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| author | Clément Zrounba <6691770+clement-z@users.noreply.github.com> | 2023-09-30 23:06:01 +0200 |
|---|---|---|
| committer | Clément Zrounba <6691770+clement-z@users.noreply.github.com> | 2023-09-30 23:26:46 +0200 |
| commit | ff9b8bb838ecdfbfc1dc81038fcf3b2a87636982 (patch) | |
| tree | 21f27be782ce11c6d00b96ce100a2bff88141b2e /src/devices/crossing.cpp | |
| download | specs-ff9b8bb838ecdfbfc1dc81038fcf3b2a87636982.tar.gz specs-ff9b8bb838ecdfbfc1dc81038fcf3b2a87636982.zip | |
Initial release
Diffstat (limited to 'src/devices/crossing.cpp')
| -rw-r--r-- | src/devices/crossing.cpp | 129 |
1 files changed, 129 insertions, 0 deletions
diff --git a/src/devices/crossing.cpp b/src/devices/crossing.cpp new file mode 100644 index 0000000..f8c8f5e --- /dev/null +++ b/src/devices/crossing.cpp @@ -0,0 +1,129 @@ +#include "specs.h" +#include "crossing.h" + +using namespace std; + +void CrossingUni::on_input_changed() +{ + // If it's NAN, it's because it was not specified and thus the linear should be zero (-inf dB) + const double crosstalk_field_lin = (isnan(m_crosstalk_power_dB)) ? 0 : pow(10.0, m_crosstalk_power_dB / 20); + const double transmission_field_lin = pow(10.0, -m_attenuation_power_dB / 20); // due to attenuations + + // Pre-calculate S-parameters + OpticalSignal::field_type S13, S14, S23, S24; + // the second part relates to power that is crossed over (not transmitted) + S13 = polar(transmission_field_lin, 0.0); // From in1 to out1 + S24 = polar(transmission_field_lin, 0.0); // From in2 to out2 + S14 = polar(crosstalk_field_lin, 0.0); // From in1 to out2 (crosstalk) + S23 = polar(crosstalk_field_lin, 0.0); // From in2 to out1 (crosstalk) + + if (specsGlobalConfig.verbose_component_initialization) + { + cout << name() << ":" << endl; + cout << "transmission_power = " << norm(S13) << " W/W" << endl; + cout << "crosstalk_power = " << norm(S14)<< " W/W" << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p_in1.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p_out1.get_interface()))->name(); + cout << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p_in2.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p_out2.get_interface()))->name(); + cout << endl; + + cout << endl; + } + + while (true) { + // Wait for a new input signal + wait(); + + // Read current inputs + auto s1 = p_in1->read(); + auto s2 = p_in2->read(); + + // Apply S-parameters + auto s3 = s1 * S13 + s2 * S23; + auto s4 = s1 * S14 + s2 * S24; + + // Get new IDs for signal + s3.getNewId(); + s4.getNewId(); + + // Write to ouput port after delay + m_out1_writer.delayedWrite(s3, sc_time(0, SC_NS)); + m_out2_writer.delayedWrite(s4, sc_time(0, SC_NS)); + } +} + +void CrossingBi::on_input_changed() +{ + // If it's NAN, it's because it was not specified and thus the linear should be zero (-inf dB) + const double crosstalk_field_lin = (isnan(m_crosstalk_power_dB)) ? 0 : pow(10.0, m_crosstalk_power_dB / 20); + const double transmission_field_lin = pow(10.0, -m_attenuation_power_dB / 20); // due to attenuations + + // Pre-calculate S-parameters + OpticalSignal::field_type through = polar(transmission_field_lin, 0.0); + OpticalSignal::field_type cross = polar(crosstalk_field_lin, 0.0); + + OpticalSignal::field_type S02, S03, S12, S13; + // the second part relates to power that is crossed over (not transmitted) + S02 = through; // From in1 to out1 + S13 = through; // From in2 to out2 + S03 = cross; // From in1 to out2 (crosstalk) + S12 = cross; // From in2 to out1 (crosstalk) + + if (specsGlobalConfig.verbose_component_initialization) + { + cout << name() << ":" << endl; + cout << "transmission_power = " << norm(through) << " W/W" << endl; + cout << "crosstalk_power = " << norm(cross)<< " W/W" << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p0_in.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p2_out.get_interface()))->name(); + cout << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p1_in.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p3_out.get_interface()))->name(); + cout << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p2_in.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p0_out.get_interface()))->name(); + cout << endl; + cout << (dynamic_cast<spx::oa_signal_type *>(p3_in.get_interface()))->name(); + cout << " --- ---> "; + cout << (dynamic_cast<spx::oa_signal_type *>(p1_out.get_interface()))->name(); + cout << endl; + + cout << endl; + } + + while (true) { + // Wait for a new input signal + wait(); + + // Read current inputs + auto s0_in = p0_in->read(); + auto s1_in = p1_in->read(); + auto s2_in = p2_in->read(); + auto s3_in = p3_in->read(); + + // Apply S-parameters + auto s0_out = s2_in * S02 + s3_in * S03; + auto s1_out = s2_in * S12 + s3_in * S13; + auto s2_out = s0_in * S02 + s1_in * S12; + auto s3_out = s0_in * S03 + s1_in * S13; + + // Get new IDs for signal + s0_out.getNewId(); + s1_out.getNewId(); + s2_out.getNewId(); + s3_out.getNewId(); + + // Write to ouput port after delay + m_p0_out_writer.delayedWrite(s0_out, sc_time(0, SC_NS)); + m_p1_out_writer.delayedWrite(s1_out, sc_time(0, SC_NS)); + m_p2_out_writer.delayedWrite(s2_out, sc_time(0, SC_NS)); + m_p3_out_writer.delayedWrite(s3_out, sc_time(0, SC_NS)); + } +}
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