ruby: network: garnet: add statistics for different activities
This patch adds some statistics to garnet that record the activity of certain structures in the on-chip network. These statistics, in a later patch, will be used for computing the energy consumed by the on-chip network.
This commit is contained in:
Nilay Vaish
parent
25bb18f12b
commit
a098fad174
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@ -105,3 +105,12 @@ InputUnit_d::functionalWrite(Packet *pkt)
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return num_functional_writes;
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}
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void
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InputUnit_d::resetStats()
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{
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for (int j = 0; j < m_num_buffer_reads.size(); j++) {
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m_num_buffer_reads[j] = 0;
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m_num_buffer_writes[j] = 0;
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}
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}
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@ -159,6 +159,7 @@ class InputUnit_d : public Consumer
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{ return m_num_buffer_writes[vnet]; }
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uint32_t functionalWrite(Packet *pkt);
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void resetStats();
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private:
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int m_id;
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@ -57,20 +57,6 @@ Router_d::Router_d(const Params *p)
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m_input_unit.clear();
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m_output_unit.clear();
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crossbar_count = 0;
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sw_local_arbit_count = 0;
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sw_global_arbit_count = 0;
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buf_read_count.resize(m_virtual_networks);
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buf_write_count.resize(m_virtual_networks);
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vc_local_arbit_count.resize(m_virtual_networks);
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vc_global_arbit_count.resize(m_virtual_networks);
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for (int i = 0; i < m_virtual_networks; i++) {
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buf_read_count[i] = 0;
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buf_write_count[i] = 0;
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vc_local_arbit_count[i] = 0;
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vc_global_arbit_count[i] = 0;
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}
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}
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Router_d::~Router_d()
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@ -157,22 +143,71 @@ Router_d::update_sw_winner(int inport, flit_d *t_flit)
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m_switch->scheduleEventAbsolute(clockEdge(Cycles(1)));
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}
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void
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Router_d::regStats()
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{
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m_buffer_reads
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.name(name() + ".buffer_reads")
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.flags(Stats::nozero)
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;
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m_buffer_writes
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.name(name() + ".buffer_writes")
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.flags(Stats::nozero)
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;
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m_crossbar_activity
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.name(name() + ".crossbar_activity")
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.flags(Stats::nozero)
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;
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m_sw_local_arbiter_activity
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.name(name() + ".sw_local_arbiter_activity")
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.flags(Stats::nozero)
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;
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m_sw_global_arbiter_activity
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.name(name() + ".sw_global_arbiter_activity")
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.flags(Stats::nozero)
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;
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m_vc_local_arbiter_activity
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.name(name() + ".vc_local_arbiter_activity")
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.flags(Stats::nozero)
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;
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m_vc_global_arbiter_activity
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.name(name() + ".vc_global_arbiter_activity")
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.flags(Stats::nozero)
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;
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}
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void
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Router_d::collateStats()
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{
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for (int j = 0; j < m_virtual_networks; j++) {
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for (int i = 0; i < m_input_unit.size(); i++) {
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buf_read_count[j] += m_input_unit[i]->get_buf_read_count(j);
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buf_write_count[j] += m_input_unit[i]->get_buf_write_count(j);
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m_buffer_reads += m_input_unit[i]->get_buf_read_count(j);
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m_buffer_writes += m_input_unit[i]->get_buf_write_count(j);
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}
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vc_local_arbit_count[j] = m_vc_alloc->get_local_arbit_count(j);
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vc_global_arbit_count[j] = m_vc_alloc->get_global_arbit_count(j);
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m_vc_local_arbiter_activity += m_vc_alloc->get_local_arbit_count(j);
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m_vc_global_arbiter_activity += m_vc_alloc->get_global_arbit_count(j);
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}
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sw_local_arbit_count = m_sw_alloc->get_local_arbit_count();
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sw_global_arbit_count = m_sw_alloc->get_global_arbit_count();
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crossbar_count = m_switch->get_crossbar_count();
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m_sw_local_arbiter_activity = m_sw_alloc->get_local_arbit_count();
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m_sw_global_arbiter_activity = m_sw_alloc->get_global_arbit_count();
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m_crossbar_activity = m_switch->get_crossbar_count();
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}
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void
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Router_d::resetStats()
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{
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for (int j = 0; j < m_virtual_networks; j++) {
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for (int i = 0; i < m_input_unit.size(); i++) {
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m_input_unit[i]->resetStats();
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}
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}
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}
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void
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@ -88,7 +88,10 @@ class Router_d : public BasicRouter
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void printFaultVector(std::ostream& out);
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void printAggregateFaultProbability(std::ostream& out);
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void regStats();
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void collateStats();
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void resetStats();
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bool get_fault_vector(int temperature, float fault_vector[]){
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return m_network_ptr->fault_model->fault_vector(m_id, temperature,
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@ -105,8 +108,6 @@ class Router_d : public BasicRouter
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private:
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int m_virtual_networks, m_num_vcs, m_vc_per_vnet;
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GarnetNetwork_d *m_network_ptr;
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double sw_local_arbit_count, sw_global_arbit_count;
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double crossbar_count;
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std::vector<InputUnit_d *> m_input_unit;
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std::vector<OutputUnit_d *> m_output_unit;
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@ -115,11 +116,17 @@ class Router_d : public BasicRouter
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SWallocator_d *m_sw_alloc;
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Switch_d *m_switch;
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// Statistical variables for performance
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std::vector<double> buf_read_count;
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std::vector<double> buf_write_count;
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std::vector<double> vc_local_arbit_count;
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std::vector<double> vc_global_arbit_count;
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// Statistical variables required for power computations
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Stats::Scalar m_buffer_reads;
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Stats::Scalar m_buffer_writes;
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Stats::Scalar m_sw_local_arbiter_activity;
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Stats::Scalar m_sw_global_arbiter_activity;
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Stats::Scalar m_vc_local_arbiter_activity;
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Stats::Scalar m_vc_global_arbiter_activity;
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Stats::Scalar m_crossbar_activity;
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};
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#endif // __MEM_RUBY_NETWORK_GARNET_FIXED_PIPELINE_ROUTER_D_HH__
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