ASL  0.1.7
Advanced Simulation Library
testSMPhiBV.cc
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2  * Advanced Simulation Library <http://asl.org.il>
3  *
4  * Copyright 2015 Avtech Scientific <http://avtechscientific.com>
5  *
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7  * This file is part of Advanced Simulation Library (ASL).
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22 
23 
29 #include <math/aslTemplates.h>
30 #include <aslGeomInc.h>
31 #include <aslDataInc.h>
32 #include <acl/aclGenerators.h>
34 #include <num/aslFDStefanMaxwell.h>
37 #include <num/aslBasicBC.h>
38 #include <utilities/aslTimer.h>
40 
41 typedef float FlT;
42 //typedef double FlT;
44 
45 using asl::AVec;
46 using asl::makeAVec;
47 
48 
49 int main(int argc, char* argv[])
50 {
51  // Optionally add appParamsManager to be able to manipulate at least
52  // hardware parameters(platform/device) through command line/parameters file
53  asl::ApplicationParametersManager appParamsManager("testSMPhiBV",
54  "1.0");
55  appParamsManager.load(argc, argv);
56 
57  Param dx(1.);
58  Param dt(1.);
59  Param diffCoef(.15);
60 
61  Param diffCoefNum(diffCoef.v()*dt.v()/dx.v()/dx.v());
62 
63  AVec<int> size(asl::makeAVec(10,20,20));
64 
65  auto gSize(dx.v()*AVec<>(size));
66 
67  std::cout << "Data initialization... ";
68 
69  asl::Block block(size,dx.v());
70 
71  auto c1Field(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
72  asl::initData(c1Field, 0.5);
73  auto c2Field(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
74  asl::initData(c2Field, 0.5);
75  auto c1aField(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
76  asl::initData(c1aField, 0.5);
77 
78  auto phiField(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
79  asl::initData(phiField, 0.5);
80 
81  auto phiSField(asl::generateDataContainerACL_SP<FlT>(block, 1, 1u));
82  asl::initData(phiSField, 0.);
83 
84  std::cout << "Finished" << endl;
85 
86  std::cout << "Numerics initialization... ";
87 
88  auto templ(&asl::d3q7());
89  auto nm(generateFDStefanMaxwell(c1Field, c2Field, diffCoefNum.v(), templ));
90  nm->setDustDiffusionCoefficient(0,acl::generateVEConstant(diffCoefNum.v()*.5));
91  nm->setDustDiffusionCoefficient(1,acl::generateVEConstant(diffCoefNum.v()));
92  nm->setElectricField(asl::generateDataContainer_SP(block,
93  phiField->getEContainer()*1e5/8.31/300,
94  1u));
95  nm->setCharge(0,acl::generateVEConstant(-2.));
96  nm->setCharge(1,acl::generateVEConstant(0.));
97  nm->init();
98 
99  auto nmA(generateFDAdvectionDiffusion(c1aField, diffCoefNum.v(), templ));
100  nmA->init();
101 
102  auto nmPhi(make_shared<asl::FDStefanMaxwellElectricField>(nm, phiField));
103  nmPhi->setPhiS(asl::generateDataContainer_SP(block,
104  -phiSField->getEContainer()*.1,
105  1u));
106  nmPhi->init();
107 
108  auto nmBV(generateFDBVKinetics(c1aField, -1., c1Field, 1., phiSField,
110  phiField->getEContainer()+.2,
111  1u),
112  1., .5, 1.));
113  nmBV->addAI(c2Field, -1);
114  nmBV->init();
115 
116  std::vector<asl::SPNumMethod> bc;
117  std::vector<asl::SPNumMethod> bcPhi;
118 
119  bc.push_back(asl::generateBCConstantGradient(c1Field, 0, templ, {asl::XE,asl::Y0,asl::YE,asl::Z0,asl::ZE}));
120  bc.push_back(asl::generateBCConstantValue(c1Field, 0., {asl::X0}));
121  bc.push_back(asl::generateBCConstantGradient(c2Field, 0, templ, {asl::XE,asl::Y0,asl::YE,asl::Z0,asl::ZE}));
122  bc.push_back(asl::generateBCConstantValue(c2Field, 1, {asl::X0}));
123  bc.push_back(asl::generateBCConstantGradient(c1aField, 0, templ, {asl::X0,asl::Y0,asl::YE,asl::Z0,asl::ZE}));
124  bc.push_back(asl::generateBCConstantValue(c1aField, 1, {asl::XE}));
125  initAll(bc);
126  bcPhi.push_back(asl::generateBCConstantGradient(phiField, 0, templ, {asl::XE,asl::Y0,asl::YE,asl::Z0,asl::ZE}));
127  bcPhi.push_back(asl::generateBCConstantValue(phiField, 0, {asl::X0}));
128  initAll(bcPhi);
129 
130  std::cout << "Finished" << endl;
131  std::cout << "Computing..." << flush;
132  asl::Timer timer;
133 
134  asl::WriterVTKXML writer(appParamsManager.getDir() + "testSMPhiBV");
135  writer.addScalars("c1", *c1Field);
136  writer.addScalars("c2", *c2Field);
137  writer.addScalars("c1a", *c1aField);
138  writer.addScalars("phi", *phiField);
139  writer.addScalars("phiS", *phiSField);
140 
141  executeAll(bc);
142  executeAll(bcPhi);
143  writer.write();
144 
145  timer.start();
146  for (unsigned int i(1); i < 401; ++i)
147  {
148  for (unsigned int j(0); j<50; ++j)
149  {
150  nmBV->executeJ();
151  nmPhi->execute();
152  executeAll(bcPhi);
153  }
154  nm->execute();
155  nmA->execute();
156  nmBV->execute();
157  executeAll(bc);
158  if (!(i%40))
159  {
160  cout << i << endl;
161  writer.write();
162  }
163  }
164  timer.stop();
165 
166  cout << "Finished" << endl;
167 
168  cout << "Computation statistic:" << endl;
169  cout << "Real Time = " << timer.realTime() << "; Processor Time = "
170  << timer.processorTime() << "; Processor Load = "
171  << timer.processorLoad() * 100 << "%" << endl;
172 
173  return 0;
174 }
float FlT
Definition: testSMPhiBV.cc:41
const double realTime() const
Definition: aslTimer.h:45
SPFDBVKinetics generateFDBVKinetics(SPDataWithGhostNodesACLData a0, double n0, SPDataWithGhostNodesACLData aI, double nI, SPDataWithGhostNodesACLData phiS, SPAbstractDataWithGhostNodes phi, double j0, double beta, double n)
const double processorTime() const
Definition: aslTimer.h:46
AVec< T > makeAVec(T a1)
SPFDStefanMaxwell generateFDStefanMaxwell(SPDataWithGhostNodesACLData c1, SPDataWithGhostNodesACLData c2, double diffustionCoeff, SPAbstractDataWithGhostNodes v, const VectorTemplate *vt)
SPDataWrapperACL generateDataContainer_SP(const Block &b, const acl::VectorOfElements &a)
const T & v() const
Definition: aslUValue.h:43
void initAll(std::vector< T * > &v)
Definition: aslNumMethod.h:67
std::string getDir()
asl::UValue< double > Param
Definition: testSMPhiBV.cc:43
int main(int argc, char *argv[])
Definition: testSMPhiBV.cc:49
cl_int flush(void)
Definition: cl.hpp:7042
SPFDAdvectionDiffusion generateFDAdvectionDiffusion(SPDataWithGhostNodesACLData c, double diffustionCoeff, SPAbstractDataWithGhostNodes v, const VectorTemplate *vt, bool compressibilityCorrection=false)
acl::VectorOfElements dx(const TemplateVE &a)
differential operator
void initData(SPAbstractData d, double a)
SPBCond generateBCConstantGradient(SPAbstractDataWithGhostNodes d, double v, const VectorTemplate *const t, const std::vector< SlicesNames > &sl)
Bondary condition that makes fixed gradient.
void executeAll(std::vector< T * > &v)
Definition: aslNumMethod.h:55
void addScalars(std::string name, AbstractData &data)
void stop()
Definition: aslTimer.h:44
void start()
Definition: aslTimer.h:43
VectorOfElements generateVEConstant(T a)
Generates VectorOfElements with 1 Element acl::Constant with value a.
SPBCond generateBCConstantValue(SPAbstractDataWithGhostNodes d, double v, const std::vector< SlicesNames > &sl)
Bondary condition that puts fixed value in each point.
const VectorTemplate & d3q7()
Vector template.
void load(int argc, char *argv[])
const double processorLoad() const
Definition: aslTimer.h:47