Package evaluation of Wilsonloop on Julia 1.11.4 (a71dd056e0*) started at 2025-04-08T07:29:55.796 ################################################################################ # Set-up # Installing PkgEval dependencies (TestEnv)... Set-up completed after 9.08s ################################################################################ # Installation # Installing Wilsonloop... Resolving package versions... Updating `~/.julia/environments/v1.11/Project.toml` [f3c8d4fe] + Wilsonloop v0.1.5 Updating `~/.julia/environments/v1.11/Manifest.toml` [b964fa9f] + LaTeXStrings v1.4.0 [f3c8d4fe] + Wilsonloop v0.1.5 [56f22d72] + Artifacts v1.11.0 [8f399da3] + Libdl v1.11.0 [37e2e46d] + LinearAlgebra v1.11.0 [e66e0078] + CompilerSupportLibraries_jll v1.1.1+0 [4536629a] + OpenBLAS_jll v0.3.27+1 [8e850b90] + libblastrampoline_jll v5.11.0+0 Installation completed after 1.1s ################################################################################ # Precompilation # Precompiling PkgEval dependencies... Precompiling package dependencies... Precompilation completed after 15.83s ################################################################################ # Testing # Testing Wilsonloop Status `/tmp/jl_nYVQPq/Project.toml` [b964fa9f] LaTeXStrings v1.4.0 [f3c8d4fe] Wilsonloop v0.1.5 [37e2e46d] LinearAlgebra v1.11.0 [8dfed614] Test v1.11.0 Status `/tmp/jl_nYVQPq/Manifest.toml` [b964fa9f] LaTeXStrings v1.4.0 [f3c8d4fe] Wilsonloop v0.1.5 [56f22d72] Artifacts v1.11.0 [2a0f44e3] Base64 v1.11.0 [b77e0a4c] InteractiveUtils v1.11.0 [8f399da3] Libdl v1.11.0 [37e2e46d] LinearAlgebra v1.11.0 [56ddb016] Logging v1.11.0 [d6f4376e] Markdown v1.11.0 [9a3f8284] Random v1.11.0 [ea8e919c] SHA v0.7.0 [9e88b42a] Serialization v1.11.0 [8dfed614] Test v1.11.0 [e66e0078] CompilerSupportLibraries_jll v1.1.1+0 [4536629a] OpenBLAS_jll v0.3.27+1 [8e850b90] libblastrampoline_jll v5.11.0+0 Testing Running tests... plaq 1-st loop L"$U_{1}(n)U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})U^{\dagger}_{2}(n)$" 2-nd loop L"$U_{1}(n)U_{3}(n+e_{1})U^{\dagger}_{1}(n+e_{3})U^{\dagger}_{3}(n)$" 3-rd loop L"$U_{1}(n)U_{4}(n+e_{1})U^{\dagger}_{1}(n+e_{4})U^{\dagger}_{4}(n)$" 4-th loop L"$U_{2}(n)U_{3}(n+e_{2})U^{\dagger}_{2}(n+e_{3})U^{\dagger}_{3}(n)$" 5-th loop L"$U_{2}(n)U_{4}(n+e_{2})U^{\dagger}_{2}(n+e_{4})U^{\dagger}_{4}(n)$" 6-th loop L"$U_{3}(n)U_{4}(n+e_{3})U^{\dagger}_{3}(n+e_{4})U^{\dagger}_{4}(n)$" μ = 1 1-st loop L"$U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})U^{\dagger}_{2}(n)$" 2-nd loop L"$U^{\dagger}_{2}(n+e_{1}-e_{2})U^{\dagger}_{1}(n-e_{2})U_{2}(n-e_{2})$" 3-rd loop L"$U_{3}(n+e_{1})U^{\dagger}_{1}(n+e_{3})U^{\dagger}_{3}(n)$" 4-th loop L"$U^{\dagger}_{3}(n+e_{1}-e_{3})U^{\dagger}_{1}(n-e_{3})U_{3}(n-e_{3})$" 5-th loop L"$U_{4}(n+e_{1})U^{\dagger}_{1}(n+e_{4})U^{\dagger}_{4}(n)$" 6-th loop L"$U^{\dagger}_{4}(n+e_{1}-e_{4})U^{\dagger}_{1}(n-e_{4})U_{4}(n-e_{4})$" μ = 2 1-st loop L"$U^{\dagger}_{1}(n-e_{1}+e_{2})U^{\dagger}_{2}(n-e_{1})U_{1}(n-e_{1})$" 2-nd loop L"$U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})U^{\dagger}_{1}(n)$" 3-rd loop L"$U_{3}(n+e_{2})U^{\dagger}_{2}(n+e_{3})U^{\dagger}_{3}(n)$" 4-th loop L"$U^{\dagger}_{3}(n+e_{2}-e_{3})U^{\dagger}_{2}(n-e_{3})U_{3}(n-e_{3})$" 5-th loop L"$U_{4}(n+e_{2})U^{\dagger}_{2}(n+e_{4})U^{\dagger}_{4}(n)$" 6-th loop L"$U^{\dagger}_{4}(n+e_{2}-e_{4})U^{\dagger}_{2}(n-e_{4})U_{4}(n-e_{4})$" μ = 3 1-st loop L"$U^{\dagger}_{1}(n-e_{1}+e_{3})U^{\dagger}_{3}(n-e_{1})U_{1}(n-e_{1})$" 2-nd loop L"$U_{1}(n+e_{3})U^{\dagger}_{3}(n+e_{1})U^{\dagger}_{1}(n)$" 3-rd loop L"$U^{\dagger}_{2}(n-e_{2}+e_{3})U^{\dagger}_{3}(n-e_{2})U_{2}(n-e_{2})$" 4-th loop L"$U_{2}(n+e_{3})U^{\dagger}_{3}(n+e_{2})U^{\dagger}_{2}(n)$" 5-th loop L"$U_{4}(n+e_{3})U^{\dagger}_{3}(n+e_{4})U^{\dagger}_{4}(n)$" 6-th loop L"$U^{\dagger}_{4}(n+e_{3}-e_{4})U^{\dagger}_{3}(n-e_{4})U_{4}(n-e_{4})$" μ = 4 1-st loop L"$U^{\dagger}_{1}(n-e_{1}+e_{4})U^{\dagger}_{4}(n-e_{1})U_{1}(n-e_{1})$" 2-nd loop L"$U_{1}(n+e_{4})U^{\dagger}_{4}(n+e_{1})U^{\dagger}_{1}(n)$" 3-rd loop L"$U^{\dagger}_{2}(n-e_{2}+e_{4})U^{\dagger}_{4}(n-e_{2})U_{2}(n-e_{2})$" 4-th loop L"$U_{2}(n+e_{4})U^{\dagger}_{4}(n+e_{2})U^{\dagger}_{2}(n)$" 5-th loop L"$U^{\dagger}_{3}(n-e_{3}+e_{4})U^{\dagger}_{4}(n-e_{3})U_{3}(n-e_{3})$" 6-th loop L"$U_{3}(n+e_{4})U^{\dagger}_{4}(n+e_{3})U^{\dagger}_{3}(n)$" 1-st loop L"$U^{\dagger}_{1}(n-e_{1})U_{4}(n-e_{1})U_{1}(n-e_{1}+e_{4})$" 2-nd loop L"$U_{1}(n)U_{4}(n+e_{1})U^{\dagger}_{1}(n+e_{4})$" 3-rd loop L"$U^{\dagger}_{2}(n-e_{2})U_{4}(n-e_{2})U_{2}(n-e_{2}+e_{4})$" 4-th loop L"$U_{2}(n)U_{4}(n+e_{2})U^{\dagger}_{2}(n+e_{4})$" 5-th loop L"$U^{\dagger}_{3}(n-e_{3})U_{4}(n-e_{3})U_{3}(n-e_{3}+e_{4})$" 6-th loop L"$U_{3}(n)U_{4}(n+e_{3})U^{\dagger}_{3}(n+e_{4})$" [(1, 1)] 1-st loop L"$I \otimes I \delta_{m,n}$" d d [(1, 1), (2, 1), (1, -1), (2, -1)] P: L"$U_{1}(n)U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})U^{\dagger}_{2}(n)$" P^+: L"$U_{2}(n)U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})U^{\dagger}_{1}(n)$" staple μ = 1 1-st loop L"$U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})U^{\dagger}_{2}(n)$" 1-st loop L"$U^{\dagger}_{2}(n+e_{1}-e_{2})U^{\dagger}_{1}(n-e_{2})U_{2}(n-e_{2})$" μ = 2 1-st loop L"$U^{\dagger}_{1}(n-e_{1}+e_{2})U^{\dagger}_{2}(n-e_{1})U_{1}(n-e_{1})$" 1-st loop L"$U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})U^{\dagger}_{1}(n)$" μ = 3 μ = 4 derive w L"$I \otimes U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})U^{\dagger}_{2}(n)\delta_{m,n}$" L"$U_{1}(n-e_{1}) \otimes U^{\dagger}_{1}(n-e_{1}+e_{2})U^{\dagger}_{2}(n-e_{1})\delta_{m,n+e_{1}}$" ------------------------------------------------------- C and dC/dU ------------------------------------------- μ = 1 --------------------------------------- C[1]: L"$U_{2}(n)U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})$" ----------------------------- ν = 1 dC_{1}/dU_{1}: L"$U_{2}(n-e_{2}) \otimes U^{\dagger}_{2}(n+e_{1}-e_{2})\delta_{m,n+e_{2}}$" ----------------------------- ν = 2 dC_{1}/dU_{2}: L"$I \otimes U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})\delta_{m,n}$" ----------------------------- ν = 3 dC_{1}/dU_{3}: ----------------------------- ν = 4 dC_{1}/dU_{4}: --------------------------------------- C[2]: L"$U^{\dagger}_{2}(n-e_{2})U_{1}(n-e_{2})U_{2}(n+e_{1}-e_{2})$" ----------------------------- ν = 1 dC_{1}/dU_{1}: L"$U^{\dagger}_{2}(n) \otimes U_{2}(n+e_{1})\delta_{m,n-e_{2}}$" ----------------------------- ν = 2 dC_{1}/dU_{2}: L"$U^{\dagger}_{2}(n-e_{1})U_{1}(n-e_{1}) \otimes I \delta_{m,n+e_{1}-e_{2}}$" ----------------------------- ν = 3 dC_{1}/dU_{3}: ----------------------------- ν = 4 dC_{1}/dU_{4}: ------------------------------------------- μ = 2 --------------------------------------- C[1]: L"$U^{\dagger}_{1}(n-e_{1})U_{2}(n-e_{1})U_{1}(n-e_{1}+e_{2})$" ----------------------------- ν = 1 dC_{2}/dU_{1}: L"$U^{\dagger}_{1}(n-e_{2})U_{2}(n-e_{2}) \otimes I \delta_{m,n-e_{1}+e_{2}}$" ----------------------------- ν = 2 dC_{2}/dU_{2}: L"$U^{\dagger}_{1}(n) \otimes U_{1}(n+e_{2})\delta_{m,n-e_{1}}$" ----------------------------- ν = 3 dC_{2}/dU_{3}: ----------------------------- ν = 4 dC_{2}/dU_{4}: --------------------------------------- C[2]: L"$U_{1}(n)U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})$" ----------------------------- ν = 1 dC_{2}/dU_{1}: L"$I \otimes U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})\delta_{m,n}$" ----------------------------- ν = 2 dC_{2}/dU_{2}: L"$U_{1}(n-e_{1}) \otimes U^{\dagger}_{1}(n-e_{1}+e_{2})\delta_{m,n+e_{1}}$" ----------------------------- ν = 3 dC_{2}/dU_{3}: ----------------------------- ν = 4 dC_{2}/dU_{4}: ------------------------------------------- μ = 3 ------------------------------------------- μ = 4 ------------------------------------------------------- C and dC/dUdag ------------------------------------------- μ = 1 --------------------------------------- C[1]: L"$U_{2}(n)U_{1}(n+e_{2})U^{\dagger}_{2}(n+e_{1})$" ----------------------------- ν = 1 dC_{1}/dUdag_{1}: ----------------------------- ν = 2 dC_{1}/dUdag_{2}: L"$U_{2}(n)U_{1}(n+e_{2}) \otimes I \delta_{m,n+e_{1}}$" ----------------------------- ν = 3 dC_{1}/dUdag_{3}: ----------------------------- ν = 4 dC_{1}/dUdag_{4}: --------------------------------------- C[2]: L"$U^{\dagger}_{2}(n-e_{2})U_{1}(n-e_{2})U_{2}(n+e_{1}-e_{2})$" ----------------------------- ν = 1 dC_{1}/dUdag_{1}: ----------------------------- ν = 2 dC_{1}/dUdag_{2}: L"$I \otimes U_{1}(n-e_{2})U_{2}(n+e_{1}-e_{2})\delta_{m,n-e_{2}}$" ----------------------------- ν = 3 dC_{1}/dUdag_{3}: ----------------------------- ν = 4 dC_{1}/dUdag_{4}: ------------------------------------------- μ = 2 --------------------------------------- C[1]: L"$U^{\dagger}_{1}(n-e_{1})U_{2}(n-e_{1})U_{1}(n-e_{1}+e_{2})$" ----------------------------- ν = 1 dC_{2}/dUdag_{1}: L"$I \otimes U_{2}(n-e_{1})U_{1}(n-e_{1}+e_{2})\delta_{m,n-e_{1}}$" ----------------------------- ν = 2 dC_{2}/dUdag_{2}: ----------------------------- ν = 3 dC_{2}/dUdag_{3}: ----------------------------- ν = 4 dC_{2}/dUdag_{4}: --------------------------------------- C[2]: L"$U_{1}(n)U_{2}(n+e_{1})U^{\dagger}_{1}(n+e_{2})$" ----------------------------- ν = 1 dC_{2}/dUdag_{1}: L"$U_{1}(n)U_{2}(n+e_{1}) \otimes I \delta_{m,n+e_{2}}$" ----------------------------- ν = 2 dC_{2}/dUdag_{2}: ----------------------------- ν = 3 dC_{2}/dUdag_{3}: ----------------------------- ν = 4 dC_{2}/dUdag_{4}: ------------------------------------------- μ = 3 ------------------------------------------- μ = 4 Test Summary: | Pass Total Time Wilsonloop.jl | 1 1 3.7s Testing Wilsonloop tests passed Testing completed after 8.2s PkgEval succeeded after 40.79s