17, :wall_time => 0.000729254, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.33999999999999997, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 3, :logical_failure_rate => 0.7, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 7, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = nothing └ max_failures = 2 [ Info: qec_run: rng=Random.MersenneTwister(0xac5c1d71619ce0a14b0ce8438545e01b, 0x99cd30cc890fdb94725cd01022215e47) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.8, :time_steps => 1, :n_logical_commutations => [1, 1], :error_weight_total => 5, :wall_time => 0.000456326, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.2, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 3, :logical_failure_rate => 0.4, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 2, :n_run => 5) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.25 │ random_seed = nothing │ max_runs = 10 └ max_failures = 3 [ Info: qec_run: rng=Random.MersenneTwister(0x5473b98c2245f0eddd3ce237a716634c, 0x951008b18f7ce015c62ecb017a2eab1f) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.56, :time_steps => 1, :n_logical_commutations => [3, 1], :error_weight_total => 9, :wall_time => 0.000463235, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.36, :measurement_error_probability => 0.0, :error_probability => 0.25, :n_success => 2, :logical_failure_rate => 0.6, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 3, :n_run => 5) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = 13 │ max_runs = 1000 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x5410db514147269f83c92808266cc643, 0x74d52d3dced48953f77713e0f592ff81) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.4977440000000004, :time_steps => 1, :n_logical_commutations => [60, 63], :error_weight_total => 516, :wall_time => 0.025486917, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.1032, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 908, :logical_failure_rate => 0.092, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 92, :n_run => 1000) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = 13 │ max_runs = 1000 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x5410db514147269f83c92808266cc643, 0x74d52d3dced48953f77713e0f592ff81) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.4977440000000004, :time_steps => 1, :n_logical_commutations => [60, 63], :error_weight_total => 516, :wall_time => 0.024596735, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.1032, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 908, :logical_failure_rate => 0.092, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 92, :n_run => 1000) ┌ Info: qec_run: starting │ code = Main.var"##App.jl#153"._DuckCode() │ error_model = Main.var"##App.jl#153"._DuckErrorModel() │ decoder = Main.var"##App.jl#153"._DuckDecoder() │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xfa03e4e03aa8f9a541fca631188d74ef, 0x33a77ff732e125e02ff2d1745c805400) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 0, :wall_time => 0.000654074, :n_k_d => (5, 1, 3), :error_model => "duck", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "duck", :decoder => "duck", :n_fail => 0, :n_run => 10) ┌ Info: qec_run: starting │ code = Main.var"##App.jl#153"._DuckCode() │ error_model = Main.var"##App.jl#153"._DuckErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x6f4ecd1f115a79f3d2f75451cf205518, 0xdf5e718c60eb193fa1e4d156da0078ab) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 0, :wall_time => 0.000719534, :n_k_d => (5, 1, 3), :error_model => "duck", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "duck", :decoder => "Naive", :n_fail => 0, :n_run => 10) ┌ Info: qec_run: starting │ code = Main.var"##App.jl#153"._DuckCode() │ error_model = Qecsim.GenericModels.BitFlipErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xc112b8c91963223a797e567c4eb2e96d, 0xb4ccfb4ee427f8d3799f0377fdafd2a0) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.21000000000000002, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 3, :wall_time => 0.000980971, :n_k_d => (5, 1, 3), :error_model => "Bit-flip", :physical_error_rate => 0.06, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "duck", :decoder => "Naive", :n_fail => 0, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(nothing, Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0], nothing, nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 1 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x2989f3c537dfa2d59c5107a9559cee26, 0x345c30e286d6caa1fcad9348d94ddb40) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 0, :wall_time => 0.000270087, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 1, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 0, :n_run => 1) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(nothing, Bool[1, 1, 1, 1, 1, 0, 0, 0, 0, 0], nothing, nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 2 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x743e1b6d38e7a200b66d62a1e5f7859a, 0x5e7a710808b28a70718ec9d49c24594f) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 2], :error_weight_total => 0, :wall_time => 0.000423526, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 2, :n_run => 2) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(nothing, Bool[0, 0, 0, 0, 0, 1, 1, 1, 1, 1], nothing, nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 3 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x9060e9b311fb75d36e4b309c24c3985e, 0xbcd1ccb5b6be878bef0c4b2c23887339) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [3, 0], :error_weight_total => 0, :wall_time => 0.000207338, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 3, :n_run => 3) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(false, Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0], nothing, nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 4 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x1dc0b2a4f45318c62ed427a86ee50c35, 0x1ef56db0942238de82257376a24a9a20) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 0, :wall_time => 0.000297738, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 4, :n_run => 4) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(nothing, Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0], Bool[1, 1], nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 5 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x020f0fdf4baa80fd9950080eac745fec, 0x282c2d11cd5c46404b9dc428a47e2580) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [5, 5], :error_weight_total => 0, :wall_time => 0.000237268, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 5, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 0, :n_run => 5) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(false, Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0], Bool[1, 1], nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 6 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x93071dad89d9b3567ee9569c74e8b941, 0x1bfbc319e3145f25a6fa3ecc63621720) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [6, 6], :error_weight_total => 0, :wall_time => 0.000307567, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 6, :n_run => 6) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(false, nothing, nothing, nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 7 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x0381b6f9d97bf1b9bcbfeefbad0a36f6, 0x2cb80c112841e0613ae2dc350b17a68d) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.093701613, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 7, :n_run => 7) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Nothing}(false, nothing, Bool[1, 1], nothing)) │ p = 0.1 │ random_seed = nothing │ max_runs = 8 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xc98c371bd24bad062cab449c5210682e, 0x89d8b9b616f3761cd06bcd509b890d02) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => [8, 8], :error_weight_total => 0, :wall_time => 0.000366727, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "fixed", :n_fail => 8, :n_run => 8) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Vector{Int64}}(false, nothing, nothing, [1, 1])) │ p = 0.1 │ random_seed = nothing │ max_runs = 9 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x1f81a1bfd23ed02d68bc2e41fe4dfc44, 0x2d67383a20db04e5063b7fe4444939ed) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.554632079, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => [9, 9], :code => "5-qubit", :decoder => "fixed", :n_fail => 9, :n_run => 9) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Vector{Float64}}(false, nothing, nothing, [1.0, 1.0])) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xb0346027b92692e7da5395cc8170d63e, 0x763e8109ba74cbb4e22f84a0872ec679) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.584368857, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => [10.0, 10.0], :code => "5-qubit", :decoder => "fixed", :n_fail => 10, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._FixedDecoder(Qecsim.Model.DecodeResult{Vector{Rational{Int64}}}(false, nothing, nothing, Rational{Int64}[1//2, 1//3])) │ p = 0.1 │ random_seed = nothing │ max_runs = 11 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xaae357cfb2845dd950a216dddf437993, 0xba8d3fcb1803bd0476a21075b9876aa3) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.50852566, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 0, :logical_failure_rate => 1.0, :custom_totals => Rational{Int64}[11//2, 11//3], :code => "5-qubit", :decoder => "fixed", :n_fail => 11, :n_run => 11) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Int64}}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Vector{Int64}}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Int64}}}}(Qecsim.Model.DecodeResult{Vector{Int64}}[Qecsim.Model.DecodeResult{Vector{Int64}}(false, nothing, nothing, [1, 1]), Qecsim.Model.DecodeResult{Vector{Int64}}(true, nothing, nothing, [2, 3])]), (Qecsim.Model.DecodeResult{Vector{Int64}}(false, nothing, nothing, [1, 1]), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 12 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xdb4df6077b4b15e5f9ad718142138b22, 0x1a611b77c7af3781d0ac51a0a88c8530) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.078095975, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 6, :logical_failure_rate => 0.5, :custom_totals => [18, 24], :code => "5-qubit", :decoder => "cycle", :n_fail => 6, :n_run => 12) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Vector{Any}}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}(Qecsim.Model.DecodeResult{Vector{Any}}[Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1.0]]), Qecsim.Model.DecodeResult{Vector{Any}}(true, nothing, nothing, Any[2, [3.0]])]), (Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1.0]]), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 2 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xd6c4aacd9f32082feb3bf6d48df47950, 0x60e5f5284b2770c5e8c4d5784d06b2a5) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.572683073, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 1, :logical_failure_rate => 0.5, :custom_totals => Any[3, [1.0, 3.0]], :code => "5-qubit", :decoder => "cycle", :n_fail => 1, :n_run => 2) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Vector{Any}}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}(Qecsim.Model.DecodeResult{Vector{Any}}[Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1 2]]), Qecsim.Model.DecodeResult{Vector{Any}}(true, nothing, nothing, Any[2, [3 4]])]), (Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1 2]]), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 2 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xe2e98884b0a18ed4e597ef9500b78dad, 0xb5757d16a826788af463da354ad72a8d) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 0, :wall_time => 0.243325185, :n_k_d => (5, 1, 3), :error_model => "fixed", :physical_error_rate => 0.0, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 1, :logical_failure_rate => 0.5, :custom_totals => Any[3, [1 2; 3 4]], :code => "5-qubit", :decoder => "cycle", :n_fail => 1, :n_run => 2) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Nothing}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Nothing}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Nothing}}}(Qecsim.Model.DecodeResult{Nothing}[Qecsim.Model.DecodeResult{Nothing}(true, nothing, nothing, nothing), Qecsim.Model.DecodeResult{Nothing}(true, nothing, Bool[1, 0], nothing)]), (Qecsim.Model.DecodeResult{Nothing}(true, nothing, nothing, nothing), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 5 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xdd35f4fe7525f7eef621133e7af6b7e7, 0x4b9a10dc362fd9ddbd8bd674db6e85b1) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Nothing}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Nothing}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Nothing}}}(Qecsim.Model.DecodeResult{Nothing}[Qecsim.Model.DecodeResult{Nothing}(true, nothing, Bool[1, 1, 0], nothing), Qecsim.Model.DecodeResult{Nothing}(true, nothing, Bool[1, 0], nothing)]), (Qecsim.Model.DecodeResult{Nothing}(true, nothing, Bool[1, 1, 0], nothing), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 5 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xebe6323cf7887a5037c6666069d954b0, 0xeb59d5dfb0720530652e2ea93eeca331) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Main.var"##App.jl#153"._FixedErrorModel(Bool[0, 0, 0, 0, 0, 0, 0, 0, 0, 0]) │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult}}(Qecsim.Model.DecodeResult[Qecsim.Model.DecodeResult{Vector{Int64}}(true, nothing, nothing, [1, 0]), Qecsim.Model.DecodeResult{Vector{Float64}}(true, nothing, nothing, [1.1, 0.1])]), (Qecsim.Model.DecodeResult{Vector{Int64}}(true, nothing, nothing, [1, 0]), 2))) │ p = 0.1 │ random_seed = nothing │ max_runs = 5 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x6aab7f7f26dc26486cd9e2fde0c311a1, 0x349ee1ebf39051d049943e80e9616669) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.2 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xaf6b1305027e80b8411c2f0dcc080123, 0xa42adaa83b6494236fac4890172d5cdf) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.8899999999999999, :time_steps => 1, :n_logical_commutations => [2, 4], :error_weight_total => 11, :wall_time => 0.000476875, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.22000000000000003, :measurement_error_probability => 0.0, :error_probability => 0.2, :n_success => 5, :logical_failure_rate => 0.5, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 5, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.2 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xdb5489d75b64c42c96ed3da01373aee3, 0x96be2e99a02cd2318541977853022400) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 1.6900000000000002, :time_steps => 1, :n_logical_commutations => [2, 3], :error_weight_total => 11, :wall_time => 0.000374627, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.22000000000000003, :measurement_error_probability => 0.0, :error_probability => 0.2, :n_success => 6, :logical_failure_rate => 0.4, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 4, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xdcca58cae32f995e10a6b86297a8a2e6, 0x497a81d049806d0064e975788eead3a9) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.45, :time_steps => 1, :n_logical_commutations => [1, 0], :error_weight_total => 5, :wall_time => 0.000493136, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.1, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 9, :logical_failure_rate => 0.1, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 1, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.2 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x3ace823b562173d400c965900a39c00c, 0xc97f39a2b20503c77926d1d703ce6d78) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.69, :time_steps => 1, :n_logical_commutations => [4, 3], :error_weight_total => 11, :wall_time => 0.000513445, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.22000000000000003, :measurement_error_probability => 0.0, :error_probability => 0.2, :n_success => 6, :logical_failure_rate => 0.4, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 4, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.BitFlipErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x669a510cadb1848705e0c5db66920947, 0xf7cd75850b834e68e654b90b24101a9d) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.09000000000000001, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 1, :wall_time => 0.019933608, :n_k_d => (5, 1, 3), :error_model => "Bit-flip", :physical_error_rate => 0.02, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 0, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Vector{Any}}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}(Qecsim.Model.DecodeResult{Vector{Any}}[Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1]]), Qecsim.Model.DecodeResult{Vector{Any}}(true, nothing, nothing, Any[2, [3]])]), (Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1]]), 2))) │ p = 0.2 │ random_seed = nothing │ max_runs = 3 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xb07f3a4dc55c619d7d2bdd09ffe71dbf, 0x5af2e0e41071512994dc842246e54fb1) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 1.5555555555555556, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 4, :wall_time => 0.031815389, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.26666666666666666, :measurement_error_probability => 0.0, :error_probability => 0.2, :n_success => 1, :logical_failure_rate => 0.6666666666666666, :custom_totals => Any[4, [1, 3, 1]], :code => "5-qubit", :decoder => "cycle", :n_fail => 2, :n_run => 3) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Main.var"##App.jl#153"._CycleDecoder(Base.Iterators.Stateful{Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}, Union{Nothing, Tuple{Qecsim.Model.DecodeResult{Vector{Any}}, Int64}}}(Base.Iterators.Cycle{Vector{Qecsim.Model.DecodeResult{Vector{Any}}}}(Qecsim.Model.DecodeResult{Vector{Any}}[Qecsim.Model.DecodeResult{Vector{Any}}(false, nothing, nothing, Any[1, [1]]), Qecsim.Model.DecodeResult{Vector{Any}}(true, nothing, nothing, Any[2, [3]])]), (Qecsim.Model.DecodeResult{Vector{Any}}(true, nothing, nothing, Any[2, [3]]), 3))) │ p = 0.2 │ random_seed = nothing │ max_runs = 3 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xf2285e56f91769dc40dbb1dffea137ca, 0x641c463eaa0905a5397291297006fd19) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 2.0, :time_steps => 1, :n_logical_commutations => nothing, :error_weight_total => 3, :wall_time => 0.000284447, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.19999999999999998, :measurement_error_probability => 0.0, :error_probability => 0.2, :n_success => 2, :logical_failure_rate => 0.3333333333333333, :custom_totals => Any[5, [3, 1, 3]], :code => "5-qubit", :decoder => "cycle", :n_fail => 1, :n_run => 3) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.08 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xf9f02bb9a310b15defa8b56e4247a697, 0x9c8366f744341c54aec555348e14177a) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.09000000000000001, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 1, :wall_time => 0.000444556, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.02, :measurement_error_probability => 0.0, :error_probability => 0.08, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 0, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.DepolarizingErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x6f1eeedc15802cb28c5af95cac132574, 0xc7b637af1ae700098070b383b4b69dee) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.4400000000000001, :time_steps => 1, :n_logical_commutations => [1, 1], :error_weight_total => 4, :wall_time => 0.000343527, :n_k_d => (5, 1, 3), :error_model => "Depolarizing", :physical_error_rate => 0.08, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 9, :logical_failure_rate => 0.1, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 1, :n_run => 10) ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.BitFlipErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0x56efd1383ac01da33234b7539c5072ec, 0x6ff1d4e34f986d4c3b6c3f7ddcad4454) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.20999999999999996, :time_steps => 1, :n_logical_commutations => [0, 0], :error_weight_total => 3, :wall_time => 0.000422716, :n_k_d => (5, 1, 3), :error_model => "Bit-flip", :physical_error_rate => 0.06, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 10, :logical_failure_rate => 0.0, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 0, :n_run => 10) ┌ Error: Recovered data: [{"error_weight_pvar":0.20999999999999996},{"time_steps":1},{"n_logical_commutations":[0,0]},{"error_weight_total":3},{"wall_time":0.000422716},{"n_k_d":[5,1,3]},{"error_model":"Bit-flip"},{"physical_error_rate":0.06},{"measurement_error_probability":0.0},{"error_probability":0.1},{"n_success":10},{"logical_failure_rate":0.0},{"custom_totals":null},{"code":"5-qubit"},{"decoder":"Naive"},{"n_fail":0},{"n_run":10}] └ @ Qecsim.App ~/.julia/packages/Qecsim/e9K2S/src/App.jl:423 ┌ Info: qec_run: starting │ code = Qecsim.BasicModels.BasicCode(["XZZXI", "IXZZX", "XIXZZ", "ZXIXZ"], ["XXXXX"], ["ZZZZZ"], (5, 1, 3), "5-qubit") │ error_model = Qecsim.GenericModels.BitFlipErrorModel() │ decoder = Qecsim.GenericModels.NaiveDecoder(10) │ p = 0.1 │ random_seed = nothing │ max_runs = 10 └ max_failures = nothing [ Info: qec_run: rng=Random.MersenneTwister(0xbc41e547dcb360062d696296b99be5a7, 0x92bc9a7f9e0e53360eeb8bf3c1ae8716) [ Info: qec_run: complete: data=Dict{Symbol, Any}(:error_weight_pvar => 0.41, :time_steps => 1, :n_logical_commutations => [1, 0], :error_weight_total => 7, :wall_time => 0.000551445, :n_k_d => (5, 1, 3), :error_model => "Bit-flip", :physical_error_rate => 0.13999999999999999, :measurement_error_probability => 0.0, :error_probability => 0.1, :n_success => 9, :logical_failure_rate => 0.1, :custom_totals => nothing, :code => "5-qubit", :decoder => "Naive", :n_fail => 1, :n_run => 10) Test Summary: | Pass Total Time Qecsim.jl | 241 241 1m25.0s error.jl | 3 3 4.3s PauliTools.jl | 43 43 13.9s Model.jl | 21 21 3.6s models/BasicModels.jl | 13 13 0.6s models/GenericModels/simpleerrormodel.jl | 44 44 10.4s models/GenericModels/naivedecoder.jl | 16 16 2.1s App.jl | 101 101 50.0s Testing Qecsim tests passed Testing completed after 94.1s PkgEval succeeded after 150.49s