Adding VDD/VSS to the current design
This commit is contained in:
Gabriel Gouvine
parent
18958d8f31
commit
69b6f5acba
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@ -44,8 +44,38 @@ using namespace CRL;
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namespace {
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using namespace std;
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// ---------------------------------------------------------------
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// Function : "SetNetType()".
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void addSupplyNets ( Cell* cell )
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{
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Net* vss = Net::create ( cell, "vss" );
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vss->setExternal ( true );
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vss->setGlobal ( true );
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vss->setType ( Net::Type::GROUND );
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Net* vdd = Net::create ( cell, "vdd" );
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vdd->setExternal ( true );
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vdd->setGlobal ( true );
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vdd->setType ( Net::Type::POWER );
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}
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void connectSupplyNets ( Instance * instance, Cell* design )
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{
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Cell* instcell = instance->getCell();
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if(instcell == NULL){
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throw Error("Instance's cell is null\n");
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}
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Net* vssint = instcell->getNet( "vss" );
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Net* vddint = instcell->getNet( "vdd" );
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cerr << "Got instance nets" << endl;
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Net* vssext = design->getNet( "vss" );
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Net* vddext = design->getNet( "vdd" );
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cerr << "Got cell nets" << endl;
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auto vssplug = instance->getPlug( vssint );
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auto vddplug = instance->getPlug( vddint );
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cerr << "Got plugs: " << vssplug << " and " << vddplug << endl;
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vssplug->setNet( vssext );
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vddplug->setNet( vddext );
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cerr << "Updated nets" << endl;
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}
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void SetNetType ( Net* net, AllianceFramework * framework )
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{
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@ -134,7 +164,7 @@ Cell * Blif::load ( string cellPath ) //, Cell *cell )
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models.back().subcircuits.push_back(subckt());
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}
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else if(token == ".names"){
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cerr << Warning("BLIF names are ignored");
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cerr << Warning("BLIF names are ignored\n");
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if(state == EXT)
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throw Error("Names without an enclosing model are not supported\n");
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if(state == MODEL and not hasName)
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@ -142,6 +172,9 @@ Cell * Blif::load ( string cellPath ) //, Cell *cell )
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state = NAMES;
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hasName = false;
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}
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else if(token == ".latch"){
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throw Error("Latch constructs are not understood by the parser\n");
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}
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else if(token == ".inputs"){
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if(state == EXT)
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throw Error("Inputs have been found without an enclosing model\n");
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@ -208,9 +241,10 @@ Cell * Blif::load ( string cellPath ) //, Cell *cell )
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line.clear();
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}
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if(state != EXT){
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cerr << Warning("End of model has not been found");
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cerr << Warning("End of model has not been found\n");
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}
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/*
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for(auto & M : models){
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cout << "Model: " << M.name << endl;
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for(auto & S : M.subcircuits){
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@ -221,47 +255,59 @@ Cell * Blif::load ( string cellPath ) //, Cell *cell )
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cout << endl;
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}
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}
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*/
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if(models.size() > 1){
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cerr << Warning("Several models in the file; only the first was open");
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cerr << Warning("Several models in the file; only the last was open\n");
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}
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Cell* design = framework->createCell(models[0].name);
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int i=0;
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for(auto & S : models[0].subcircuits){
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ostringstream subckt_name;
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subckt_name << "subckt_" << i;
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Cell * cell = framework->getCell(S.cell, Catalog::State::Views, 0);
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Instance* instance = Instance::create( design, subckt_name.str(), cell);
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Cell * design = NULL;
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for(auto M : models){
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design = framework->createCell(M.name);
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addSupplyNets(design);
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unordered_set<string> net_names;
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for(auto const & P : S.pins){
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net_names.insert(P.second);
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for(auto const & S : M.subcircuits){
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for(auto const & P : S.pins){
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net_names.insert(P.second);
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}
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}
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for(auto const & P : models[0].pins){
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for(auto const & P : M.pins){
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net_names.insert(P.first);
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}
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for(string const & N : net_names){
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Net* new_net = Net::create( design, N );
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auto it = models[0].pins.find(N);
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if(it != models[0].pins.end()){
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auto it = M.pins.find(N);
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if(it != M.pins.end()){
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new_net->setExternal( true );
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new_net->setDirection( it->second );
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}
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}
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for(auto & P : S.pins){
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Net* internalNet = cell->getNet( P.first );
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Net* externalNet = design->getNet( P.second );
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instance->getPlug( internalNet )->setNet( externalNet );
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}
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int i=0;
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for(auto & S : M.subcircuits){
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ostringstream subckt_name;
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subckt_name << "subckt_" << i;
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Cell * cell = framework->getCell(S.cell, Catalog::State::Views, 0);
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if(cell == NULL){
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cerr << Warning("Cell " + S.cell + "to instanciate hasn't been found\n");
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continue;
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}
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Instance* instance = Instance::create( design, subckt_name.str(), cell);
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++i;
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for(auto & P : S.pins){
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Net* internalNet = cell->getNet( P.first );
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Net* externalNet = design->getNet( P.second );
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assert(internalNet != NULL and externalNet != NULL);
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instance->getPlug( internalNet )->setNet( externalNet );
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}
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//connectSupplyNets(instance, design);
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++i;
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}
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}
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return cell;
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return design;
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}
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}
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