| /* Copyright (c) 2012 Massachusetts Institute of Technology |
| * |
| * Permission is hereby granted, free of charge, to any person obtaining a copy |
| * of this software and associated documentation files (the "Software"), to deal |
| * in the Software without restriction, including without limitation the rights |
| * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell |
| * copies of the Software, and to permit persons to whom the Software is |
| * furnished to do so, subject to the following conditions: |
| * |
| * The above copyright notice and this permission notice shall be included in |
| * all copies or substantial portions of the Software. |
| * |
| * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
| * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
| * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE |
| * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
| * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN |
| * THE SOFTWARE. |
| */ |
| |
| #include "model/electrical/TestModel.h" |
| |
| #include <cmath> |
| |
| #include "model/std_cells/StdCell.h" |
| #include "model/std_cells/StdCellLib.h" |
| #include "model/electrical/RippleAdder.h" |
| #include "model/electrical/Multiplexer.h" |
| #include "model/timing_graph/ElectricalNet.h" |
| #include "model/timing_graph/ElectricalDriver.h" |
| #include "model/timing_graph/ElectricalLoad.h" |
| #include "model/timing_graph/ElectricalTimingTree.h" |
| |
| namespace DSENT |
| { |
| TestModel::TestModel(const String& instance_name_, const TechModel* tech_model_) |
| : ElectricalModel(instance_name_, tech_model_) |
| { |
| initProperties(); |
| } |
| |
| TestModel::~TestModel() |
| {} |
| |
| void TestModel::initProperties() |
| { |
| return; |
| } |
| |
| TestModel* TestModel::clone() const |
| { |
| return NULL; |
| } |
| |
| void TestModel::constructModel() |
| { |
| unsigned int num_bits = 64; |
| unsigned int mux_bits = 1; |
| |
| // Create the instance |
| createNet("CK"); |
| createNet("CI"); |
| getNet("CI")->setDistributedCap(100e-15); |
| getNet("CI")->setDistributedRes(10); |
| createNet("CO"); |
| createNet("A", makeNetIndex(0, num_bits - 1)); |
| createNet("B", makeNetIndex(0, num_bits - 1)); |
| createNet("S", makeNetIndex(0, num_bits - 1)); |
| |
| StdCell* ci_reg = getTechModel()->getStdCellLib()->createStdCell("DFFQ", "DFFQ-CI"); |
| ci_reg->setProperty("P(D)", 0.5); |
| ci_reg->setProperty("P(CK)", 0.5); |
| ci_reg->construct(); |
| portConnect(ci_reg, "Q", "CI"); |
| portConnect(ci_reg, "CK", "CK"); |
| //ci_reg->connect("Q", getNet("CI")); |
| //ci_reg->connect("CK", getNet("CK")); |
| addSubInstances(ci_reg, 1.0); |
| |
| StdCell* co_reg = getTechModel()->getStdCellLib()->createStdCell("DFFQ", "DFFQ-CO"); |
| co_reg->setProperty("P(D)", 0.5); |
| co_reg->setProperty("P(CK)", 0.5); |
| co_reg->construct(); |
| portConnect(co_reg, "D", "CO"); |
| portConnect(co_reg, "CK", "CK"); |
| //co_reg->connect("D", getNet("CO")); |
| //co_reg->connect("CK", getNet("CK")); |
| addSubInstances(co_reg, 1.0); |
| |
| for (unsigned int i = 0; i < num_bits; i++) |
| { |
| StdCell* a_reg = getTechModel()->getStdCellLib()->createStdCell("DFFQ", "DFFQ-A[" + (String) i + "]"); |
| a_reg->setProperty("P(D)", 0.5); |
| a_reg->setProperty("P(CK)", 0.5); |
| a_reg->construct(); |
| portConnect(a_reg, "Q", "A", makeNetIndex(i)); |
| portConnect(a_reg, "CK", "CK"); |
| //a_reg->connect("Q", getNet("A[" + (String) i + "]")); |
| //a_reg->connect("CK", getNet("CK")); |
| addSubInstances(a_reg, 1.0); |
| |
| StdCell* b_reg = getTechModel()->getStdCellLib()->createStdCell("DFFQ", "DFFQ-B[" + (String) i + "]"); |
| b_reg->setProperty("P(D)", 0.5); |
| b_reg->setProperty("P(CK)", 0.5); |
| b_reg->construct(); |
| portConnect(b_reg, "Q", "B", makeNetIndex(i)); |
| portConnect(b_reg, "CK", "CK"); |
| //b_reg->connect("Q", getNet("B[" + (String) i + "]")); |
| //b_reg->connect("CK", getNet("CK")); |
| addSubInstances(b_reg, 1.0); |
| |
| StdCell* s_reg = getTechModel()->getStdCellLib()->createStdCell("DFFQ", "DFFQ-S[" + (String) i + "]"); |
| s_reg->setProperty("P(D)", 0.5); |
| s_reg->setProperty("P(CK)", 0.5); |
| s_reg->construct(); |
| portConnect(s_reg, "D", "S", makeNetIndex(i)); |
| portConnect(s_reg, "CK", "CK"); |
| //s_reg->connect("D", getNet("A[" + (String) i + "]")); |
| //s_reg->connect("CK", getNet("CK")); |
| addSubInstances(s_reg, 1.0); |
| } |
| |
| |
| //Create some adders! |
| |
| ElectricalModel* ripple_adder = new RippleAdder("Adder_1", getTechModel()); |
| ripple_adder->setParameter("NumberBits", num_bits); |
| ripple_adder->setProperty("P(A)", 0.5); |
| ripple_adder->setProperty("P(B)", 0.5); |
| ripple_adder->setProperty("P(CI)", 0.5); |
| |
| ripple_adder->construct(); |
| addSubInstances(ripple_adder, 1.0); |
| portConnect(ripple_adder, "CI", "CI"); |
| portConnect(ripple_adder, "CO", "CO"); |
| portConnect(ripple_adder, "A", "A"); |
| portConnect(ripple_adder, "B", "B"); |
| portConnect(ripple_adder, "S", "S"); |
| |
| ElectricalModel* multiplexer = new Multiplexer("Mux_1", getTechModel()); |
| multiplexer->setParameter("NumberInputs", 2); |
| multiplexer->setParameter("NumberBits", mux_bits); |
| multiplexer->setParameter("BitDuplicate", "FALSE"); |
| //multiplexer->setProperty("P(In)", "[0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5]"); |
| //multiplexer->setProperty("P(Sel)", "[0.5, 0.5, 0.5]"); |
| //multiplexer->setProperty("Act(In)", "[1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0]"); |
| //multiplexer->setProperty("Act(Sel)", "[2.0, 4.0, 8.0]"); |
| multiplexer->setProperty("P(In)", "[0.5, 0.5]"); |
| multiplexer->setProperty("P(Sel)", "[0.5]"); |
| multiplexer->setProperty("Act(In)", "[1.0, 1.0]"); |
| multiplexer->setProperty("Act(Sel)", "[1.0]"); |
| multiplexer->construct(); |
| |
| createNet("In0", makeNetIndex(0, mux_bits-1)); |
| createNet("In1", makeNetIndex(0, mux_bits-1)); |
| createNet("In2", makeNetIndex(0, mux_bits-1)); |
| createNet("In3", makeNetIndex(0, mux_bits-1)); |
| createNet("In4", makeNetIndex(0, mux_bits-1)); |
| createNet("Out", makeNetIndex(0, mux_bits-1)); |
| |
| portConnect(multiplexer, "In0", "In0"); |
| portConnect(multiplexer, "In1", "In1"); |
| //portConnect(multiplexer, "In2", "In2"); |
| //portConnect(multiplexer, "In3", "In3"); |
| //portConnect(multiplexer, "In4", "In4"); |
| portConnect(multiplexer, "Out", "Out"); |
| |
| for (unsigned int i = 0; i < mux_bits; ++i) |
| { |
| String n = (String) i; |
| |
| createLoad("OutLoad[" + n + "]"); |
| getLoad("OutLoad[" + n + "]")->setLoadCap(100e-15); |
| |
| getNet("Out", makeNetIndex(i))->addDownstreamNode(getLoad("OutLoad[" + n + "]")); |
| } |
| createNet("Sel", makeNetIndex(0, 2)); |
| assign("Sel", makeNetIndex(0), "CK"); |
| assign("Sel", makeNetIndex(1), "CK"); |
| assign("Sel", makeNetIndex(2), "CK"); |
| |
| //portConnect(multiplexer, "Sel", "Sel"); |
| |
| addSubInstances(multiplexer, 1.0); |
| |
| //ElectricalTimingAbstract* abstract = new ElectricalTimingAbstract("HAHAHA", getTechModel(), ripple_adder); |
| //abstract->buildAbstract(); |
| |
| return; |
| } |
| |
| void TestModel::updateModel() |
| { |
| Model::updateModel(); |
| |
| //ElectricalTimingTree* t = new ElectricalTimingTree("Add", this); |
| //t->performTimingOpt(getNet("CK"), 4.21300e-8); |
| //t->performTimingOpt(getNet("CK"), 1e-9); |
| //delete t; |
| |
| ElectricalTimingTree* t2 = new ElectricalTimingTree("Mux", this); |
| t2->performTimingOpt(getNet("In1", makeNetIndex(0)), 500e-12); |
| delete t2; |
| |
| |
| } |
| |
| void TestModel::evaluateModel() |
| { |
| Model::evaluateModel(); |
| |
| //ripple_adder->getNddPowerResult("LeakagePower")->print("RippleAdder->Leakage", 10, cout); |
| getSubInstance("Adder_1")->getNddPowerResult("Leakage")->print("RippleAdder->Leakage", 0, cout); |
| //ripple_adder->getAreaResult("TotalArea")->print("RippleAdder->TotalArea", 10, cout); |
| getSubInstance("Adder_1")->getAreaResult("Active")->print("RippleAdder->ActiveArea", 0, cout); |
| //ripple_adder->getEventResult("AddEvent")->print("RippleAdder->AddEvent", 10, cout); |
| getSubInstance("Adder_1")->getEventResult("Add")->print("RippleAdder->Add", 0, cout); |
| |
| getSubInstance("Mux_1")->getNddPowerResult("Leakage")->print("Multiplexer->Leakage", 0, cout); |
| getSubInstance("Mux_1")->getAreaResult("Active")->print("Multiplexer->ActiveArea", 0, cout); |
| getSubInstance("Mux_1")->getEventResult("Mux")->print("Multiplexer->MuxEvent", 0, cout); |
| cout << "Multiplexer->P(Out) = " << getSubInstance("Mux_1")->getGenProperties()->get("P(Out)") << endl; |
| |
| getSubInstance("DFFQ-CI")->getNddPowerResult("Leakage")->print("DFFQ-CI->Leakage", 0, cout); |
| getSubInstance("DFFQ-CI")->getAreaResult("Active")->print("DFFQ-CI->ActiveArea", 0, cout); |
| getSubInstance("DFFQ-CI")->getEventResult("DFF")->print("DFFQ-CI->DFF", 0, cout); |
| getSubInstance("DFFQ-CI")->getEventResult("CK")->print("DFFQ-CI->CK", 0, cout); |
| |
| //ripple_adder->getNddPowerResult("LeakagePower")->print("RippleAdder->Leakage", 10, cout); |
| getSubInstance("Adder_1")->getNddPowerResult("Leakage")->print("RippleAdder->Leakage", 0, cout); |
| //ripple_adder->getAreaResult("TotalArea")->print("RippleAdder->TotalArea", 10, cout); |
| getSubInstance("Adder_1")->getAreaResult("Active")->print("RippleAdder->ActiveArea", 0, cout); |
| //ripple_adder->getEventResult("AddEvent")->print("RippleAdder->AddEvent", 10, cout); |
| getSubInstance("Adder_1")->getEventResult("Add")->print("RippleAdder->AddEvent", 0, cout); |
| } |
| |
| } // namespace DSENT |
| |
