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#include "model/std_cells/StdCellLib.h"
#include <cmath>
#include "model/std_cells/StdCell.h"
#include "model/std_cells/INV.h"
#include "model/ModelGen.h"
namespace DSENT
{
using std::pow;
StdCellLib::StdCellLib(TechModel* tech_model_)
: m_tech_model_(tech_model_)
{
m_std_cell_cache_ = new Map<double>();
ASSERT((m_tech_model_ != NULL), "[Error] StdCellLib -> tech_model is NULL");
createLib();
}
StdCellLib::~StdCellLib()
{
delete m_std_cell_cache_;
}
const TechModel* StdCellLib::getTechModel() const
{
return m_tech_model_;
}
StdCell* StdCellLib::createStdCell(const String& std_cell_name_, const String& instance_name_) const
{
// Create the standard cell
StdCell* created_cell = ModelGen::createStdCell(std_cell_name_, instance_name_, getTechModel());
// Grab the variants of each standard cell
String driving_strength_str = getTechModel()->get("StdCell->AvailableSizes");
// Set library properties for the standard cell
created_cell->setPToNRatio(getPToNRatio());
created_cell->setActiveHeight(getActiveHeight());
created_cell->setTotalHeight(getTotalHeight());
created_cell->setAvailableDrivingStrengths(driving_strength_str);
return created_cell;
}
// Get PMOS to NMOS ratio
double StdCellLib::getPToNRatio() const
{
return m_p_to_n_ratio_;
}
void StdCellLib::setPToNRatio(double p_to_n_ratio_)
{
m_p_to_n_ratio_ = p_to_n_ratio_;
}
// Get height of the standard cell taken by active transistors
double StdCellLib::getActiveHeight() const
{
return m_active_height_;
}
void StdCellLib::setActiveHeight(double active_height_)
{
m_active_height_ = active_height_;
}
// Get total height of the standard cell including overheads
double StdCellLib::getTotalHeight() const
{
return m_total_height_;
}
void StdCellLib::setTotalHeight(double total_height_)
{
m_total_height_ = total_height_;
}
void StdCellLib::createLib()
{
Log::printLine("Standard cell library creation for tech model " + getTechModel()->get("Name"));
// Get technology parameters
double nmos_eff_res = getTechModel()->get("Nmos->EffResWidth");
double pmos_eff_res = getTechModel()->get("Pmos->EffResWidth");
double gate_min_width = getTechModel()->get("Gate->MinWidth");
// Create standard cell common parameters
double pn_ratio = pmos_eff_res / nmos_eff_res;
double nmos_unit_width = gate_min_width;
double pmos_unit_width = gate_min_width * pn_ratio;
// Derive the height of each cell in the standard cell library, as well as the max Nmos and Pmos widths
double std_cell_total_height = getTechModel()->get("StdCell->Tracks").toDouble() *
(getTechModel()->get("Wire->Metal1->MinWidth").toDouble() + getTechModel()->get("Wire->Metal1->MinSpacing").toDouble());
double std_cell_active_height = std_cell_total_height / getTechModel()->get("StdCell->HeightOverheadFactor").toDouble();
Log::printLine("Standard cell P-to-N ratio (Beta) = " + (String) pn_ratio);
Log::printLine("Standard cell NMOS unit width = " + (String) nmos_unit_width);
Log::printLine("Standard cell PMOS unit width = " + (String) pmos_unit_width);
Log::printLine("Standard cell active height = " + (String) std_cell_active_height);
Log::printLine("Standard cell total height = " + (String) std_cell_total_height);
setPToNRatio(pn_ratio);
setActiveHeight(std_cell_active_height);
setTotalHeight(std_cell_total_height);
const vector<String>& cell_sizes = getTechModel()->get("StdCell->AvailableSizes").split("[,]");
// Create cached standard cells
for (unsigned int i = 0; i < cell_sizes.size(); ++i)
{
StdCell* inv = createStdCell("INV", "CachedINV");
inv->cacheStdCell(this, cell_sizes[i].toDouble());
delete inv;
StdCell* nand2 = createStdCell("NAND2", "CachedNAND2");
nand2->cacheStdCell(this, cell_sizes[i].toDouble());
delete nand2;
StdCell* nor2 = createStdCell("NOR2", "CachedNOR2");
nor2->cacheStdCell(this, cell_sizes[i].toDouble());
delete nor2;
StdCell* mux2 = createStdCell("MUX2", "CachedMUX2");
mux2->cacheStdCell(this, cell_sizes[i].toDouble());
delete mux2;
StdCell* xor2 = createStdCell("XOR2", "CachedXOR2");
xor2->cacheStdCell(this, cell_sizes[i].toDouble());
delete xor2;
StdCell* addf = createStdCell("ADDF", "CachedADDF");
addf->cacheStdCell(this, cell_sizes[i].toDouble());
delete addf;
StdCell* dffq = createStdCell("DFFQ", "CachedDFFQ");
dffq->cacheStdCell(this, cell_sizes[i].toDouble());
delete dffq;
StdCell* latq = createStdCell("LATQ", "CachedLATQ");
latq->cacheStdCell(this, cell_sizes[i].toDouble());
delete latq;
StdCell* or2 = createStdCell("OR2", "CachedOR2");
or2->cacheStdCell(this, cell_sizes[i].toDouble());
delete or2;
StdCell* and2 = createStdCell("AND2", "CachedAND2");
and2->cacheStdCell(this, cell_sizes[i].toDouble());
delete and2;
}
Log::printLine("Standard cell library creation - End");
return;
}
StdCellLib* StdCellLib::clone() const
{
StdCellLib* new_lib = new StdCellLib(m_tech_model_);
return new_lib;
}
const String StdCellLib::genDrivingStrengthString(const vector<double>& driving_strength_) const
{
String ret_str = "[";
for(int i = 0; i < (int)driving_strength_.size() - 1; ++i)
{
ret_str += String(driving_strength_[i]) + ", ";
}
ret_str += String(driving_strength_[driving_strength_.size() - 1]);
ret_str += "]";
return ret_str;
}
Map<double>* StdCellLib::getStdCellCache() const
{
return m_std_cell_cache_;
}
} // namespace DSENT
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