OpticalLinkBackendRx.cc revision 10447 
110447Snilay@cs.wisc.edu#include "model/optical/OpticalLinkBackendRx.h"
210447Snilay@cs.wisc.edu
310447Snilay@cs.wisc.edu#include "util/Constants.h"
410447Snilay@cs.wisc.edu#include "model/PortInfo.h"
510447Snilay@cs.wisc.edu#include "model/TransitionInfo.h"
610447Snilay@cs.wisc.edu#include "model/EventInfo.h"
710447Snilay@cs.wisc.edu#include "model/electrical/DemuxTreeDeserializer.h"
810447Snilay@cs.wisc.edu#include "model/electrical/BarrelShifter.h"
910447Snilay@cs.wisc.edu#include "model/electrical/Multiplexer.h"
1010447Snilay@cs.wisc.edu#include <cmath>
1110447Snilay@cs.wisc.edu
1210447Snilay@cs.wisc.edunamespace DSENT
1310447Snilay@cs.wisc.edu{
1410447Snilay@cs.wisc.edu    // TODO: Kind of don't like the way thermal tuning is written here. Maybe will switch
1510447Snilay@cs.wisc.edu    // to curve fitting the CICC paper, which uses results from a monte-carlo sim. Also, there is
1610447Snilay@cs.wisc.edu    // redundant code between this one and the tx one...
1710447Snilay@cs.wisc.edu
1810447Snilay@cs.wisc.edu    OpticalLinkBackendRx::OpticalLinkBackendRx(const String& instance_name_, const TechModel* tech_model_)
1910447Snilay@cs.wisc.edu        : ElectricalModel(instance_name_, tech_model_)
2010447Snilay@cs.wisc.edu    {
2110447Snilay@cs.wisc.edu        initParameters();
2210447Snilay@cs.wisc.edu        initProperties();
2310447Snilay@cs.wisc.edu    }
2410447Snilay@cs.wisc.edu
2510447Snilay@cs.wisc.edu    OpticalLinkBackendRx::~OpticalLinkBackendRx()
2610447Snilay@cs.wisc.edu    {}
2710447Snilay@cs.wisc.edu
2810447Snilay@cs.wisc.edu    void OpticalLinkBackendRx::initParameters()
2910447Snilay@cs.wisc.edu    {
3010447Snilay@cs.wisc.edu        addParameterName("OutBits");
3110447Snilay@cs.wisc.edu        addParameterName("CoreDataRate");
3210447Snilay@cs.wisc.edu        addParameterName("LinkDataRate");
3310447Snilay@cs.wisc.edu        addParameterName("RingTuningMethod");
3410447Snilay@cs.wisc.edu        addParameterName("BitDuplicate");
3510447Snilay@cs.wisc.edu        return;
3610447Snilay@cs.wisc.edu    }
3710447Snilay@cs.wisc.edu
3810447Snilay@cs.wisc.edu    void OpticalLinkBackendRx::initProperties()
3910447Snilay@cs.wisc.edu    {
4010447Snilay@cs.wisc.edu        return;
4110447Snilay@cs.wisc.edu    }
4210447Snilay@cs.wisc.edu
4310447Snilay@cs.wisc.edu    void OpticalLinkBackendRx::constructModel()
4410447Snilay@cs.wisc.edu    {
4510447Snilay@cs.wisc.edu        unsigned int out_bits = getParameter("OutBits");
4610447Snilay@cs.wisc.edu        double core_data_rate = getParameter("CoreDataRate");
4710447Snilay@cs.wisc.edu        double link_data_rate = getParameter("LinkDataRate");
4810447Snilay@cs.wisc.edu        const String& tuning_method = getParameter("RingTuningMethod");
4910447Snilay@cs.wisc.edu        bool bit_duplicate = getParameter("BitDuplicate");
5010447Snilay@cs.wisc.edu
5110447Snilay@cs.wisc.edu        // Calculate deserialization ratio
5210447Snilay@cs.wisc.edu        unsigned int deserialization_ratio = (unsigned int) floor(link_data_rate / core_data_rate);
5310447Snilay@cs.wisc.edu        ASSERT(deserialization_ratio == link_data_rate / core_data_rate,
5410447Snilay@cs.wisc.edu            "[Error] " + getInstanceName() + " -> Cannot have non-integer deserialization ratios!");
5510447Snilay@cs.wisc.edu        ASSERT((deserialization_ratio & (deserialization_ratio - 1)) == 0,
5610447Snilay@cs.wisc.edu            "[Error] " + getInstanceName() + " -> Deserialization ratio must be a power of 2");
5710447Snilay@cs.wisc.edu
5810447Snilay@cs.wisc.edu        // Calculate output width
5910447Snilay@cs.wisc.edu        unsigned int in_bits = out_bits / deserialization_ratio;
6010447Snilay@cs.wisc.edu        ASSERT(out_bits >= deserialization_ratio, "[Error] " + getInstanceName() +
6110447Snilay@cs.wisc.edu            " -> Output width must be >= deserialization ratio!");
6210447Snilay@cs.wisc.edu        ASSERT(floor((double) out_bits / deserialization_ratio) == in_bits,
6310447Snilay@cs.wisc.edu            "[Error] " + getInstanceName() + " -> Output width must be a multiple of the serialization ratio!");
6410447Snilay@cs.wisc.edu
6510447Snilay@cs.wisc.edu        getGenProperties()->set("DeserializationRatio", deserialization_ratio);
6610447Snilay@cs.wisc.edu        getGenProperties()->set("InBits", in_bits);
6710447Snilay@cs.wisc.edu
6810447Snilay@cs.wisc.edu        // Create ports
6910447Snilay@cs.wisc.edu        createInputPort("In", makeNetIndex(0, in_bits-1));
7010447Snilay@cs.wisc.edu        createInputPort("LinkCK");
7110447Snilay@cs.wisc.edu        createOutputPort("Out", makeNetIndex(0, out_bits-1));
7210447Snilay@cs.wisc.edu
7310447Snilay@cs.wisc.edu        //Create energy, power, and area results
7410447Snilay@cs.wisc.edu        createElectricalResults();
7510447Snilay@cs.wisc.edu        // Create ring heating power cost
7610447Snilay@cs.wisc.edu        addNddPowerResult(new AtomicResult("RingTuning"));
7710447Snilay@cs.wisc.edu        // Create process bits event
7810447Snilay@cs.wisc.edu        createElectricalEventResult("ProcessBits");
7910447Snilay@cs.wisc.edu        getEventInfo("ProcessBits")->setTransitionInfo("LinkCK", TransitionInfo(0.0, (double) deserialization_ratio / 2.0, 0.0));
8010447Snilay@cs.wisc.edu        // Set conditions during idle state
8110447Snilay@cs.wisc.edu        getEventInfo("Idle")->setStaticTransitionInfos();
8210447Snilay@cs.wisc.edu        getEventInfo("Idle")->setTransitionInfo("LinkCK", TransitionInfo(0.0, (double) deserialization_ratio / 2.0, 0.0));
8310447Snilay@cs.wisc.edu
8410447Snilay@cs.wisc.edu        // Create deserializer
8510447Snilay@cs.wisc.edu        const String& deserializer_name = "Deserializer";
8610447Snilay@cs.wisc.edu        DemuxTreeDeserializer* deserializer = new DemuxTreeDeserializer(deserializer_name, getTechModel());
8710447Snilay@cs.wisc.edu        deserializer->setParameter("OutBits", out_bits);
8810447Snilay@cs.wisc.edu        deserializer->setParameter("InDataRate", link_data_rate);
8910447Snilay@cs.wisc.edu        deserializer->setParameter("OutDataRate", core_data_rate);
9010447Snilay@cs.wisc.edu        deserializer->setParameter("BitDuplicate", bit_duplicate);
9110447Snilay@cs.wisc.edu        deserializer->construct();
9210447Snilay@cs.wisc.edu
9310447Snilay@cs.wisc.edu        addSubInstances(deserializer, 1.0);
9410447Snilay@cs.wisc.edu        addElectricalSubResults(deserializer, 1.0);
9510447Snilay@cs.wisc.edu        getEventResult("ProcessBits")->addSubResult(deserializer->getEventResult("Deserialize"), deserializer_name, 1.0);
9610447Snilay@cs.wisc.edu
9710447Snilay@cs.wisc.edu        if ((tuning_method == "ThermalWithBitReshuffle") || (tuning_method == "ElectricalAssistWithBitReshuffle"))
9810447Snilay@cs.wisc.edu        {
9910447Snilay@cs.wisc.edu            // If a bit reshuffling backend is present, create the reshuffling backend
10010447Snilay@cs.wisc.edu            unsigned int reorder_degree = getBitReorderDegree();
10110447Snilay@cs.wisc.edu
10210447Snilay@cs.wisc.edu            // Create intermediate nets
10310447Snilay@cs.wisc.edu            createNet("ReorderIn", makeNetIndex(0, in_bits+reorder_degree-1));
10410447Snilay@cs.wisc.edu            assign("ReorderIn", makeNetIndex(0, in_bits-1), "In");
10510447Snilay@cs.wisc.edu            assign("ReorderIn", makeNetIndex(in_bits, in_bits+reorder_degree-1), "ReorderIn", makeNetIndex(0, reorder_degree-1));
10610447Snilay@cs.wisc.edu            createNet("DeserializerIn", makeNetIndex(0, in_bits-1));
10710447Snilay@cs.wisc.edu            createNet("BarrelShiftIn", makeNetIndex(0, out_bits-1));
10810447Snilay@cs.wisc.edu
10910447Snilay@cs.wisc.edu            // Create bit reorder muxes
11010447Snilay@cs.wisc.edu            const String& reorder_mux_name = "ReorderMux";
11110447Snilay@cs.wisc.edu            Multiplexer* reorder_mux = new Multiplexer(reorder_mux_name, getTechModel());
11210447Snilay@cs.wisc.edu            reorder_mux->setParameter("NumberBits", in_bits);
11310447Snilay@cs.wisc.edu            reorder_mux->setParameter("NumberInputs", reorder_degree);
11410447Snilay@cs.wisc.edu            reorder_mux->setParameter("BitDuplicate", bit_duplicate);
11510447Snilay@cs.wisc.edu            reorder_mux->construct();
11610447Snilay@cs.wisc.edu
11710447Snilay@cs.wisc.edu            // Create barrelshifter
11810447Snilay@cs.wisc.edu            unsigned int shift_index_min = (unsigned int)ceil(log2(deserialization_ratio));
11910447Snilay@cs.wisc.edu            unsigned int shift_index_max = std::max(shift_index_min, (unsigned int) ceil(log2(out_bits)) - 1);
12010447Snilay@cs.wisc.edu
12110447Snilay@cs.wisc.edu            // Remember some things
12210447Snilay@cs.wisc.edu            getGenProperties()->set("ReorderDegree", reorder_degree);
12310447Snilay@cs.wisc.edu            getGenProperties()->set("ShiftIndexMin", shift_index_min);
12410447Snilay@cs.wisc.edu            getGenProperties()->set("ShiftIndexMax", shift_index_max);
12510447Snilay@cs.wisc.edu
12610447Snilay@cs.wisc.edu            const String& barrel_shift_name = "BarrelShifter";
12710447Snilay@cs.wisc.edu            BarrelShifter* barrel_shift = new BarrelShifter(barrel_shift_name, getTechModel());
12810447Snilay@cs.wisc.edu            barrel_shift->setParameter("NumberBits", out_bits);
12910447Snilay@cs.wisc.edu            barrel_shift->setParameter("ShiftIndexMax", shift_index_max);
13010447Snilay@cs.wisc.edu            barrel_shift->setParameter("ShiftIndexMin", shift_index_min);
13110447Snilay@cs.wisc.edu            barrel_shift->setParameter("BitDuplicate", bit_duplicate);
13210447Snilay@cs.wisc.edu            barrel_shift->construct();
13310447Snilay@cs.wisc.edu
13410447Snilay@cs.wisc.edu            // Connect serializer
13510447Snilay@cs.wisc.edu            portConnect(deserializer, "In", "DeserializerIn");
13610447Snilay@cs.wisc.edu            portConnect(deserializer, "Out", "BarrelShiftIn");
13710447Snilay@cs.wisc.edu            portConnect(deserializer, "InCK", "LinkCK");
13810447Snilay@cs.wisc.edu
13910447Snilay@cs.wisc.edu            // Connect barrelshifter
14010447Snilay@cs.wisc.edu            // TODO: Connect barrelshift shifts!
14110447Snilay@cs.wisc.edu            portConnect(barrel_shift, "In", "BarrelShiftIn");
14210447Snilay@cs.wisc.edu            portConnect(barrel_shift, "Out", "Out");
14310447Snilay@cs.wisc.edu
14410447Snilay@cs.wisc.edu            // Connect bit reorder muxes
14510447Snilay@cs.wisc.edu            // TODO: Connect re-order multiplex select signals!
14610447Snilay@cs.wisc.edu            for (unsigned int i = 0; i < reorder_degree; i++)
14710447Snilay@cs.wisc.edu                portConnect(reorder_mux, "In" + (String) i, "ReorderIn", makeNetIndex(i, i+in_bits-1));
14810447Snilay@cs.wisc.edu            portConnect(reorder_mux, "Out", "DeserializerIn");
14910447Snilay@cs.wisc.edu
15010447Snilay@cs.wisc.edu            addSubInstances(barrel_shift, 1.0);
15110447Snilay@cs.wisc.edu            addSubInstances(reorder_mux, 1.0);
15210447Snilay@cs.wisc.edu            addElectricalSubResults(barrel_shift, 1.0);
15310447Snilay@cs.wisc.edu            addElectricalSubResults(reorder_mux, 1.0);
15410447Snilay@cs.wisc.edu            getEventResult("ProcessBits")->addSubResult(barrel_shift->getEventResult("BarrelShift"), barrel_shift_name, 1.0);
15510447Snilay@cs.wisc.edu            getEventResult("ProcessBits")->addSubResult(reorder_mux->getEventResult("Mux"), reorder_mux_name, 1.0);
15610447Snilay@cs.wisc.edu        }
15710447Snilay@cs.wisc.edu        else if ((tuning_method == "FullThermal") || (tuning_method == "AthermalWithTrim"))
15810447Snilay@cs.wisc.edu        {
15910447Snilay@cs.wisc.edu            // If no bit reshuffling backend is present, then just connect deserializer up
16010447Snilay@cs.wisc.edu            portConnect(deserializer, "In", "In");
16110447Snilay@cs.wisc.edu            portConnect(deserializer, "Out", "Out");
16210447Snilay@cs.wisc.edu            portConnect(deserializer, "InCK", "LinkCK");
16310447Snilay@cs.wisc.edu        }
16410447Snilay@cs.wisc.edu        else
16510447Snilay@cs.wisc.edu        {
16610447Snilay@cs.wisc.edu            ASSERT(false, "[Error] " + getInstanceName() + " -> Unknown ring tuning method '" + tuning_method + "'!");
16710447Snilay@cs.wisc.edu        }
16810447Snilay@cs.wisc.edu
16910447Snilay@cs.wisc.edu        return;
17010447Snilay@cs.wisc.edu    }
17110447Snilay@cs.wisc.edu
17210447Snilay@cs.wisc.edu    void OpticalLinkBackendRx::updateModel()
17310447Snilay@cs.wisc.edu    {
17410447Snilay@cs.wisc.edu        // Update everyone
17510447Snilay@cs.wisc.edu        Model::updateModel();
17610447Snilay@cs.wisc.edu        // Update ring tuning power
17710447Snilay@cs.wisc.edu        getNddPowerResult("RingTuning")->setValue(getRingTuningPower());
17810447Snilay@cs.wisc.edu        return;
17910447Snilay@cs.wisc.edu    }
18010447Snilay@cs.wisc.edu
18110447Snilay@cs.wisc.edu    void OpticalLinkBackendRx::propagateTransitionInfo()
18210447Snilay@cs.wisc.edu    {
18310447Snilay@cs.wisc.edu        // Get parameters
18410447Snilay@cs.wisc.edu        const String& tuning_method = getParameter("RingTuningMethod");;
18510447Snilay@cs.wisc.edu
18610447Snilay@cs.wisc.edu        // Get properties
18710447Snilay@cs.wisc.edu
18810447Snilay@cs.wisc.edu        // Update the deserializer
18910447Snilay@cs.wisc.edu        if ((tuning_method == "ThermalWithBitReshuffle") || (tuning_method == "ElectricalAssistWithBitReshuffle"))
19010447Snilay@cs.wisc.edu        {
19110447Snilay@cs.wisc.edu            // Get generated properties
19210447Snilay@cs.wisc.edu            unsigned int reorder_degree = getGenProperties()->get("ReorderDegree");
19310447Snilay@cs.wisc.edu            unsigned int shift_index_min = getGenProperties()->get("ShiftIndexMin");
19410447Snilay@cs.wisc.edu            unsigned int shift_index_max = getGenProperties()->get("ShiftIndexMax");
19510447Snilay@cs.wisc.edu
19610447Snilay@cs.wisc.edu            // Reorder mux shift select bits
19710447Snilay@cs.wisc.edu            unsigned int reorder_sel_bits = (unsigned int)ceil(log2(reorder_degree));
19810447Snilay@cs.wisc.edu
19910447Snilay@cs.wisc.edu            // Create bit reorder muxes
20010447Snilay@cs.wisc.edu            const String& reorder_mux_name = "ReorderMux";
20110447Snilay@cs.wisc.edu            ElectricalModel* reorder_mux = (ElectricalModel*) getSubInstance(reorder_mux_name);
20210447Snilay@cs.wisc.edu            for (unsigned int i = 0; i < reorder_degree; ++i)
20310447Snilay@cs.wisc.edu                propagatePortTransitionInfo(reorder_mux, "In" + (String) i, "In");
20410447Snilay@cs.wisc.edu            // Set select transitions to be 0, since these are statically configured
20510447Snilay@cs.wisc.edu            for (unsigned int i = 0; i < reorder_sel_bits; ++i)
20610447Snilay@cs.wisc.edu                reorder_mux->getInputPort("Sel" + (String) i)->setTransitionInfo(TransitionInfo(0.5, 0.0, 0.5));
20710447Snilay@cs.wisc.edu            reorder_mux->use();
20810447Snilay@cs.wisc.edu
20910447Snilay@cs.wisc.edu            // Update the deserializer
21010447Snilay@cs.wisc.edu            ElectricalModel* deserializer = (ElectricalModel*) getSubInstance("Deserializer");
21110447Snilay@cs.wisc.edu            propagatePortTransitionInfo(deserializer, "In", reorder_mux, "Out");
21210447Snilay@cs.wisc.edu            propagatePortTransitionInfo(deserializer, "InCK", "LinkCK");
21310447Snilay@cs.wisc.edu            deserializer->use();
21410447Snilay@cs.wisc.edu
21510447Snilay@cs.wisc.edu            // Update barrel shifter
21610447Snilay@cs.wisc.edu            const String& barrel_shift_name = "BarrelShifter";
21710447Snilay@cs.wisc.edu            ElectricalModel* barrel_shift = (ElectricalModel*) getSubInstance(barrel_shift_name);
21810447Snilay@cs.wisc.edu            propagatePortTransitionInfo(barrel_shift, "In", deserializer, "Out");
21910447Snilay@cs.wisc.edu            // Set shift transitions to be very low (since it is affected by slow temperature time constants)
22010447Snilay@cs.wisc.edu            for (unsigned int i = shift_index_min; i <= shift_index_max; ++i)
22110447Snilay@cs.wisc.edu                barrel_shift->getInputPort("Shift" + (String) i)->setTransitionInfo(TransitionInfo(0.499, 0.001, 0.499));
22210447Snilay@cs.wisc.edu            barrel_shift->use();
22310447Snilay@cs.wisc.edu
22410447Snilay@cs.wisc.edu            // Set output transition info
22510447Snilay@cs.wisc.edu            propagatePortTransitionInfo("Out", barrel_shift, "Out");
22610447Snilay@cs.wisc.edu        }
22710447Snilay@cs.wisc.edu        else if ((tuning_method == "FullThermal") || (tuning_method == "AthermalWithTrim"))
22810447Snilay@cs.wisc.edu        {
22910447Snilay@cs.wisc.edu            // Update the deserializer
23010447Snilay@cs.wisc.edu            ElectricalModel* deserializer = (ElectricalModel*) getSubInstance("Deserializer");
23110447Snilay@cs.wisc.edu            propagatePortTransitionInfo(deserializer, "In", "In");
23210447Snilay@cs.wisc.edu            propagatePortTransitionInfo(deserializer, "InCK", "LinkCK");
23310447Snilay@cs.wisc.edu            deserializer->use();
23410447Snilay@cs.wisc.edu
23510447Snilay@cs.wisc.edu            // Set output transition info
23610447Snilay@cs.wisc.edu            propagatePortTransitionInfo("Out", deserializer, "Out");
23710447Snilay@cs.wisc.edu        }
23810447Snilay@cs.wisc.edu        else
23910447Snilay@cs.wisc.edu        {
24010447Snilay@cs.wisc.edu            ASSERT(false, "[Error] " + getInstanceName() + " -> Unknown ring tuning method '" + tuning_method + "'!");
24110447Snilay@cs.wisc.edu        }
24210447Snilay@cs.wisc.edu
24310447Snilay@cs.wisc.edu        return;
24410447Snilay@cs.wisc.edu    }
24510447Snilay@cs.wisc.edu
24610447Snilay@cs.wisc.edu    double OpticalLinkBackendRx::getRingTuningPower()
24710447Snilay@cs.wisc.edu    {
24810447Snilay@cs.wisc.edu        // Get properties
24910447Snilay@cs.wisc.edu        const String& tuning_method = getParameter("RingTuningMethod");;
25010447Snilay@cs.wisc.edu        unsigned int number_rings = getGenProperties()->get("InBits");
25110447Snilay@cs.wisc.edu
25210447Snilay@cs.wisc.edu        // Get tech model parameters
25310447Snilay@cs.wisc.edu        double R = getTechModel()->get("Ring->Radius");
25410447Snilay@cs.wisc.edu        double n_g = getTechModel()->get("Ring->GroupIndex");
25510447Snilay@cs.wisc.edu        double heating_efficiency = getTechModel()->get("Ring->HeatingEfficiency");
25610447Snilay@cs.wisc.edu        // This can actually be derived if we know thermo-optic coefficient (delta n / delta T)
25710447Snilay@cs.wisc.edu        double tuning_efficiency = getTechModel()->get("Ring->TuningEfficiency");
25810447Snilay@cs.wisc.edu        double sigma_r_local = getTechModel()->get("Ring->LocalVariationSigma");
25910447Snilay@cs.wisc.edu        double sigma_r_systematic = getTechModel()->get("Ring->SystematicVariationSigma");
26010447Snilay@cs.wisc.edu        double T_max = getTechModel()->get("Ring->TemperatureMax");
26110447Snilay@cs.wisc.edu        double T_min = getTechModel()->get("Ring->TemperatureMin");
26210447Snilay@cs.wisc.edu        double T = getTechModel()->get("Temperature");
26310447Snilay@cs.wisc.edu
26410447Snilay@cs.wisc.edu        // Get constants
26510447Snilay@cs.wisc.edu        double c = Constants::c;
26610447Snilay@cs.wisc.edu        double pi = Constants::pi;
26710447Snilay@cs.wisc.edu
26810447Snilay@cs.wisc.edu        double tuning_power = 0.0;
26910447Snilay@cs.wisc.edu
27010447Snilay@cs.wisc.edu        if (tuning_method == "ThermalWithBitReshuffle")
27110447Snilay@cs.wisc.edu        {
27210447Snilay@cs.wisc.edu            // When an electrical backend is present, rings only have to tune to the nearest channel
27310447Snilay@cs.wisc.edu            // This can be approximated as each ring tuning to something exactly 1 channel away
27410447Snilay@cs.wisc.edu
27510447Snilay@cs.wisc.edu            // Setup calculations
27610447Snilay@cs.wisc.edu            double L = 2 * pi * R;                  // Optical length
27710447Snilay@cs.wisc.edu            double FSR = c / (n_g * L);             // Free spectral range
27810447Snilay@cs.wisc.edu            double freq_sep = FSR / number_rings;   // Channel separation
27910447Snilay@cs.wisc.edu
28010447Snilay@cs.wisc.edu            // Calculate tuning power
28110447Snilay@cs.wisc.edu            tuning_power = number_rings * freq_sep / (tuning_efficiency * heating_efficiency);
28210447Snilay@cs.wisc.edu        }
28310447Snilay@cs.wisc.edu        else if (tuning_method == "ElectricalAssistWithBitReshuffle")
28410447Snilay@cs.wisc.edu        {
28510447Snilay@cs.wisc.edu            // Electrical assistance allows for a fraction of the tuning range to be
28610447Snilay@cs.wisc.edu            // covered electrically. This is most pronounced when the tuning range is small,
28710447Snilay@cs.wisc.edu            // such is the case when bit reshuffling is applied
28810447Snilay@cs.wisc.edu
28910447Snilay@cs.wisc.edu            // Get electrically tunable range
29010447Snilay@cs.wisc.edu            double max_assist = getTechModel()->get("Ring->MaxElectricallyTunableFreq");
29110447Snilay@cs.wisc.edu
29210447Snilay@cs.wisc.edu            // Setup calculations
29310447Snilay@cs.wisc.edu            double L = 2 * pi * R;                  // Optical length
29410447Snilay@cs.wisc.edu            double FSR = c / (n_g * L);             // Free spectral range
29510447Snilay@cs.wisc.edu            double freq_sep = FSR / number_rings;   // Channel separation
29610447Snilay@cs.wisc.edu            double heating_range = std::max(0.0, freq_sep - max_assist);  // The distance needed to bridge using heaters
29710447Snilay@cs.wisc.edu
29810447Snilay@cs.wisc.edu            // Calculate tuning power, which is really only the power spent on heating since
29910447Snilay@cs.wisc.edu            // distance tuned electrically is pretty much free
30010447Snilay@cs.wisc.edu            tuning_power = number_rings * heating_range / (tuning_efficiency * heating_efficiency);
30110447Snilay@cs.wisc.edu        }
30210447Snilay@cs.wisc.edu        else if (tuning_method == "FullThermal")
30310447Snilay@cs.wisc.edu        {
30410447Snilay@cs.wisc.edu            // If there is no bit reshuffling backend, each ring must tune to an
30510447Snilay@cs.wisc.edu            // absolute channel frequency. Since we can only heat rings (and not cool),
30610447Snilay@cs.wisc.edu            // we can only red-shift (decrease frequency). Thus, a fabrication bias
30710447Snilay@cs.wisc.edu            // must be applied such that under any process and temperature corner, the
30810447Snilay@cs.wisc.edu            // ring resonance remains above channel resonance
30910447Snilay@cs.wisc.edu            // I'll use 3 sigmas of sigma_r_local and sigma_r_systematic, and bias against
31010447Snilay@cs.wisc.edu            // the full temperature range
31110447Snilay@cs.wisc.edu            double fabrication_bias_freq = 3.0 * sqrt(pow(sigma_r_local, 2) + pow(sigma_r_systematic, 2)) +
31210447Snilay@cs.wisc.edu                (T_max - T_min) * tuning_efficiency;
31310447Snilay@cs.wisc.edu
31410447Snilay@cs.wisc.edu            // The local/systematic variations are 0 on average. Thus, the tuning distance can be calculated as
31510447Snilay@cs.wisc.edu            double tuning_distance = fabrication_bias_freq - (T - T_min) * tuning_efficiency;
31610447Snilay@cs.wisc.edu
31710447Snilay@cs.wisc.edu            // Tuning power needed is just the number of rings * tuning distance / (tuning and heating efficiencies)
31810447Snilay@cs.wisc.edu            tuning_power = number_rings * tuning_distance / (tuning_efficiency * heating_efficiency);
31910447Snilay@cs.wisc.edu        }
32010447Snilay@cs.wisc.edu        else if (tuning_method == "AthermalWithTrim")
32110447Snilay@cs.wisc.edu        {
32210447Snilay@cs.wisc.edu            // Athermal!
32310447Snilay@cs.wisc.edu            tuning_power = 0;
32410447Snilay@cs.wisc.edu        }
32510447Snilay@cs.wisc.edu        else
32610447Snilay@cs.wisc.edu        {
32710447Snilay@cs.wisc.edu            ASSERT(false, "[Error] " + getInstanceName() + " -> Unknown ring tuning method '" + tuning_method + "'!");
32810447Snilay@cs.wisc.edu        }
32910447Snilay@cs.wisc.edu
33010447Snilay@cs.wisc.edu        return tuning_power;
33110447Snilay@cs.wisc.edu    }
33210447Snilay@cs.wisc.edu
33310447Snilay@cs.wisc.edu    unsigned int OpticalLinkBackendRx::getBitReorderDegree()
33410447Snilay@cs.wisc.edu    {
33510447Snilay@cs.wisc.edu        // Get properties
33610447Snilay@cs.wisc.edu        unsigned int number_rings = getGenProperties()->get("InBits");
33710447Snilay@cs.wisc.edu
33810447Snilay@cs.wisc.edu        // Get tech model parameters
33910447Snilay@cs.wisc.edu        double R = getTechModel()->get("Ring->Radius");
34010447Snilay@cs.wisc.edu        double n_g = getTechModel()->get("Ring->GroupIndex");
34110447Snilay@cs.wisc.edu        // This can actually be derived if we know thermo-optic coefficient (delta n / delta T)
34210447Snilay@cs.wisc.edu        double sigma_r_local = getTechModel()->get("Ring->LocalVariationSigma");
34310447Snilay@cs.wisc.edu
34410447Snilay@cs.wisc.edu        // Get constants
34510447Snilay@cs.wisc.edu        double c = Constants::c;
34610447Snilay@cs.wisc.edu        double pi = Constants::pi;
34710447Snilay@cs.wisc.edu
34810447Snilay@cs.wisc.edu        // Calculates the degree of bit re-order multiplexing needed for bit-reshuffling backend
34910447Snilay@cs.wisc.edu        // Bit reshuffling tuning is largely unaffected by sigma_r_systematic. However, sigma_r_local
35010447Snilay@cs.wisc.edu        // Can potentially throw each ring to a channel several channels away. This just calculates
35110447Snilay@cs.wisc.edu        // the degree of bit reorder muxing needed to realign bits in the correct order
35210447Snilay@cs.wisc.edu
35310447Snilay@cs.wisc.edu        // Setup calculations
35410447Snilay@cs.wisc.edu        double L = 2 * pi * R;                  // Optical length
35510447Snilay@cs.wisc.edu        double FSR = c / (n_g * L);             // Free spectral range
35610447Snilay@cs.wisc.edu        double freq_sep = FSR / number_rings;   // Channel separation
35710447Snilay@cs.wisc.edu        // Using 4 sigmas as the worst re-ordering case (must double to get both sides)
35810447Snilay@cs.wisc.edu        unsigned int worst_case_channels = (unsigned int)ceil(2.0 * 4.0 * sigma_r_local / freq_sep);
35910447Snilay@cs.wisc.edu
36010447Snilay@cs.wisc.edu        return worst_case_channels;
36110447Snilay@cs.wisc.edu    }
36210447Snilay@cs.wisc.edu
36310447Snilay@cs.wisc.edu} // namespace DSENT
36410447Snilay@cs.wisc.edu
365