Katabatic - Routing Toolbox


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KatabaticEngine Class Reference

The Katabatic Tool. More...

Inheritance diagram for KatabaticEngine:
Inheritance graph
[legend]

Public Types

typedef set< Net *, NetCompareByName > NetSet
 

Public Member Functions

bool isGMetal (const Layer *) const
 
bool isChip () const
 
bool isInDemoMode () const
 
bool doWarnOnGCellOverload () const
 
bool doDestroyBaseContact () const
 
bool doDestroyBaseSegment () const
 
bool doDestroyTool () const
 
virtual const NamegetName () const
 
EngineState getState () const
 
unsigned int getFlags (unsigned int mask) const
 
Configuration * getKatabaticConfiguration ()
 
virtual Configuration * getConfiguration ()
 
RoutingGaugegetRoutingGauge () const
 
RoutingLayerGaugegetLayerGauge (size_t depth) const
 
const LayergetRoutingLayer (size_t depth) const
 
LayergetContactLayer (size_t depth) const
 
GCellGridgetGCellGrid () const
 
const NetSetgetRoutingNets () const
 
DbU::Unit getGlobalThreshold () const
 
float getSaturateRatio () const
 
size_t getSaturateRp () const
 
DbU::Unit getExtensionCap () const
 
const ChipToolsgetChipTools () const
 
void xmlWriteGCellGrid (ostream &)
 
void xmlWriteGCellGrid (const string &)
 
void setState (EngineState state)
 
void setFlags (unsigned int)
 
void unsetFlags (unsigned int)
 
void setGlobalThreshold (DbU::Unit)
 
void setSaturateRatio (float)
 
void setSaturateRp (size_t)
 
void printMeasures (const string &) const
 
void refresh (unsigned int flags=KbOpenSession)
 
virtual void createDetailedGrid ()
 
void makePowerRails ()
 
virtual void loadGlobalRouting (unsigned int method)
 
void slackenBorder (Box bb, Layer::Mask, unsigned int flags)
 
void slackenBlockIos (Instance *core)
 
bool moveUpNetTrunk (AutoSegment *, set< Net *> &globalNets, GCell::SetIndex &invalidateds)
 
void layerAssign (unsigned int method)
 
void computeNetConstraints (Net *)
 
void toOptimals (Net *)
 
virtual void finalizeLayout ()
 

Static Public Member Functions

static KatabaticEnginecreate (Cell *)
 
static const NamestaticGetName ()
 

Detailed Description

The Katabatic Tool.

States of KatabaticEngine

During it's lifecycle, the engine go through a serie of states. It only can go forward between states.

KatabaticEngine Implementation Details

Due to the size of the code and the fact that the main body of some methods do not need to be present in the class, the implementation of KatabaticEngine is split in several files. The list below summarize them:

Member Typedef Documentation

◆ NetSet

set< Net *, NetCompareByName > NetSet

Set of Net to be routed, alphabetically sorteds.

Member Function Documentation

◆ create()

KatabaticEngine * create ( Cell cell)
static

Create a KatabaticEngine on cell.

◆ staticGetName()

const Name & staticGetName ( )
static

Returns: The unique string identifier for the KatabaticEngine class of ToolEngine.

◆ isGMetal()

bool isGMetal ( const Layer layer) const
inline

Returns: true if layer is one of the special (fake) metals used to build the global routing.

Referenced by AutoSegment::create().

◆ isChip()

bool isChip ( ) const
inline

Returns: true if the hierarchy top-level of the Cell matches the one of a complete design (i.e. pads and one core instance).

References ChipTools::isChip().

◆ isInDemoMode()

bool isInDemoMode ( ) const
inline

Returns: true if the tool is in demo mode, that is suppress almost all warning and debug messages.

Referenced by Session::isInDemoMode().

◆ doWarnOnGCellOverload()

bool doWarnOnGCellOverload ( ) const
inline

Returns: true if the tool should issue a warning when a GCell is overloaded (overload could be transient).

Referenced by Session::doWarnGCellOverload().

◆ doDestroyBaseContact()

bool doDestroyBaseContact ( ) const
inline

Returns: true if the EngineDestroyBaseContact is set, meaning that when an AutoContact is destroyed, the Contact it decorates is destroyed altogether.

◆ doDestroyBaseSegment()

bool doDestroyBaseSegment ( ) const
inline

Returns: true if the EngineDestroyBaseSegment is set, meaning that when an AutoSegment is destroyed, the Segment it decorates is destroyed altogether.

◆ doDestroyTool()

bool doDestroyTool ( ) const
inline

Returns: true if the tool state is beyond EngineStateGutted, that is, only waits for destroy() to be called.

References Katabatic::EngineGutted.

◆ getName()

const Name & getName ( ) const
virtual

Returns: The unique string identifier for the KatabaticEngine class of ToolEngine.

Implements ToolEngine.

◆ getState()

EngineState getState ( ) const
inline

Returns: The state the tool is currently in.

◆ getFlags()

unsigned int getFlags ( unsigned int  mask) const
inline

Returns: The anded combination of the tool flags and mask.

◆ getKatabaticConfiguration()

Configuration * getKatabaticConfiguration ( )
inline

Returns: The Configuration of Katabatic. In this class it is redundant with getConfiguration(), but may be useful in derived classes.

◆ getConfiguration()

Configuration * getConfiguration ( )
virtual

Returns: The Configuration of the current ToolEngine.

◆ getRoutingGauge()

RoutingGauge * getRoutingGauge ( ) const
inline

Returns: The RoutingGauge (Configuration shortcut).

◆ getLayerGauge()

RoutingLayerGauge * getLayerGauge ( size_t  depth) const
inline

Returns: The RoutingLayerGauge associated to depth (Configuration shortcut).

◆ getRoutingLayer()

const Layer * getRoutingLayer ( size_t  depth) const
inline

Returns: The routing Layer associated to depth (Configuration shortcut).

◆ getContactLayer()

Layer * getContactLayer ( size_t  depth) const
inline

Returns: The contact Layer associated to depth (Configuration shortcut).

◆ getGCellGrid()

GCellGrid * getGCellGrid ( ) const
inline

◆ getRoutingNets()

const NetSet & getRoutingNets ( ) const
inline

Returns: The set of nets to be routeds.

◆ getGlobalThreshold()

DbU::Unit getGlobalThreshold ( ) const
inline

Returns: The length above which a global wire is moved up in the layer assignment stage (Configuration shortcut).

◆ getSaturateRatio()

float getSaturateRatio ( ) const
inline

Returns: The ratio above which a GCell is considered to be saturated (Configuration shortcut).

Referenced by Session::getSaturateRatio().

◆ getSaturateRp()

size_t getSaturateRp ( ) const
inline

Returns: The number of RoutingPad above which a GCell is saturated, causing extras global segments to be moved up. (Configuration shortcut).

Referenced by Session::getSaturateRp().

◆ getExtensionCap()

DbU::Unit getExtensionCap ( ) const
inline

Returns: The wires extension cap, same for all layers for the time beeing (Configuration shortcut).

◆ getChipTools()

const ChipTools & getChipTools ( ) const
inline

Returns: The chip tools (for whole designs).

Referenced by KatabaticEngine::createDetailedGrid().

◆ xmlWriteGCellGrid() [1/2]

void xmlWriteGCellGrid ( ostream &  o)

Write in a stream all informations on the GCells in XML format.

Referenced by KatabaticEngine::xmlWriteGCellGrid().

◆ xmlWriteGCellGrid() [2/2]

void xmlWriteGCellGrid ( const string &  fileName)

Write in a file all informations on the GCells in XML format.

References KatabaticEngine::xmlWriteGCellGrid().

◆ setState()

void setState ( EngineState  state)
inline

Force the state of the tool. Must be used with caution, as no sanity checks are performeds. This method is normally invoked from inside the KatabaticEngine various methods.

◆ setFlags()

void setFlags ( unsigned int  flags)
inline

Set the flags given in flags.

Referenced by Session::setKatabaticFlags().

◆ unsetFlags()

void unsetFlags ( unsigned int  flags)
inline

Reset the flags given in flags.

◆ setGlobalThreshold()

void setGlobalThreshold ( DbU::Unit  threshold)
inline

(Configuration shortcut).

◆ setSaturateRatio()

void setSaturateRatio ( float  ratio)
inline

(Configuration shortcut).

◆ setSaturateRp()

void setSaturateRp ( size_t  threshold)
inline

(Configuration shortcut).

◆ printMeasures()

void printMeasures ( const string &  tag) const

Print memory & time measurement on ``cmess1``. If tag is not empty, also adds the measurement to the internal table (with tag as label).

Referenced by KatabaticEngine::finalizeLayout().

◆ refresh()

void refresh ( unsigned int  flags = KbOpenSession)

In case the tool is associated with a graphic display, trigger a full redraw of the Cell. Slow the router but allow to see work in progress... If flags do not contains KbOpenSession the refresh operation will not be enclosed inside it's own session. This assumes that a session is already opened.

References GCellGrid::updateContacts().

◆ createDetailedGrid()

void createDetailedGrid ( )
virtual

◆ makePowerRails()

void makePowerRails ( )

Detect all the aligned segments of same width that compose power rails, unificate them and copy them at the design top level.

◆ loadGlobalRouting()

void loadGlobalRouting ( unsigned int  method)
virtual
Parameters
methodthe loading algorithm
netsthe set of nets to route.

Convert the global routing into the initial detailed routing. For the time beeing, only one loading algorithm is available: net by net (EngineLoadGrByNet). Only Net given in nets are routeds. If nets is empty then all ordinary nets are routeds. In either cases the set of nets to route is pruned from any power, ground or clock signals.

Remark: The tool state must be EngineGlobalLoaded before calling this method
and will be set to EngineActive on exit.

References Katabatic::EngineActive, and Katabatic::EngineGlobalLoaded.

◆ slackenBorder()

void slackenBorder ( Box  bb,
Layer::Mask  mask,
unsigned int  flags 
)
Parameters
bbThe bounding box, defines the edges.
maskConsider only layers that are fully included in that mask.
flagsConsider only segment in that direction.

Perform a preventive break on all global segments going through the vertical left and right edges of the bb box. The set of global segments to be broken could be further restricted using mask and flags.

The Semantic of flags is not clear, must review the code more closely.

References Box::getXMax(), Box::getXMin(), Box::getYMax(), and Box::getYMin().

◆ slackenBlockIos()

void slackenBlockIos ( Instance core)

Perform a preventive break on horizontal segments in the GCell immediatly outside the instance core area in the routing layer of index 1.

This method is too much hardwired to the SxLib gauge. It's effect is to break all METAL2 outside the core (in a chip).

References Entity::getBoundingBox(), Instance::getName(), Constant::Horizontal, and Box::inflate().

◆ moveUpNetTrunk()

bool moveUpNetTrunk ( AutoSegment seed,
set< Net *> &  globalNets,
GCell::SetIndex invalidateds 
)
Parameters
seedThe AutoSegment to take the net from.
globalNetsThe set of nets that has been moved up.
invalidatedsThe set of GCells that have been invalidated. Returns: true if the net trunk have been moved up.

Try to move up a whole net trunk. The net is supplied through the seed argument (the segment that triggers the move). If the net is actually moved up, it is added to globalNets and all GCells that have been invalidateds are added to invalidateds.

An individual AutoSegment of the net is moved up if it's length is greater that 150 lambdas, that is, three times the side of a GCell. This is hard-wired and should be parametrized in the future.

◆ layerAssign()

void layerAssign ( unsigned int  method)

Perform the layer assignment. The global routing loading stage uses only the two bottom most layers, this method spread them on all the availables routing layers, according to GCell and RoutingPad density criterions.

Two algorithms are availables:

  • EngineLayerAssignByLength : the global wires are moved up one by one.
  • EngineLayerAssignByTrunk : if one global wire of a net is to be moved up, then all the global trunk of the net is moved along. This methods gives the best results for now.

◆ computeNetConstraints()

void computeNetConstraints ( Net net)

Compute the box constraints on AutoContacts (and therefore those applied to AutoSegments). Constraints comes from AutoContacts anchoreds on RoutingPads and transmitted through AutoContactHTee or AutoContactVTee. Constraints are applied to all AutoContacts of an aligned set.

Remark: The net must have been canonized before this function to be called.

◆ toOptimals()

void toOptimals ( Net net)

Move all AutoSegment of net so that their axis are inside their optimals interval. If a AutoSegment is already inside the interval is not moved, otherwise it is put on the nearest bound of the optimal interval.

◆ finalizeLayout()

void finalizeLayout ( )
virtual

Transform the Katabatic wires into the Hurricane data-structure. Mostly by removing the AutoSegment/AutoContact without removing their Hurricane conterparts. May also fill gaps that may have appeared.

Remark: The tool state must be EngineActive before calling this method
and will be set to EngineGutted on exit.

References Katabatic::EngineDriving, Katabatic::EngineGutted, and KatabaticEngine::printMeasures().


The documentation for this class was generated from the following files:


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