report_check_types -max_cap -net
This commit is contained in:
James Cherry
parent
9940576780
commit
6ebaf3ebdb
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@ -649,14 +649,13 @@ public:
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float &slack);
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void checkCapacitanceLimitPreamble();
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// Return the pin with the min/max capacitance limit slack.
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// Return pins with the min/max slew limit slack.
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// net=null check all nets
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// corner=nullptr checks all corners.
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Pin *pinMinCapacitanceLimitSlack(const Corner *corner,
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const MinMax *min_max);
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// Return all pins with min/max capacitance violations.
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// corner=nullptr checks all corners.
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PinSeq *pinCapacitanceLimitViolations(const Corner *corner,
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const MinMax *min_max);
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PinSeq *checkCapacitanceLimits(Net *net,
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bool violators,
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const Corner *corner,
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const MinMax *min_max);
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void reportCapacitanceLimitShortHeader();
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void reportCapacitanceLimitShort(Pin *pin,
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const Corner *corner,
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@ -222,91 +222,84 @@ CheckCapacitanceLimits::checkCapacitance(const Pin *pin,
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}
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PinSeq *
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CheckCapacitanceLimits::pinCapacitanceLimitViolations(const Corner *corner,
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const MinMax *min_max)
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CheckCapacitanceLimits::checkCapacitanceLimits(Net *net,
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bool violators,
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const Corner *corner,
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const MinMax *min_max)
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{
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const Network *network = sta_->network();
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PinSeq *violators = new PinSeq;
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LeafInstanceIterator *inst_iter = network->leafInstanceIterator();
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while (inst_iter->hasNext()) {
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Instance *inst = inst_iter->next();
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pinCapacitanceLimitViolations(inst, corner, min_max, violators);
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PinSeq *cap_pins = new PinSeq;
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Slack min_slack = MinMax::min()->initValue();
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if (net) {
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NetPinIterator *pin_iter = network->pinIterator(net);
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while (pin_iter->hasNext()) {
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Pin *pin = pin_iter->next();
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checkCapLimits(pin, violators, corner, min_max, cap_pins, min_slack);
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}
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delete pin_iter;
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}
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delete inst_iter;
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// Check top level ports.
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pinCapacitanceLimitViolations(network->topInstance(), corner, min_max, violators);
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sort(violators, PinCapacitanceLimitSlackLess(corner, min_max, this, sta_));
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return violators;
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else {
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LeafInstanceIterator *inst_iter = network->leafInstanceIterator();
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while (inst_iter->hasNext()) {
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Instance *inst = inst_iter->next();
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checkCapLimits(inst, violators, corner, min_max, cap_pins, min_slack);
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}
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delete inst_iter;
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// Check top level ports.
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checkCapLimits(network->topInstance(), violators, corner, min_max,
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cap_pins, min_slack);
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}
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sort(cap_pins, PinCapacitanceLimitSlackLess(corner, min_max, this, sta_));
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// Keep the min slack pin unless all violators or net pins.
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if (!cap_pins->empty() && !violators && net == nullptr)
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cap_pins->resize(1);
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return cap_pins;
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}
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void
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CheckCapacitanceLimits::pinCapacitanceLimitViolations(Instance *inst,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *violators)
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CheckCapacitanceLimits::checkCapLimits(Instance *inst,
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bool violators,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *cap_pins,
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float &min_slack)
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{
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const Network *network = sta_->network();
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InstancePinIterator *pin_iter = network->pinIterator(inst);
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while (pin_iter->hasNext()) {
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Pin *pin = pin_iter->next();
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if (checkPin(pin)) {
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const Corner *corner1;
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const RiseFall *rf;
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float capacitance, limit, slack;
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checkCapacitance(pin, corner, min_max, corner1, rf, capacitance, limit, slack );
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if (rf && slack < 0.0 && !fuzzyInf(slack))
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violators->push_back(pin);
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}
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checkCapLimits(pin, violators, corner, min_max, cap_pins, min_slack);
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}
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delete pin_iter;
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}
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Pin *
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CheckCapacitanceLimits::pinMinCapacitanceLimitSlack(const Corner *corner,
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const MinMax *min_max)
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{
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const Network *network = sta_->network();
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Pin *min_slack_pin = nullptr;
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float min_slack = MinMax::min()->initValue();
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LeafInstanceIterator *inst_iter = network->leafInstanceIterator();
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while (inst_iter->hasNext()) {
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Instance *inst = inst_iter->next();
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pinMinCapacitanceLimitSlack(inst, corner, min_max, min_slack_pin, min_slack);
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}
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delete inst_iter;
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// Check top level ports.
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pinMinCapacitanceLimitSlack(network->topInstance(), corner, min_max,
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min_slack_pin, min_slack);
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return min_slack_pin;
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}
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void
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CheckCapacitanceLimits::pinMinCapacitanceLimitSlack(Instance *inst,
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const Corner *corner,
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const MinMax *min_max,
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// Return values.
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Pin *&min_slack_pin,
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float &min_slack)
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CheckCapacitanceLimits::checkCapLimits(Pin *pin,
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bool violators,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *cap_pins,
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float &min_slack)
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{
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const Network *network = sta_->network();
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InstancePinIterator *pin_iter = network->pinIterator(inst);
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while (pin_iter->hasNext()) {
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Pin *pin = pin_iter->next();
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if (checkPin(pin)) {
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const Corner *corner1;
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const RiseFall *rf;
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float capacitance, limit, slack;
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checkCapacitance(pin, corner, min_max, corner1, rf, capacitance, limit, slack);
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if (rf
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&& !fuzzyInf(slack)
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&& (min_slack_pin == nullptr
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|| slack < min_slack)) {
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min_slack_pin = pin;
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min_slack = slack;
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if (checkPin(pin)) {
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const Corner *corner1;
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const RiseFall *rf;
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float capacitance, limit, slack;
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checkCapacitance(pin, corner, min_max, corner1, rf, capacitance, limit, slack);
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if (!fuzzyInf(slack)) {
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if (violators) {
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if (slack < 0.0)
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cap_pins->push_back(pin);
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}
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else {
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if (cap_pins->empty()
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|| slack < min_slack) {
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cap_pins->push_back(pin);
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min_slack = slack;
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}
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}
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}
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}
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delete pin_iter;
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}
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bool
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@ -42,12 +42,13 @@ public:
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float &capacitance,
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float &limit,
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float &slack) const;
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// Return pins with the min/max cap limit slack.
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// net=null check all nets
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// corner=nullptr checks all corners.
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PinSeq *pinCapacitanceLimitViolations(const Corner *corner,
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const MinMax *min_max);
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// corner=nullptr checks all corners.
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Pin *pinMinCapacitanceLimitSlack(const Corner *corner,
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const MinMax *min_max);
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PinSeq *checkCapacitanceLimits(Net *net,
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bool violators,
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const Corner *corner,
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const MinMax *min_max);
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protected:
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void checkCapacitance(const Pin *pin,
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@ -75,16 +76,18 @@ protected:
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// Return values.
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float &limit,
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bool &limit_exists) const;
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void pinCapacitanceLimitViolations(Instance *inst,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *violators);
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void pinMinCapacitanceLimitSlack(Instance *inst,
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const Corner *corner,
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const MinMax *min_max,
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// Return values.
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Pin *&min_slack_pin,
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float &min_slack);
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void checkCapLimits(Instance *inst,
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bool violators,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *cap_pins,
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float &min_slack);
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void checkCapLimits(Pin *pin,
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bool violators,
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const Corner *corner,
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const MinMax *min_max,
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PinSeq *cap_pins,
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float &min_slack);
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bool checkPin(Pin *pin);
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const Sta *sta_;
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@ -5021,20 +5021,15 @@ Sta::checkCapacitanceLimitPreamble()
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ensureClkNetwork();
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}
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Pin *
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Sta::pinMinCapacitanceLimitSlack(const Corner *corner,
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const MinMax *min_max)
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{
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checkCapacitanceLimitPreamble();
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return check_capacitance_limits_->pinMinCapacitanceLimitSlack(corner, min_max);
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}
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PinSeq *
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Sta::pinCapacitanceLimitViolations(const Corner *corner,
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const MinMax *min_max)
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Sta::checkCapacitanceLimits(Net *net,
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bool violators,
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const Corner *corner,
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const MinMax *min_max)
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{
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checkCapacitanceLimitPreamble();
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return check_capacitance_limits_->pinCapacitanceLimitViolations(corner, min_max);
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return check_capacitance_limits_->checkCapacitanceLimits(net, violators,
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corner, min_max);
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}
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void
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@ -438,38 +438,22 @@ proc report_fanout_limits { min_max all_violators verbose nosplit } {
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}
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}
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proc report_capacitance_limits { corner min_max all_violators verbose nosplit } {
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if { $all_violators } {
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set violators [pin_capacitance_limit_violations $corner $min_max]
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if { $violators != {} } {
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report_line "${min_max} capacitance"
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report_line ""
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if { $verbose } {
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foreach pin $violators {
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report_capacitance_limit_verbose $pin $corner $min_max
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report_line ""
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}
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} else {
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report_capacitance_limit_short_header
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foreach pin $violators {
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report_capacitance_limit_short $pin $corner $min_max
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}
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report_line ""
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}
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}
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} else {
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set pin [pin_min_capacitance_limit_slack $corner $min_max]
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if { $pin != "NULL" } {
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report_line "${min_max} capacitance"
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report_line ""
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if { $verbose } {
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proc report_capacitance_limits { net corner min_max violators verbose nosplit } {
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set pins [check_capacitance_limits $net $violators $corner $min_max]
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if { $pins != {} } {
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report_line "${min_max} capacitance"
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report_line ""
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if { $verbose } {
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foreach pin $pins {
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report_capacitance_limit_verbose $pin $corner $min_max
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report_line ""
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} else {
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report_capacitance_limit_short_header
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report_capacitance_limit_short $pin $corner $min_max
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report_line ""
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report_line ""
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}
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} else {
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report_capacitance_limit_short_header
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foreach pin $pins {
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report_capacitance_limit_short $pin $corner $min_max
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}
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report_line ""
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}
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}
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}
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@ -228,8 +228,9 @@ proc find_timing_paths_cmd { cmd args_var } {
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set group_count $endpoint_count
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if [info exists keys(-group_count)] {
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set group_count $keys(-group_count)
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check_positive_integer "-group_count" $group_count
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if { $group_count < 1 } {
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sta_error 423 "-group_count must be a positive integer."
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sta_error 423 "-group_count must be >= 1."
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}
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}
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@ -486,10 +487,10 @@ proc_redirect report_check_types {
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report_fanout_limits "min" $violators $verbose $nosplit
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}
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if { $max_capacitance } {
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report_capacitance_limits $corner "max" $violators $verbose $nosplit
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report_capacitance_limits $net $corner "max" $violators $verbose $nosplit
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}
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if { $min_capacitance } {
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report_capacitance_limits $corner "min" $violators $verbose $nosplit
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report_capacitance_limits $net $corner "min" $violators $verbose $nosplit
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}
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if { $min_pulse_width } {
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if { $violators } {
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16
tcl/StaTcl.i
16
tcl/StaTcl.i
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@ -4775,20 +4775,14 @@ report_fanout_limit_verbose(Pin *pin,
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////////////////////////////////////////////////////////////////
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Pin *
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pin_min_capacitance_limit_slack(const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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return Sta::sta()->pinMinCapacitanceLimitSlack(corner, min_max);
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}
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PinSeq *
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pin_capacitance_limit_violations(const Corner *corner,
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const MinMax *min_max)
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check_capacitance_limits(Net *net,
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bool violators,
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const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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return Sta::sta()->pinCapacitanceLimitViolations(corner, min_max);
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return Sta::sta()->checkCapacitanceLimits(net, violators, corner, min_max);
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}
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void
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