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OpenSTA/liberty/InternalPower.cc

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// OpenSTA, Static Timing Analyzer
// Copyright (c) 2025, Parallax Software, Inc.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
//
// The origin of this software must not be misrepresented; you must not
// claim that you wrote the original software.
//
// Altered source versions must be plainly marked as such, and must not be
// misrepresented as being the original software.
//
// This notice may not be removed or altered from any source distribution.
#include "InternalPower.hh"
#include "FuncExpr.hh"
#include "TableModel.hh"
#include "Liberty.hh"
#include "Units.hh"
namespace sta {
using std::string;
InternalPowerAttrs::InternalPowerAttrs() :
when_(nullptr),
models_{nullptr, nullptr},
related_pg_pin_(nullptr)
{
}
InternalPowerAttrs::~InternalPowerAttrs()
{
}
void
InternalPowerAttrs::deleteContents()
{
InternalPowerModel *rise_model = models_[RiseFall::riseIndex()];
InternalPowerModel *fall_model = models_[RiseFall::fallIndex()];
delete rise_model;
if (fall_model != rise_model)
delete fall_model;
if (when_)
when_->deleteSubexprs();
stringDelete(related_pg_pin_);
}
InternalPowerModel *
InternalPowerAttrs::model(const RiseFall *rf) const
{
return models_[rf->index()];
}
void
InternalPowerAttrs::setWhen(FuncExpr *when)
{
when_ = when;
}
void
InternalPowerAttrs::setModel(const RiseFall *rf,
InternalPowerModel *model)
{
models_[rf->index()] = model;
}
void
InternalPowerAttrs::setRelatedPgPin(const char *related_pg_pin)
{
stringDelete(related_pg_pin_);
related_pg_pin_ = stringCopy(related_pg_pin);
}
////////////////////////////////////////////////////////////////
InternalPower::InternalPower(LibertyCell *cell,
LibertyPort *port,
LibertyPort *related_port,
InternalPowerAttrs *attrs) :
port_(port),
related_port_(related_port),
when_(attrs->when()),
related_pg_pin_(attrs->relatedPgPin())
{
for (auto rf : RiseFall::range()) {
int rf_index = rf->index();
models_[rf_index] = attrs->model(rf);
}
cell->addInternalPower(this);
}
InternalPower::~InternalPower()
{
// models_, when_ and related_pg_pin_ are owned by InternalPowerAttrs.
}
LibertyCell *
InternalPower::libertyCell() const
{
return port_->libertyCell();
}
float
InternalPower::power(const RiseFall *rf,
const Pvt *pvt,
float in_slew,
float load_cap)
{
InternalPowerModel *model = models_[rf->index()];
if (model)
return model->power(libertyCell(), pvt, in_slew, load_cap);
else
return 0.0;
}
////////////////////////////////////////////////////////////////
InternalPowerModel::InternalPowerModel(TableModel *model) :
model_(model)
{
}
InternalPowerModel::~InternalPowerModel()
{
delete model_;
}
float
InternalPowerModel::power(const LibertyCell *cell,
const Pvt *pvt,
float in_slew,
float load_cap) const
{
if (model_) {
float axis_value1, axis_value2, axis_value3;
findAxisValues(in_slew, load_cap,
axis_value1, axis_value2, axis_value3);
return model_->findValue(cell, pvt, axis_value1, axis_value2, axis_value3);
}
else
return 0.0;
}
string
InternalPowerModel::reportPower(const LibertyCell *cell,
const Pvt *pvt,
float in_slew,
float load_cap,
int digits) const
{
if (model_) {
float axis_value1, axis_value2, axis_value3;
findAxisValues(in_slew, load_cap,
axis_value1, axis_value2, axis_value3);
const LibertyLibrary *library = cell->libertyLibrary();
return model_->reportValue("Power", cell, pvt, axis_value1, nullptr,
axis_value2, axis_value3,
library->units()->powerUnit(), digits);
}
return "";
}
void
InternalPowerModel::findAxisValues(float in_slew,
float load_cap,
// Return values.
float &axis_value1,
float &axis_value2,
float &axis_value3) const
{
switch (model_->order()) {
case 0:
axis_value1 = 0.0;
axis_value2 = 0.0;
axis_value3 = 0.0;
break;
case 1:
axis_value1 = axisValue(model_->axis1(), in_slew, load_cap);
axis_value2 = 0.0;
axis_value3 = 0.0;
break;
case 2:
axis_value1 = axisValue(model_->axis1(), in_slew, load_cap);
axis_value2 = axisValue(model_->axis2(), in_slew, load_cap);
axis_value3 = 0.0;
break;
case 3:
axis_value1 = axisValue(model_->axis1(), in_slew, load_cap);
axis_value2 = axisValue(model_->axis2(), in_slew, load_cap);
axis_value3 = axisValue(model_->axis3(), in_slew, load_cap);
break;
default:
axis_value1 = 0.0;
axis_value2 = 0.0;
axis_value3 = 0.0;
criticalError(225, "unsupported table order");
}
}
float
InternalPowerModel::axisValue(const TableAxis *axis,
float in_slew,
float load_cap) const
{
TableAxisVariable var = axis->variable();
if (var == TableAxisVariable::input_transition_time)
return in_slew;
else if (var == TableAxisVariable::total_output_net_capacitance)
return load_cap;
else {
criticalError(226, "unsupported table axes");
return 0.0;
}
}
bool
InternalPowerModel::checkAxes(const TableModel *model)
{
const TableAxis *axis1 = model->axis1();
const TableAxis *axis2 = model->axis2();
const TableAxis *axis3 = model->axis3();
bool axis_ok = true;
if (axis1)
axis_ok &= checkAxis(model->axis1());
if (axis2)
axis_ok &= checkAxis(model->axis2());
axis_ok &= (axis3 == nullptr);
return axis_ok;
}
bool
InternalPowerModel::checkAxis(const TableAxis *axis)
{
TableAxisVariable var = axis->variable();
return var == TableAxisVariable::constrained_pin_transition
|| var == TableAxisVariable::related_pin_transition
|| var == TableAxisVariable::related_out_total_output_net_capacitance;
}
} // namespace
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