gem5/ext/dsent/model/electrical/OR.cc

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/* 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/OR.h"
#include <cmath>
#include "model/PortInfo.h"
#include "model/TransitionInfo.h"
#include "model/EventInfo.h"
#include "model/std_cells/StdCellLib.h"
#include "model/std_cells/StdCell.h"
#include "model/timing_graph/ElectricalNet.h"
namespace DSENT
{
using std::ceil;
using std::floor;
OR::OR(const String& instance_name_, const TechModel* tech_model_)
: ElectricalModel(instance_name_, tech_model_)
{
initParameters();
initProperties();
}
OR::~OR()
{}
void OR::initParameters()
{
addParameterName("NumberInputs");
addParameterName("NumberBits");
addParameterName("BitDuplicate", "TRUE");
return;
}
void OR::initProperties()
{
return;
}
OR* OR::clone() const
{
// TODO
return NULL;
}
void OR::constructModel()
{
// Get parameter
unsigned int number_inputs = getParameter("NumberInputs").toUInt();
unsigned int number_bits = getParameter("NumberBits").toUInt();
bool bit_duplicate = getParameter("BitDuplicate").toBool();
ASSERT(number_inputs > 0, "[Error] " + getInstanceName() +
" -> Number of inputs must be > 0!");
ASSERT(number_bits > 0, "[Error] " + getInstanceName() +
" -> Number of bits must be > 0!");
// Init ports
for(unsigned int i = 0; i < number_inputs; ++i)
{
createInputPort("In" + (String)i, makeNetIndex(0, number_bits-1));
}
createOutputPort("Out", makeNetIndex(0, number_bits-1));
// Number of inputs on the 0 side
unsigned int or0_number_inputs = (unsigned int)ceil((double)number_inputs / 2.0);
// Number of inputs on the 1 side
unsigned int or1_number_inputs = (unsigned int)floor((double)number_inputs / 2.0);
// Create area, power, and event results
createElectricalResults();
createElectricalEventResult("OR");
getEventInfo("Idle")->setStaticTransitionInfos();
//Depending on whether we want to create a 1-bit instance and have it multiplied
//up by number of bits or actually instantiate number_bits of 1-bit instances.
//Recursively instantiates smaller ors
if(bit_duplicate || number_bits == 1)
{
// If it is just a 1-input or, just connect output to input
if(number_inputs == 1)
{
assign("Out", "In0");
}
else
{
// If it is more than 1 input, instantiate two sub ors (OR_way0 and OR_way1)
// and create a final OR2 to OR them
const String& or0_name = "OR_way0";
const String& or1_name = "OR_way1";
const String& orf_name = "OR2_i" + (String)number_inputs;
OR* or0 = new OR(or0_name, getTechModel());
or0->setParameter("NumberInputs", or0_number_inputs);
or0->setParameter("NumberBits", 1);
or0->setParameter("BitDuplicate", "TRUE");
or0->construct();
OR* or1 = new OR(or1_name, getTechModel());
or1->setParameter("NumberInputs", or1_number_inputs);
or1->setParameter("NumberBits", 1);
or1->setParameter("BitDuplicate", "TRUE");
or1->construct();
StdCell* orf = getTechModel()->getStdCellLib()->createStdCell("OR2", orf_name);
orf->construct();
// Create outputs of way0 and way1 ors with final or
createNet("way0_Out");
createNet("way1_Out");
portConnect(or0, "Out", "way0_Out");
portConnect(or1, "Out", "way1_Out");
portConnect(orf, "A", "way0_Out");
portConnect(orf, "B", "way1_Out");
// Connect inputs to the sub ors.
for(unsigned int i = 0; i < or0_number_inputs; ++i)
{
createNet("way0_In" + (String)i);
portConnect(or0, "In" + (String)i, "way0_In" + (String)i);
assignVirtualFanin("way0_In" + (String)i, "In" + (String)i);
}
for(unsigned int i = 0; i < or1_number_inputs; ++i)
{
createNet("way1_In" + (String)i);
portConnect(or1, "In" + (String)i, "way1_In" + (String)i);
assignVirtualFanin("way1_In" + (String)i, "In" + (String)(i + or0_number_inputs));
}
// Connect outputs
createNet("OR2_Out");
portConnect(orf, "Y", "OR2_Out");
assignVirtualFanout("Out", "OR2_Out");
addSubInstances(or0, number_bits);
addElectricalSubResults(or0, number_bits);
addSubInstances(or1, number_bits);
addElectricalSubResults(or1, number_bits);
addSubInstances(orf, number_bits);
addElectricalSubResults(orf, number_bits);
Result* or_event = getEventResult("OR");
or_event->addSubResult(or0->getEventResult("OR"), or0_name, number_bits);
or_event->addSubResult(or1->getEventResult("OR"), or1_name, number_bits);
or_event->addSubResult(orf->getEventResult("OR2"), orf_name, number_bits);
}
}
else
{
// Init a bunch of 1-bit ors
Result* or_event = getEventResult("OR");
for(unsigned int n = 0; n < number_bits; ++n)
{
const String& or_name = "OR_bit" + (String)n;
OR* ors = new OR(or_name, getTechModel());
ors->setParameter("NumberInputs", number_inputs);
ors->setParameter("NumberBits", 1);
ors->setParameter("BitDuplicate", "TRUE");
ors->construct();
for(unsigned int i = 0; i < number_inputs; ++i)
{
portConnect(ors, "In" + (String)i, "In" + (String)i, makeNetIndex(n));
}
portConnect(ors, "Out", "Out", makeNetIndex(n));
addSubInstances(ors, 1.0);
addElectricalSubResults(ors, 1.0);
or_event->addSubResult(ors->getEventResult("OR"), or_name, 1.0);
}
}
return;
}
void OR::propagateTransitionInfo()
{
// Get parameters
unsigned int number_inputs = getParameter("NumberInputs").toUInt();
unsigned int number_bits = getParameter("NumberBits").toUInt();
bool bit_duplicate = getParameter("BitDuplicate").toBool();
// Number of inputs on 0 side
unsigned int or0_number_inputs = (unsigned int)ceil((double)number_inputs / 2.0);
unsigned int or1_number_inputs = (unsigned int)floor((double)number_inputs / 2.0);
if(bit_duplicate || number_bits == 1)
{
if(number_inputs == 1)
{
propagatePortTransitionInfo("Out", "In0");
}
else
{
ElectricalModel* or0 = (ElectricalModel*)getSubInstance("OR_way0");
for(unsigned int i = 0; i < or0_number_inputs; ++i)
{
propagatePortTransitionInfo(or0, "In" + (String)i, "In" + (String)i);
}
or0->use();
ElectricalModel* or1 = (ElectricalModel*)getSubInstance("OR_way1");
for(unsigned int i = 0; i < or1_number_inputs; ++i)
{
propagatePortTransitionInfo(or1, "In" + (String)i, "In" + (String)i);
}
or1->use();
ElectricalModel* orf = (ElectricalModel*)getSubInstance("OR2_i" + (String)number_inputs);
propagatePortTransitionInfo(orf, "A", or0, "Out");
propagatePortTransitionInfo(orf, "B", or1, "Out");
orf->use();
// Set output probability
propagatePortTransitionInfo("Out", orf, "Y");
}
}
else
{
for(unsigned int n = 0; n < number_bits; ++n)
{
ElectricalModel* or_bit = (ElectricalModel*)getSubInstance("OR_bit" + (String)n);
for(unsigned int i = 0; i < number_inputs; ++i)
{
propagatePortTransitionInfo(or_bit, "In" + (String)i, "In" + (String)i);
}
or_bit->use();
}
ElectricalModel* or_bit = (ElectricalModel*)getSubInstance("OR_bit0");
propagatePortTransitionInfo("Out", or_bit, "Out");
}
return;
}
} // namespace DSENT