coriolis/anabatic/src/LayerAssign.cpp

991 lines
31 KiB
C++

// -*- C++ -*-
//
// This file is part of the Coriolis Software.
// Copyright (c) UPMC 2008-2018, All Rights Reserved
//
// +-----------------------------------------------------------------+
// | C O R I O L I S |
// | A n a b a t i c - Routing Toolbox |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./LayerAssign.cpp" |
// +-----------------------------------------------------------------+
#include <cstdlib>
#include <sstream>
#include "hurricane/Bug.h"
#include "hurricane/Warning.h"
#include "hurricane/DebugSession.h"
#include "hurricane/Net.h"
#include "hurricane/NetExternalComponents.h"
#include "hurricane/NetRoutingProperty.h"
#include "hurricane/Layer.h"
#include "hurricane/RoutingPad.h"
#include "hurricane/Pad.h"
#include "hurricane/Plug.h"
#include "hurricane/Instance.h"
#include "hurricane/Vertical.h"
#include "hurricane/Horizontal.h"
#include "hurricane/Cell.h"
#include "crlcore/RoutingGauge.h"
#include "anabatic/AutoContactTerminal.h"
#include "anabatic/AutoSegment.h"
#include "anabatic/AnabaticEngine.h"
namespace {
using namespace std;
using namespace CRL;
using namespace Hurricane;
using namespace Anabatic;
class SortRpByX {
public:
inline SortRpByX ();
inline bool operator() ( RoutingPad* rp1, RoutingPad* rp2 );
};
inline SortRpByX::SortRpByX ()
{ }
inline bool SortRpByX::operator() ( RoutingPad* rp1, RoutingPad* rp2 )
{
DbU::Unit x1 = rp1->getCenter().getX();
DbU::Unit x2 = rp2->getCenter().getX();
if (x1 == x2) return false;
return (x1 < x2);
}
// -----------------------------------------------------------------
// Class : "RpsInRow".
class RpsInRow {
public:
class Compare {
public:
bool operator() ( const RpsInRow* lhs, const RpsInRow* rhs ) const;
};
public:
inline RpsInRow ( RoutingPad*, AnabaticEngine* );
inline const vector<RoutingPad*>& getRps () const;
inline size_t getSouth () const;
inline size_t getNorth () const;
inline const Interval& getRpsHSpan () const;
inline const Interval& getRpsVSpan () const;
void slacken ();
private:
void _findTopology ();
inline void _merge ( RoutingPad* );
private:
AnabaticEngine* _anabatic;
vector<RoutingPad*> _rps;
size_t _north;
size_t _south;
Interval _hSpan;
Interval _vSpan;
};
inline RpsInRow::RpsInRow ( RoutingPad* seed, AnabaticEngine* anabatic )
: _anabatic(anabatic)
, _rps ()
, _north (0)
, _south (0)
, _hSpan ()
, _vSpan ( false )
{
_rps.push_back( seed );
_findTopology();
}
inline const vector<RoutingPad*>& RpsInRow::getRps () const { return _rps; }
inline size_t RpsInRow::getSouth () const { return _south; }
inline size_t RpsInRow::getNorth () const { return _north; }
inline const Interval& RpsInRow::getRpsHSpan () const { return _hSpan; }
inline const Interval& RpsInRow::getRpsVSpan () const { return _vSpan; }
bool RpsInRow::Compare::operator() ( const RpsInRow* lhs, const RpsInRow* rhs ) const
{
if ( (lhs->_rps.size() == 2) and (rhs->_rps.size() != 2) ) return true;
if ( (lhs->_rps.size() != 2) and (rhs->_rps.size() == 2) ) return false;
if ( lhs->_rps.size() != rhs->_rps.size() ) return lhs->_rps.size() < rhs->_rps.size();
size_t lhsNs = lhs->_south + lhs->_north;
size_t rhsNs = rhs->_south + rhs->_north;
if (lhsNs != rhsNs) return lhsNs < rhsNs;
if (lhs->_vSpan != rhs->_vSpan) return lhs->_vSpan.getSize() < rhs->_vSpan.getSize();
if (lhs->_hSpan != rhs->_hSpan) return lhs->_hSpan.getSize() < rhs->_hSpan.getSize();
return lhs->_rps[0]->getId() < rhs->_rps[0]->getId();
}
inline void RpsInRow::_merge ( RoutingPad* rp )
{
if (rp != _rps[0]) _rps.push_back( rp );
Box bb ( _rps.back()->getBoundingBox() );
_hSpan.merge( bb.getCenter().getX() );
_vSpan.intersection( bb.getYMin(), bb.getYMax() );
}
void RpsInRow::_findTopology ()
{
cdebug_log(146,1) << "RpsInRow::findTopology() - " << _rps[0] << endl;
_merge( _rps[0] );
AutoSegmentStack stack;
for ( Component* component : _rps[0]->getSlaveComponents() ) {
cdebug_log(146,0) << "slave component: " << component << endl;
AutoContact* rpContact = Session::lookup( dynamic_cast<Contact*>(component) );
if (rpContact) {
cdebug_log(146,0) << "Start rp: " << rpContact << endl;
for ( AutoSegment* segment : rpContact->getAutoSegments() ) {
cdebug_log(146,0) << "Examining: " << segment << endl;
AutoContact* target = segment->getOppositeAnchor(rpContact);
if (target) {
if (segment->isHorizontal()) {
stack.push( target, segment );
} else {
if (segment->isLocal()) {
stack.push( target, segment );
} else {
if (segment->getAutoSource() == rpContact) ++_north;
else ++_south;
}
}
}
}
// Find Rps in same horizontal GCell range.
cdebug_log(146,0) << "Find Rps in same horizontal GCell range" << endl;
while ( not stack.isEmpty() ) {
AutoSegment* from = stack.getAutoSegment();
AutoContact* contact = stack.getAutoContact();
stack.pop();
for ( AutoSegment* segment : contact->getAutoSegments() ) {
if (segment == from) continue;
if (segment->isVertical() and not segment->isLocal()) {
if (segment->getAutoSource() == contact) ++_north;
else ++_south;
continue;
}
AutoContact* target = segment->getOppositeAnchor( contact );
AutoContactTerminal* terminal = dynamic_cast<AutoContactTerminal*>( target );
if (terminal) {
_merge( terminal->getRoutingPad() );
}
stack.push( target, segment );
}
}
}
}
sort( _rps.begin(), _rps.end(), SortRpByX() );
cdebug_log(146,0) << "findHAlignedsRps() - Exit" << endl;
cdebug_tabw(146,-1);
}
void RpsInRow::slacken ()
{
cdebug_log(149,1) << "RpsInRow::slacken()" << endl;
for ( RoutingPad* rp : _rps ) {
cdebug_log(149,0) << "Slacken from: " << rp << endl;
if (rp->getLayer()) {
if (_anabatic->getConfiguration()->getLayerDepth(rp->getLayer()) == 1)
cdebug_log(149,0) << "In METAL2, skiping" << endl;
continue;
}
for ( Component* component : rp->getSlaveComponents() ) {
AutoContact* rpContact = Session::lookup( dynamic_cast<Contact*>(component) );
if (rpContact) {
cdebug_log(149,0) << "+ " << rpContact << endl;
for ( AutoSegment* segment : rpContact->getAutoSegments() ) {
cdebug_log(149,0) << "| " << segment << endl;
if (segment->isVertical()) {
if (segment->getDepth() == 1) {
cdebug_log(149,0) << "| Slacken: " << segment << endl;
segment->changeDepth( 2, Flags::NoFlags );
cdebug_log(149,0) << "| After Slacken: " << segment << endl;
}
} else {
segment->makeDogleg( rpContact->getGCell() );
cdebug_log(149,0) << "| Make dogleg: " << segment << endl;
}
}
}
}
}
cdebug_tabw(149,-1);
}
// -----------------------------------------------------------------
// Class : "GCellRps".
class GCellRps {
public:
class Compare {
public:
bool operator() ( const GCellRps* lhs, const GCellRps* rhs ) const;
};
public:
GCellRps ( GCell*, AnabaticEngine* );
~GCellRps ();
inline GCell* getGCell () const;
inline size_t add ( RoutingPad* );
inline void consolidate ();
inline RpsInRow* getRpsInRow ( size_t i );
inline const vector<RpsInRow*>& getRpsInRows () const;
private:
AnabaticEngine* _anabatic;
GCell* _gcell;
vector<RpsInRow*> _rpsInRows;
};
GCellRps::GCellRps ( GCell* gcell, AnabaticEngine* anabatic )
: _anabatic (anabatic)
, _gcell (gcell)
, _rpsInRows()
{ }
GCellRps::~GCellRps ()
{
for ( RpsInRow* elem : _rpsInRows ) delete elem;
}
inline GCell* GCellRps::getGCell () const { return _gcell; }
inline size_t GCellRps::add ( RoutingPad* rp )
{
_rpsInRows.push_back( new RpsInRow(rp,_anabatic) );
return _rpsInRows.size() - 1;
}
inline void GCellRps::consolidate ()
{
sort( _rpsInRows.begin(), _rpsInRows.end(), RpsInRow::Compare() );
}
inline RpsInRow* GCellRps::getRpsInRow ( size_t i ) { return _rpsInRows[i]; }
inline const vector<RpsInRow*>& GCellRps::getRpsInRows () const { return _rpsInRows; }
bool GCellRps::Compare::operator() ( const GCellRps* lhs, const GCellRps* rhs ) const
{ return lhs->getGCell()->getId() < rhs->getGCell()->getId(); }
} // Anonymous namespace.
namespace Anabatic {
using Hurricane::DebugSession;
using Hurricane::ForEachIterator;
using Hurricane::Error;
using Hurricane::Warning;
using Hurricane::NetRoutingExtension;
void AnabaticEngine::_desaturate ( unsigned int depth
, set<Net*>& globalNets
, unsigned long& total
, unsigned long& globals )
{
if (depth+2 > Session::getConfiguration()->getAllowedDepth()) {
cerr << Warning("Anabatic::_desaturate(): %s, no remaining upper layers."
,getString(Session::getRoutingGauge()->getRoutingLayer(depth)->getName()).c_str()
) << endl;
return;
}
cmess1 << " o Desaturate layer "
<< Session::getRoutingGauge()->getRoutingLayer(depth)->getName() << endl;
GCellDensitySet queue ( depth, getGCells() );
GCell::Set invalidateds;
bool optimized = true;
while ( optimized ) {
Session::revalidate ();
optimized = false;
queue.requeue ();
std::set<GCell*,GCell::CompareByKey>::const_iterator igcell = queue.getGCells().begin();
size_t i = 0;
for ( ; igcell!=queue.getGCells().end() ; ++igcell, ++i ) {
cdebug_log(149,0) << "_desaturate: [" << depth << "]:"
<< (*igcell)->getDensity(depth) << " " << *igcell << endl;
if (not (*igcell)->isSaturated(depth)) {
cdebug_log(149,0) << "STOP desaturated: @" << i << " " << *igcell << endl;
for ( ; igcell!=queue.getGCells().end() ; ++igcell ) {
if ( (*igcell)->isSaturated( depth ) ) {
cparanoid << "[ERROR] Still saturated: @" << i << " " << *igcell << endl;
break;
}
}
break;
}
optimized = (*igcell)->stepNetDesaturate( depth, globalNets, invalidateds );
if ( optimized ) {
for ( GCell::Set::iterator igcell=invalidateds.begin() ; igcell!=invalidateds.end() ; ++igcell ) {
queue.unqueue( *igcell );
}
break;
}
}
}
}
void AnabaticEngine::_layerAssignByLength ( Net* net, unsigned long& total, unsigned long& global, set<Net*>& globalNets )
{
DebugSession::open ( net, 140, 150 );
cdebug_log(149,0) << "Anabatic::_layerAssignByLength( " << net << " )" << endl;
cdebug_tabw(145,1);
bool isGlobal = false;
set<AutoContact*> globalContacts;
forEach ( Segment*, isegment, net->getSegments() ) {
total++;
if ( (*isegment)->getLength() > getGlobalThreshold() ) {
if (not isGlobal) {
isGlobal = true;
globalNets.insert( net );
}
global++;
if ((*isegment)->getLayer() == Session::getRoutingLayer(1)) {
(*isegment)->setLayer( Session::getRoutingLayer(3) );
(*isegment)->setWidth( Session::getWireWidth (3) );
}
if ((*isegment)->getLayer() == Session::getRoutingLayer(2)) {
(*isegment)->setLayer( Session::getRoutingLayer(4) );
(*isegment)->setWidth( Session::getWireWidth (4) );
}
}
}
cdebug_tabw(145,-1);
DebugSession::close();
}
void AnabaticEngine::_layerAssignByLength ( unsigned long& total, unsigned long& global, set<Net*>& globalNets )
{
cmess1 << " o Assign Layer (simple wirelength)." << endl;
forEach ( Net* , inet , getCell()->getNets() ) {
if (NetRoutingExtension::get(*inet)->isAutomaticGlobalRoute()) {
_layerAssignByLength ( *inet, total, global, globalNets );
}
} // forEach(Net*)
}
void AnabaticEngine::_layerAssignByTrunk ( Net* net, set<Net*>& globalNets, unsigned long& total, unsigned long& global )
{
DebugSession::open( net, 145, 150 );
cdebug_log(149,0) << "Anabatic::_layerAssignByTrunk ( " << net << " )" << endl;
cdebug_tabw(145,1);
bool isGlobal = false;
unsigned long netGlobal = 0;
unsigned long netTotal = 0;
set<AutoContact*> globalContacts;
forEach ( Segment*, isegment, net->getSegments() ) {
netTotal++;
if ((*isegment)->getLength() > getGlobalThreshold()) {
isGlobal = true;
netTotal = 0;
globalNets.insert( net );
break;
}
}
if (isGlobal) {
forEach ( Segment*, isegment, net->getSegments() ) {
netTotal++;
AutoSegment* autoSegment = Session::lookup( *isegment );
if ( autoSegment and not autoSegment->isStrongTerminal() ) {
netGlobal++;
cdebug_log(145,0) << "Migrate to M4/M5: " << autoSegment << endl;
if (autoSegment->isHorizontal()) {
autoSegment->setLayer( Session::getRoutingLayer(3) );
autoSegment->setWidth( Session::getWireWidth (3) );
}
if (autoSegment->isVertical()) {
autoSegment->setLayer( Session::getRoutingLayer(4) );
autoSegment->setWidth( Session::getWireWidth (4) );
}
}
}
}
total += netTotal;
global += netGlobal;
cdebug_tabw(145,-1);
DebugSession::close();
}
void AnabaticEngine::_layerAssignByTrunk ( unsigned long& total, unsigned long& global, set<Net*>& globalNets )
{
cmess1 << " o Assign Layer (whole net trunk)." << endl;
forEach ( Net* , inet , getCell()->getNets() ) {
if (NetRoutingExtension::get(*inet)->isAutomaticGlobalRoute()) {
_layerAssignByTrunk( *inet, globalNets, total, global );
}
}
}
void AnabaticEngine::_layerAssignNoGlobalM2V ( Net* net, set<Net*>& globalNets, unsigned long& total, unsigned long& global )
{
cdebug_log(149,0) << "Anabatic::_layerAssignNoGlobalM2V ( " << net << " )" << endl;
cdebug_tabw(145,1);
bool isGlobalNet = false;
unsigned long netGlobal = 0;
unsigned long netTotal = 0;
set<AutoContact*> globalContacts;
for ( Segment* baseSegment : net->getSegments() ) {
++netTotal;
AutoSegment* segment = Session::lookup( baseSegment );
if (not segment or segment->isLocal()) continue;
isGlobalNet = true;
netTotal = 0;
globalNets.insert( net );
break;
}
if (isGlobalNet) {
vector<AutoSegment*> horizontals;
for ( Segment* baseSegment : net->getSegments() ) {
AutoSegment* segment = Session::lookup( baseSegment );
if (not segment or not segment->isCanonical()) continue;
if (segment->isHorizontal()) horizontals.push_back( segment );
}
for ( AutoSegment* horizontal : horizontals ) {
vector<AutoSegment*> collapseds;
vector<AutoSegment*> perpandiculars;
vector<AutoSegment*> northBounds;
vector<AutoSegment*> southBounds;
DbU::Unit leftBound;
DbU::Unit rightBound;
bool hasNorth = false;
bool hasSouth = false;
AutoSegment::getTopologicalInfos( horizontal
, collapseds
, perpandiculars
, leftBound
, rightBound
);
for ( AutoSegment* perpandicular : perpandiculars ) {
if (Session::getLayerDepth(perpandicular->getLayer()) > 2) continue;
bool hasGlobal = false;
for ( AutoSegment* aligned : perpandicular->getAligneds(Flags::NoCheckLayer|Flags::WithSelf) ) {
if (aligned->isGlobal()) { hasGlobal = true; break; }
}
if (not hasGlobal) continue;
// if (perpandicular->getSourceY() == horizontal->getAxis()) {
// hasNorth = true;
// if (hasGlobal) northBounds.push_back( perpandicular );
// } else {
// hasSouth = true;
// if (hasGlobal) southBounds.push_back( perpandicular );
// }
if ( perpandicular->getAutoSource()->getGCell()->getNorth()
!= perpandicular->getAutoTarget()->getGCell()) {
perpandicular->changeDepth( 3, Flags::Propagate );
++netGlobal;
continue;
}
}
// if (hasSouth and hasNorth) {
// if (not northBounds.empty()) {
// for ( AutoSegment* perpandicular : northBounds )
// perpandicular->changeDepth( 3, Flags::Propagate );
// } else {
// for ( AutoSegment* perpandicular : southBounds )
// perpandicular->changeDepth( 3, Flags::Propagate );
// }
// }
}
}
total += netTotal;
global += netGlobal;
cdebug_tabw(145,-1);
}
void AnabaticEngine::_layerAssignNoGlobalM2V ( unsigned long& total, unsigned long& global, set<Net*>& globalNets )
{
cmess1 << " o Assign Layer (no global vertical metal2)." << endl;
for ( Net* net : getCell()->getNets() ) {
DebugSession::open( net, 145, 150 );
NetRoutingState* state = NetRoutingExtension::get( net );
if (not state or state->isAutomaticGlobalRoute()) {
_layerAssignNoGlobalM2V( net, globalNets, total, global );
} else {
cdebug_log(145,0) << net << " is not automatic routed, skipped." << endl;
}
DebugSession::close();
}
}
#if THIS_IS_DISABLED
void AnabaticEngine::moveULeft ( AutoSegment* seed, set<Net*>& globalNets, GCell::Set& invalidateds )
{
Net* net = seed->getNet();
DebugSession::open( net, 145, 150 );
cdebug_log(9000,0) << "Deter| Move left: " << seed << endl;
seed->moveULeft();
globalNets.insert( net );
GCell* begin = seed->getAutoSource()->getGCell();
GCell* end = seed->getAutoTarget()->getGCell();
if (seed->isHorizontal()) {
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() )
invalidateds.insert( gcell );
begin = begin->getDown();
end = end ->getDown();
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() )
invalidateds.insert( gcell );
} else {
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getUp() )
invalidateds.insert( gcell );
begin = begin->getLeft();
end = end ->getLeft();
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getUp() )
invalidateds.insert( gcell );
}
DebugSession::close();
}
void AnabaticEngine::moveURight ( AutoSegment* seed, set<Net*>& globalNets, GCell::Set& invalidateds )
{
Net* net = seed->getNet();
DebugSession::open( net, 145, 150 );
cdebug_log(9000,0) << "Deter| Move right: " << seed << endl;
seed->moveURight();
globalNets.insert( net );
GCell* begin = seed->getAutoSource()->getGCell();
GCell* end = seed->getAutoTarget()->getGCell();
if (seed->isHorizontal()) {
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() )
invalidateds.insert( gcell );
begin = begin->getUp();
end = end ->getUp();
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() )
invalidateds.insert( gcell );
} else {
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getUp() )
invalidateds.insert( gcell );
begin = begin->getRight();
end = end ->getRight();
for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getUp() )
invalidateds.insert( gcell );
}
DebugSession::close();
}
#endif
bool AnabaticEngine::moveUpNetTrunk ( AutoSegment* seed, set<Net*>& globalNets, GCell::Set& invalidateds )
{
Net* net = seed->getNet();
unsigned int seedDepth = Session::getRoutingGauge()->getLayerDepth(seed->getLayer());
DebugSession::open( net, 145, 150 );
cdebug_log(9000,0) << "Deter| moveUpNetTrunk() depth:" << seedDepth << " " << seed << endl;
if (not seed->canMoveUp( 1.0, Flags::Propagate|Flags::AllowTerminal|Flags::NoCheckLayer) ) {
cdebug_log(9000,0) << "Deter| Reject seed move up, cannot move up." << endl;
DebugSession::close();
return false;
}
cdebug_tabw(149,1);
globalNets.insert( net );
vector< pair<AutoContact*,AutoSegment*> > stack;
vector<AutoSegment*> globals;
vector<AutoSegment*> locals;
stack.push_back( pair<AutoContact*,AutoSegment*>(NULL,seed) );
while ( not stack.empty() ) {
AutoContact* from = stack.back().first;
AutoSegment* segment = stack.back().second;
stack.pop_back();
if (segment->isLocal()) {
if (not segment->isStrongTerminal()) locals.push_back( segment );
continue;
}
if ( (segment->getLength() < 3*Session::getSliceHeight()) and (segment != seed) ) {
locals.push_back( segment );
continue;
}
// Do something here.
if (not segment->canMoveUp( 1.0
, Flags::Propagate
| Flags::AllowTerminal
| Flags::NoCheckLayer
| Flags::CheckLowDensity
) ) continue;
globals.push_back( segment );
AutoContact* source = segment->getAutoSource();
if (source != from) {
for ( AutoSegment* connected : source->getAutoSegments() ) {
if (connected != segment) { stack.push_back( make_pair(source,connected) ); }
}
}
AutoContact* target = segment->getAutoTarget();
if (target != from) {
for ( AutoSegment* connected : target->getAutoSegments() ) {
if (connected != segment) { stack.push_back( make_pair(target,connected) ); }
}
}
}
for ( size_t i=0 ; i<globals.size() ; ++i ) {
//cdebug_log(9000,0) << "Deter| Looking up G:" << globals[i] << endl;
unsigned int depth = Session::getRoutingGauge()->getLayerDepth( globals[i]->getLayer() );
globals[i]->changeDepth( depth+2, Flags::WithNeighbors );
vector<GCell*> gcells;
globals[i]->getGCells( gcells );
for ( size_t j=0 ; j<gcells.size() ; j++ ) {
invalidateds.insert( gcells[j] );
}
}
for ( size_t i=0 ; i<locals.size() ; ++i ) {
//cdebug_log(9000,0) << "Deter| Looking up L:" << locals[i] << endl;
unsigned int depth = Session::getRoutingGauge()->getLayerDepth(locals[i]->getLayer());
if (depth > seedDepth+1) continue;
if (locals[i]->canPivotUp(2.0,Flags::Propagate|Flags::NoCheckLayer)) {
locals[i]->changeDepth( depth+2, Flags::WithNeighbors );
//cdebug_log(9000,0) << "Deter| Trunk move up L:" << locals[i] << endl;
vector<GCell*> gcells;
locals[i]->getGCells( gcells );
for ( size_t j=0 ; j<gcells.size() ; j++ ) {
invalidateds.insert( gcells[j] );
}
}
}
cdebug_tabw(149,-1);
DebugSession::close();
return true;
}
#if THIS_IS_DISABLED
void AnabaticEngine::_balanceGlobalDensity ( unsigned int depth )
{
startMeasures();
openSession();
cmess1 << " o Balance Global Density "
<< Session::getRoutingGauge()->getRoutingLayer(depth)->getName() << endl;
GCellDensitySet queue ( depth, getGCells()) );
GCell::Set invalidateds;
bool optimized = true;
while ( optimized ) {
Session::revalidate();
optimized = false;
queue.requeue();
std::set<GCell*,GCell::CompareByKey>::const_iterator igcell = queue.getGCells().begin();
size_t i = 0;
for ( ; igcell!=queue.getGCells().end() ; ++igcell, ++i ) {
cdebug_log(149,0) << "_balance: [" << depth << "]:"
<< (*igcell)->getDensity(depth) << " " << *igcell << endl;
if (not (*igcell)->isSaturated(depth)) {
cdebug_log(149,0) << "STOP desaturated: @" << i << " " << *igcell << endl;
for ( ; igcell!=queue.getGCells().end() ; ++igcell ) {
if ((*igcell)->isSaturated(depth)) {
cparanoid << Error( "Still saturated: @%d %s", i, getString(*igcell).c_str() ) << endl;
break;
}
}
break;
}
optimized = (*igcell)->stepBalance( depth, invalidateds );
if (optimized) {
for ( GCell::Set::iterator igcell=invalidateds.begin() ; igcell!=invalidateds.end() ; ++igcell ) {
queue.unqueue( *igcell );
}
break;
}
}
}
Session::close();
stopMeasures();
printMeasures( "balance" );
}
void AnabaticEngine::balanceGlobalDensity ()
{
cdebug_log(9000,0) << "Deter| Balance Global Density" << endl;
//_balanceGlobalDensity( 1 ); // metal2
//_balanceGlobalDensity( 2 ); // metal3
set<Net*> globalNets;
GCell::Set invalidateds;
openSession();
vector<AutoSegment*> segments;
AutoSegmentLut::iterator ilut = _autoSegmentLut.begin();
for ( ; ilut!=_autoSegmentLut.end() ; ++ilut ) {
AutoSegment* segment = (*ilut).second;
if (segment->isLocal() or segment->isFixed()) continue;
if (not segment->isCanonical()) continue;
segments.push_back( segment );
}
// Sort on id before moving to ensure determinism.
sort( segments.begin(), segments.end(), AutoSegment::CompareId() );
for ( size_t i=0 ; i<segments.size() ; ++i ) {
// Hard-coded: reserve 3 tracks (1/20 * 3).
if (segments[i]->canMoveULeft(0.10)) {
moveULeft(segments[i],globalNets,invalidateds);
} else if (segments[i]->canMoveURight(0.10)) {
moveURight(segments[i],globalNets,invalidateds);
}
for ( GCell::Set::iterator igcell=invalidateds.begin() ; igcell!=invalidateds.end() ; ++igcell ) {
(*igcell)->updateDensity();
}
invalidateds.clear();
Session::revalidate();
}
Session::close();
}
#endif
void AnabaticEngine::layerAssign ( uint32_t method )
{
//DebugSession::open( 145, 150 );
cdebug_log(9000,0) << "Deter| Layer Assignment" << endl;
set<Net*> globalNets;
unsigned long total = 0;
unsigned long global = 0;
startMeasures();
openSession();
if (Session::getAllowedDepth() >= 3) {
switch ( method ) {
case EngineLayerAssignByLength: _layerAssignByLength ( total, global, globalNets ); break;
case EngineLayerAssignByTrunk: _layerAssignByTrunk ( total, global, globalNets ); break;
case EngineLayerAssignNoGlobalM2V: _layerAssignNoGlobalM2V ( total, global, globalNets ); break;
case EngineNoNetLayerAssign: break;
default:
stopMeasures();
Session::close();
throw Error( badMethod
, "Anabatic::layerAssign()"
, method
, getString(_cell).c_str()
);
}
globalNets.clear();
Session::revalidate();
if ( (method != EngineLayerAssignNoGlobalM2V)
and (getConfiguration()->getAllowedDepth() > 2) ) {
for ( size_t depth=1 ; depth <= getConfiguration()->getAllowedDepth()-2; ++depth ) {
_desaturate( depth, globalNets, total, global );
if ( (depth > 1) and ((depth-1)%2 == 1) ) Session::revalidate();
}
globalNets.clear ();
Session::revalidate();
}
#if defined(CHECK_DATABASE)
_check( "after layer assignment" );
#endif
Session::setAnabaticFlags( Flags::WarnOnGCellOverload );
}
set<GCellRps*,GCellRps::Compare> gcellRpss;
for ( GCell* gcell : getGCells() ) {
set<RoutingPad*,Entity::CompareById> rps;
const vector<AutoContact*> contacts = gcell->getContacts();
for ( AutoContact* contact : contacts ) {
AutoContactTerminal* terminal = dynamic_cast<AutoContactTerminal*>( contact );
if (terminal) {
rps.insert( terminal->getRoutingPad() );
}
}
if (rps.size() > 8) {
GCellRps* gcellRps = new GCellRps ( gcell, this );
gcellRpss.insert( gcellRps );
for ( RoutingPad* rp : rps ) gcellRps->add( rp );
}
}
for ( GCellRps* gcellRps : gcellRpss ) {
gcellRps->consolidate();
const vector<RpsInRow*>& rpsInRows = gcellRps->getRpsInRows();
cdebug_log(149,0) << gcellRps->getGCell() << " has " << rpsInRows.size() << " terminals." << endl;
size_t count = 0;
for ( RpsInRow* rpsInRow : rpsInRows ) {
cdebug_log(149,0) << "North:" << rpsInRow->getNorth() << " South:"
<< rpsInRow->getSouth() << " net:"
<< rpsInRow->getRps()[0]->getNet()->getName() << endl;
cdebug_log(149,0) << "H-Span:" << rpsInRow->getRpsHSpan() << " V-Span:" << rpsInRow->getRpsVSpan() << endl;
for ( RoutingPad* arp : rpsInRow->getRps() ) {
cdebug_log(149,0) << "| " << arp << endl;
}
if (++count < 2) rpsInRow->slacken();
}
for ( AutoSegment* segment : gcellRps->getGCell()->getHSegments() ) {
if (segment->canPivotUp()) {
cdebug_log(149,0) << "Move up horizontal: " << segment << endl;
segment->moveUp( Flags::Propagate );
}
}
delete gcellRps;
}
checkGCellDensities();
Session::close();
stopMeasures();
printMeasures( "assign" );
// cmess2 << " - Total segments : " << total << endl;
// cmess2 << " - Global segments : " << global << endl;
// cmess2 << " - Ratio : "
// << ((float)global/(float)total)*100.0 << "%." << endl;
//DebugSession::close();
}
} // Anabatic namespace.