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FeynmanDiagrams.jl/notebooks/diagram_generation.ipynb

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{
"cells": [
{
"cell_type": "code",
"execution_count": 1,
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"WARNING: Method definition (::Type{QEDcore.ParticleStateful{DIR, SPECIES, ELEMENT} where ELEMENT<:QEDbase.AbstractFourMomentum})(QEDbase.AbstractFourMomentum) where {DIR<:QEDbase.ParticleDirection, SPECIES<:QEDbase.AbstractParticleType} in module QEDcore at /home/antonr/.julia/packages/QEDcore/uVldP/src/phase_spaces/create.jl:7 overwritten in module MetagraphOptimization at /home/antonr/.julia/packages/MetagraphOptimization/kQaEJ/src/QEDprocesses_patch.jl:15.\n",
"ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation.\n",
"WARNING: Method definition (::Type{QEDcore.ParticleStateful{DIR, SPECIES, ELEMENT} where ELEMENT<:QEDbase.AbstractFourMomentum})(QEDbase.AbstractFourMomentum) where {DIR<:QEDbase.ParticleDirection, SPECIES<:QEDbase.AbstractParticleType} in module QEDcore at /home/antonr/.julia/packages/QEDcore/uVldP/src/phase_spaces/create.jl:7 overwritten in module MetagraphOptimization at /home/antonr/.julia/packages/MetagraphOptimization/kQaEJ/src/QEDprocesses_patch.jl:15.\n",
"ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation.\n"
]
}
],
"source": [
"using Revise\n",
"using FeynmanDiagramGenerator"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"42-element Vector{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Electron, Positron, Positron}, Tuple{AllPolarization, AllSpin}, NTuple{5, AllSpin}}, PT, 2, 5} where PT<:AbstractParticleType}:\n",
" photon: \t00 | 00101\n",
" photon: \t00 | 00110\n",
" photon: \t00 | 01001\n",
" photon: \t00 | 01010\n",
" photon: \t00 | 10001\n",
" photon: \t00 | 10010\n",
" photon: \t01 | 00100\n",
" photon: \t01 | 01000\n",
" photon: \t01 | 10000\n",
" electron: \t10 | 00001\n",
" ⋮\n",
" photon: \t10 | 00101\n",
" photon: \t10 | 00110\n",
" photon: \t10 | 01001\n",
" photon: \t10 | 01010\n",
" photon: \t10 | 10001\n",
" photon: \t10 | 10010\n",
" photon: \t11 | 00100\n",
" photon: \t11 | 01000\n",
" photon: \t11 | 10000"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"WARNING: both QEDcore and QEDbase export \"mul\"; uses of it in module FeynmanDiagramGenerator must be qualified\n"
]
}
],
"source": [
"proc = QEDProcess(1, 0, 1, 3, 0, 2)\n",
"all_particles = Set()\n",
"for fd in feynman_diagrams(proc)\n",
" push!(all_particles, virtual_particles(proc, fd)...)\n",
"end\n",
"all_particles = sort([all_particles...])\n",
"display(all_particles)\n"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"OrderedCollections.OrderedDict{VirtualParticle, Vector{Tuple{VirtualParticle, VirtualParticle}}} with 42 entries:\n",
" photon: \t00 | 00101 => [(electron: \t00 | 00001, positron: \t00 | 00100)]\n",
" photon: \t00 | 00110 => [(electron: \t00 | 00010, positron: \t00 | 00100)]\n",
" photon: \t00 | 01001 => [(electron: \t00 | 00001, positron: \t00 | 01000)]\n",
" photon: \t00 | 01010 => [(electron: \t00 | 00010, positron: \t00 | 01000)]\n",
" photon: \t00 | 10001 => [(electron: \t00 | 00001, positron: \t00 | 10000)]\n",
" photon: \t00 | 10010 => [(electron: \t00 | 00010, positron: \t00 | 10000)]\n",
" photon: \t01 | 00100 => [(positron: \t00 | 00100, electron: \t01 | 00000)]\n",
" photon: \t01 | 01000 => [(positron: \t00 | 01000, electron: \t01 | 00000)]\n",
" photon: \t01 | 10000 => [(positron: \t00 | 10000, electron: \t01 | 00000)]\n",
" electron: \t10 | 00001 => [(electron: \t00 | 00001, photon: \t10 | 00000)]\n",
" electron: \t10 | 00010 => [(electron: \t00 | 00010, photon: \t10 | 00000)]\n",
" positron: \t10 | 00100 => [(positron: \t00 | 00100, photon: \t10 | 00000)]\n",
" positron: \t10 | 01000 => [(positron: \t00 | 01000, photon: \t10 | 00000)]\n",
" positron: \t10 | 10000 => [(positron: \t00 | 10000, photon: \t10 | 00000)]\n",
" electron: \t11 | 00000 => [(electron: \t01 | 00000, photon: \t10 | 00000)]\n",
" electron: \t00 | 00111 => [(electron: \t00 | 00001, photon: \t00 | 00110), (electro…\n",
" electron: \t00 | 01011 => [(electron: \t00 | 00001, photon: \t00 | 01010), (electro…\n",
" positron: \t00 | 01101 => [(positron: \t00 | 00100, photon: \t00 | 01001), (positro…\n",
" positron: \t00 | 01110 => [(positron: \t00 | 00100, photon: \t00 | 01010), (positro…\n",
" ⋮ => ⋮"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"pairs = sort(FeynmanDiagramGenerator.particle_pairs(all_particles))"
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"81-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n",
" (photon: \t00 | 00101, electron: \t01 | 10010, positron: \t10 | 01000)\n",
" (photon: \t00 | 00101, electron: \t11 | 00000, positron: \t00 | 11010)\n",
" (photon: \t00 | 00101, electron: \t10 | 00010, positron: \t01 | 11000)\n",
" (photon: \t00 | 00101, electron: \t01 | 01010, positron: \t10 | 10000)\n",
" (photon: \t00 | 00110, electron: \t11 | 00000, positron: \t00 | 11001)\n",
" (photon: \t00 | 00110, electron: \t10 | 00001, positron: \t01 | 11000)\n",
" (photon: \t00 | 00110, electron: \t01 | 10001, positron: \t10 | 01000)\n",
" (photon: \t00 | 00110, electron: \t01 | 01001, positron: \t10 | 10000)\n",
" (photon: \t00 | 01001, electron: \t01 | 10010, positron: \t10 | 00100)\n",
" (photon: \t00 | 01001, electron: \t11 | 00000, positron: \t00 | 10110)\n",
" ⋮\n",
" (photon: \t10 | 00000, electron: \t01 | 10010, positron: \t00 | 01101)\n",
" (photon: \t10 | 00000, electron: \t01 | 00110, positron: \t00 | 11001)\n",
" (photon: \t10 | 00000, electron: \t00 | 00111, positron: \t01 | 11000)\n",
" (photon: \t10 | 00000, electron: \t00 | 01011, positron: \t01 | 10100)\n",
" (photon: \t10 | 00000, electron: \t01 | 10001, positron: \t00 | 01110)\n",
" (photon: \t10 | 00000, electron: \t00 | 10011, positron: \t01 | 01100)\n",
" (photon: \t10 | 00000, electron: \t01 | 01001, positron: \t00 | 10110)\n",
" (photon: \t10 | 00000, electron: \t01 | 00101, positron: \t00 | 11010)\n",
" (photon: \t10 | 00000, electron: \t01 | 01010, positron: \t00 | 10101)"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"triples = FeynmanDiagramGenerator.total_particle_triples(all_particles)"
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"s: 252, should be: 252\n",
"number of triples: 81\n"
]
},
{
"data": {
"text/plain": [
"81-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n",
" (photon: \t10 | 00000, electron: \t00 | 00111, positron: \t01 | 11000)\n",
" (photon: \t10 | 00000, electron: \t00 | 01011, positron: \t01 | 10100)\n",
" (photon: \t10 | 00000, electron: \t00 | 10011, positron: \t01 | 01100)\n",
" (photon: \t10 | 00000, electron: \t01 | 00101, positron: \t00 | 11010)\n",
" (photon: \t10 | 00000, electron: \t01 | 00110, positron: \t00 | 11001)\n",
" (photon: \t10 | 00000, electron: \t01 | 01001, positron: \t00 | 10110)\n",
" (photon: \t10 | 00000, electron: \t01 | 01010, positron: \t00 | 10101)\n",
" (photon: \t10 | 00000, electron: \t01 | 10001, positron: \t00 | 01110)\n",
" (photon: \t10 | 00000, electron: \t01 | 10010, positron: \t00 | 01101)\n",
" (photon: \t00 | 00101, electron: \t10 | 00010, positron: \t01 | 11000)\n",
" ⋮\n",
" (photon: \t11 | 00100, electron: \t00 | 10011, positron: \t00 | 01000)\n",
" (photon: \t11 | 01000, electron: \t00 | 00001, positron: \t00 | 10110)\n",
" (photon: \t11 | 01000, electron: \t00 | 00010, positron: \t00 | 10101)\n",
" (photon: \t11 | 01000, electron: \t00 | 00111, positron: \t00 | 10000)\n",
" (photon: \t11 | 01000, electron: \t00 | 10011, positron: \t00 | 00100)\n",
" (photon: \t11 | 10000, electron: \t00 | 00001, positron: \t00 | 01110)\n",
" (photon: \t11 | 10000, electron: \t00 | 00010, positron: \t00 | 01101)\n",
" (photon: \t11 | 10000, electron: \t00 | 00111, positron: \t00 | 01000)\n",
" (photon: \t11 | 10000, electron: \t00 | 01011, positron: \t00 | 00100)"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"function n(vp::VirtualParticle)\n",
" if !haskey(pairs, vp)\n",
" return 1\n",
" end\n",
" s = 0\n",
" for (l, r) in pairs[vp]\n",
" s += n(l) * n(r)\n",
" end\n",
" return s\n",
"end\n",
"\n",
"s = 0\n",
"for (ph, e, p) in triples\n",
" s += n(ph) * n(e) * n(p)\n",
"end\n",
"\n",
"println(\"s: $s, should be: $(length(feynman_diagrams(proc)))\")\n",
"println(\"number of triples: $(length(triples))\")\n",
"\n",
"sort(triples)"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"Graph:\n",
" Nodes: Total: 23250, FeynmanDiagramGenerator.ComputeTask_CollectTriples: 128, FeynmanDiagramGenerator.ComputeTask_Pair: 492, \n",
" FeynmanDiagramGenerator.ComputeTask_BaseState: 14, MetagraphOptimization.DataTask: 11653, FeynmanDiagramGenerator.ComputeTask_Triple: 10368, \n",
" FeynmanDiagramGenerator.ComputeTask_PropagatePairs: 276, FeynmanDiagramGenerator.ComputeTask_CollectPairs: 276, FeynmanDiagramGenerator.ComputeTask_Propagator: 42, \n",
" FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation: 1\n",
" Edges: 55281\n",
" Total Compute Effort: 0.0\n",
" Total Data Transfer: 0.0\n",
" Total Compute Intensity: 0.0\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"graph = generate_DAG(proc)"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"mock_machine (generic function with 1 method)"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"using MetagraphOptimization\n",
"using UUIDs\n",
"\n",
"function mock_machine()\n",
" return Machine(\n",
" [\n",
" MetagraphOptimization.NumaNode(\n",
" 0,\n",
" 1,\n",
" MetagraphOptimization.default_strategy(MetagraphOptimization.NumaNode),\n",
" -1.0,\n",
" UUIDs.uuid1(),\n",
" ),\n",
" ],\n",
" [-1.0;;],\n",
" )\n",
"end"
]
},
{
"cell_type": "code",
"execution_count": 8,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Electron, Positron, Positron}, Tuple{AllPolarization, AllSpin}, NTuple{5, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"psp = PhaseSpacePoint(\n",
" proc, \n",
" PerturbativeQED(), \n",
" PhasespaceDefinition(SphericalCoordinateSystem(), ElectronRestFrame()), \n",
" tuple((rand(SFourMomentum) for _ in 1:number_incoming_particles(proc))...),\n",
" tuple((rand(SFourMomentum) for _ in 1:number_outgoing_particles(proc))...)\n",
")\n",
"typeof(psp)"
]
},
{
"cell_type": "code",
"execution_count": 9,
"metadata": {},
"outputs": [],
"source": [
"using MetagraphOptimization: unpack_identity\n",
"\n",
"func = eval(get_compute_function(graph, proc, mock_machine()))\n",
"\n",
"func(psp)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"using BenchmarkTools\n",
"\n",
"@benchmark func($psp)"
]
}
],
"metadata": {
"kernelspec": {
"display_name": "Julia 1.10.4",
"language": "julia",
"name": "julia-1.10"
},
"language_info": {
"file_extension": ".jl",
"mimetype": "application/julia",
"name": "julia",
"version": "1.10.4"
}
},
"nbformat": 4,
"nbformat_minor": 2
}
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