// // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include "rhodium_radio_ctrl_impl.hpp" #include "rhodium_constants.hpp" #include #include #include #include #include #include using namespace uhd; using namespace uhd::usrp; using namespace uhd::rfnoc; namespace { constexpr int NUM_THRESHOLDS = 13; constexpr std::array FREQ_THRESHOLDS = {0.45e9, 0.5e9, 1e9, 1.5e9, 2e9, 2.5e9, 3e9, 3.55e9, 4e9, 4.5e9, 5e9, 5.5e9, 6e9}; constexpr std::array LMX_GAIN_VALUES = {18, 18, 17, 17, 17, 16, 12, 11, 11, 11, 10, 13, 18}; const std::array DSA_RX_GAIN_VALUES = {19, 19, 21, 21, 20, 20, 22, 21, 20, 22, 22, 24, 26}; const std::array DSA_TX_GAIN_VALUES = {19, 19, 21, 21, 20, 20, 22, 21, 22, 24, 24, 26, 28}; // Describes the lowband LO in terms of the master clock rate const std::map MCR_TO_LOWBAND_IF = { {200e6, 1200e6}, {245.76e6, 1228.8e6}, {250e6, 1500e6}, }; // validation helpers std::vector _get_lo_names() { return { RHODIUM_LO1, RHODIUM_LO2 }; } void _validate_lo_name(const std::string& name, const std::string& function_name) { if (!uhd::has(_get_lo_names(), name) and name != radio_ctrl::ALL_LOS) { throw uhd::value_error(str(boost::format( "%s was called with an invalid LO name: %s") % function_name % name)); } } // object agnostic helpers std::vector _get_lo_sources(const std::string& name) { if (name == RHODIUM_LO1 or name == radio_ctrl::ALL_LOS) { return { "internal", "external" }; } else { return { "internal" }; } } } /****************************************************************************** * Property Getters *****************************************************************************/ std::vector rhodium_radio_ctrl_impl::get_tx_lo_names( const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_names(chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); return _get_lo_names(); } std::vector rhodium_radio_ctrl_impl::get_rx_lo_names( const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_names(chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); return _get_lo_names(); } std::vector rhodium_radio_ctrl_impl::get_tx_lo_sources( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_sources(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_sources"); return _get_lo_sources(name); } std::vector rhodium_radio_ctrl_impl::get_rx_lo_sources( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_sources(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_sources"); return _get_lo_sources(name); } freq_range_t rhodium_radio_ctrl_impl::_get_lo_freq_range(const std::string &name) const { if (name == RHODIUM_LO1) { return freq_range_t{ RHODIUM_LO1_MIN_FREQ, RHODIUM_LO1_MAX_FREQ }; } else if (name == RHODIUM_LO2) { // The Lowband LO is a fixed frequency return freq_range_t{ _get_lowband_lo_freq(), _get_lowband_lo_freq() }; } else { throw uhd::runtime_error( "LO frequency range must be retrieved for each stage individually"); } } freq_range_t rhodium_radio_ctrl_impl::get_tx_lo_freq_range( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_freq_range(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_freq_range"); return _get_lo_freq_range(name); } freq_range_t rhodium_radio_ctrl_impl::get_rx_lo_freq_range( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_freq_range(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_freq_range"); return _get_lo_freq_range(name); } /****************************************************************************** * Frequency Control *****************************************************************************/ double rhodium_radio_ctrl_impl::set_tx_lo_freq( const double freq, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_freq(freq=" << freq << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_freq"); if (name == ALL_LOS) { throw uhd::runtime_error("LO frequency must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO cannot be tuned"); return _get_lowband_lo_freq(); } const auto sd_enabled = _get_spur_dodging_enabled(TX_DIRECTION); const auto sd_threshold = _get_spur_dodging_threshold(TX_DIRECTION); _tx_lo_freq = _tx_lo->set_frequency(freq, sd_enabled, sd_threshold); set_tx_lo_gain(_get_lo_dsa_setting(_tx_lo_freq, TX_DIRECTION), RHODIUM_LO1, chan); set_tx_lo_power(_get_lo_power_setting(_tx_lo_freq), RHODIUM_LO1, chan); _cpld->set_tx_lo_path(_tx_lo_freq); return _tx_lo_freq; } double rhodium_radio_ctrl_impl::set_rx_lo_freq( const double freq, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_freq(freq=" << freq << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_rx_lo_freq"); if (name == ALL_LOS) { throw uhd::runtime_error("LO frequency must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO cannot be tuned"); return _get_lowband_lo_freq(); } const auto sd_enabled = _get_spur_dodging_enabled(RX_DIRECTION); const auto sd_threshold = _get_spur_dodging_threshold(RX_DIRECTION); _rx_lo_freq = _rx_lo->set_frequency(freq, sd_enabled, sd_threshold); set_rx_lo_gain(_get_lo_dsa_setting(_rx_lo_freq, RX_DIRECTION), RHODIUM_LO1, chan); set_rx_lo_power(_get_lo_power_setting(_rx_lo_freq), RHODIUM_LO1, chan); _cpld->set_rx_lo_path(_rx_lo_freq); return _rx_lo_freq; } double rhodium_radio_ctrl_impl::get_tx_lo_freq( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_freq(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_freq"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO frequency must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _tx_lo_freq : _get_lowband_lo_freq(); } double rhodium_radio_ctrl_impl::get_rx_lo_freq( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_freq(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_freq"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO frequency must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _rx_lo_freq : _get_lowband_lo_freq(); } /****************************************************************************** * Source Control *****************************************************************************/ void rhodium_radio_ctrl_impl::set_tx_lo_source( const std::string& src, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_source(src=" << src << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_source"); if (name == RHODIUM_LO2) { if (src != "internal") { throw uhd::value_error("The Lowband LO can only be set to internal"); } return; } if (src == "internal") { _tx_lo->set_output_enable(lmx2592_iface::output_t::RF_OUTPUT_A, true); _cpld->set_tx_lo_source(rhodium_cpld_ctrl::tx_lo_input_sel_t::TX_LO_INPUT_SEL_INTERNAL); } else if (src == "external") { _tx_lo->set_output_enable(lmx2592_iface::output_t::RF_OUTPUT_A, false); _cpld->set_tx_lo_source(rhodium_cpld_ctrl::tx_lo_input_sel_t::TX_LO_INPUT_SEL_EXTERNAL); } else { throw uhd::value_error(str(boost::format("set_tx_lo_source was called with an invalid LO source: %s Valid sources are [internal, external]") % src)); } _update_corrections(src, get_tx_frequency(0), TX_DIRECTION); _tx_lo_source = src; } void rhodium_radio_ctrl_impl::set_rx_lo_source( const std::string& src, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_source(src=" << src << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_source"); if (name == RHODIUM_LO2) { if (src != "internal") { throw uhd::value_error("The Lowband LO can only be set to internal"); } return; } if (src == "internal") { _rx_lo->set_output_enable(lmx2592_iface::output_t::RF_OUTPUT_A, true); _cpld->set_rx_lo_source(rhodium_cpld_ctrl::rx_lo_input_sel_t::RX_LO_INPUT_SEL_INTERNAL); } else if (src == "external") { _rx_lo->set_output_enable(lmx2592_iface::output_t::RF_OUTPUT_A, false); _cpld->set_rx_lo_source(rhodium_cpld_ctrl::rx_lo_input_sel_t::RX_LO_INPUT_SEL_EXTERNAL); } else { throw uhd::value_error(str(boost::format("set_rx_lo_source was called with an invalid LO source: %s Valid sources for LO1 are [internal, external]") % src)); } _update_corrections(src, get_rx_frequency(0), RX_DIRECTION); _rx_lo_source = src; } const std::string rhodium_radio_ctrl_impl::get_tx_lo_source( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_source(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_source"); return (name == RHODIUM_LO1 or name == ALL_LOS) ? _tx_lo_source : "internal"; } const std::string rhodium_radio_ctrl_impl::get_rx_lo_source( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_source(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_source"); return (name == RHODIUM_LO1 or name == ALL_LOS) ? _rx_lo_source : "internal"; } /****************************************************************************** * Export Control *****************************************************************************/ void rhodium_radio_ctrl_impl::_set_lo1_export_enabled( const bool enabled, const direction_t dir ) { auto& _lo_ctrl = (dir == RX_DIRECTION) ? _rx_lo : _tx_lo; _lo_ctrl->set_output_enable(lmx2592_iface::output_t::RF_OUTPUT_B, enabled); if (_lo_dist_present) { const auto direction = (dir == RX_DIRECTION) ? "RX" : "TX"; _rpcc->notify_with_token(_rpc_prefix + "enable_lo_export", direction, enabled); } } void rhodium_radio_ctrl_impl::set_tx_lo_export_enabled( const bool enabled, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_export_enabled(enabled=" << enabled << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_export_enabled"); if (name == RHODIUM_LO2) { if (enabled) { throw uhd::value_error("The lowband LO cannot be exported"); } return; } _set_lo1_export_enabled(enabled, TX_DIRECTION); _tx_lo_exported = enabled; } void rhodium_radio_ctrl_impl::set_rx_lo_export_enabled( const bool enabled, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_export_enabled(enabled=" << enabled << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_rx_lo_export_enabled"); if (name == RHODIUM_LO2) { if (enabled) { throw uhd::value_error("The lowband LO cannot be exported"); } return; } _set_lo1_export_enabled(enabled, RX_DIRECTION); _rx_lo_exported = enabled; } bool rhodium_radio_ctrl_impl::get_tx_lo_export_enabled( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_export_enabled(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_export_enabled"); return (name == RHODIUM_LO1 or name == ALL_LOS) ? _tx_lo_exported : false; } bool rhodium_radio_ctrl_impl::get_rx_lo_export_enabled( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_export_enabled(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_export_enabled"); return (name == RHODIUM_LO1 or name == ALL_LOS) ? _rx_lo_exported : false; } /****************************************************************************** * LO Distribution Control *****************************************************************************/ void rhodium_radio_ctrl_impl::_validate_output_port(const std::string& port_name, const std::string& function_name) { if (!_lo_dist_present) { throw uhd::runtime_error(str(boost::format( "%s can only be called if the LO distribution board was detected") % function_name)); } if (!uhd::has(LO_OUTPUT_PORT_NAMES, port_name)) { throw uhd::value_error(str(boost::format( "%s was called with an invalid LO output port: %s Valid ports are [LO_OUT_0, LO_OUT_1, LO_OUT_2, LO_OUT_3]") % function_name % port_name)); } } void rhodium_radio_ctrl_impl::_set_lo_output_enabled( const bool enabled, const std::string& port_name, const direction_t dir ) { auto direction = (dir == RX_DIRECTION) ? "RX" : "TX"; auto name_iter = std::find(LO_OUTPUT_PORT_NAMES.begin(), LO_OUTPUT_PORT_NAMES.end(), port_name); auto index = std::distance(LO_OUTPUT_PORT_NAMES.begin(), name_iter); _rpcc->notify_with_token(_rpc_prefix + "enable_lo_output", direction, index, enabled); auto out_enabled = (dir == RX_DIRECTION) ? _lo_dist_rx_out_enabled : _lo_dist_tx_out_enabled; out_enabled[index] = enabled; } void rhodium_radio_ctrl_impl::set_tx_lo_output_enabled( const bool enabled, const std::string& port_name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_output_enabled(enabled=" << enabled << ", port_name=" << port_name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_output_port(port_name, "set_tx_lo_output_enabled"); _set_lo_output_enabled(enabled, port_name, TX_DIRECTION); } void rhodium_radio_ctrl_impl::set_rx_lo_output_enabled( const bool enabled, const std::string& port_name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_output_enabled(enabled=" << enabled << ", port_name=" << port_name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_output_port(port_name, "set_rx_lo_output_enabled"); _set_lo_output_enabled(enabled, port_name, RX_DIRECTION); } bool rhodium_radio_ctrl_impl::_get_lo_output_enabled( const std::string& port_name, const direction_t dir ) { auto name_iter = std::find(LO_OUTPUT_PORT_NAMES.begin(), LO_OUTPUT_PORT_NAMES.end(), port_name); auto index = std::distance(LO_OUTPUT_PORT_NAMES.begin(), name_iter); auto out_enabled = (dir == RX_DIRECTION) ? _lo_dist_rx_out_enabled : _lo_dist_tx_out_enabled; return out_enabled[index]; } bool rhodium_radio_ctrl_impl::get_tx_lo_output_enabled( const std::string& port_name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_output_enabled(port_name=" << port_name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_output_port(port_name, "get_tx_lo_output_enabled"); return _get_lo_output_enabled(port_name, TX_DIRECTION); } bool rhodium_radio_ctrl_impl::get_rx_lo_output_enabled( const std::string& port_name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_output_enabled(port_name=" << port_name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_output_port(port_name, "get_rx_lo_output_enabled"); return _get_lo_output_enabled(port_name, RX_DIRECTION); } /****************************************************************************** * Gain Control *****************************************************************************/ double rhodium_radio_ctrl_impl::set_tx_lo_gain( double gain, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_gain(gain=" << gain << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_gain"); if (name == ALL_LOS) { throw uhd::runtime_error("LO gain must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO does not have configurable gain"); return 0.0; } auto index = _get_lo_gain_range().clip(gain); _cpld->set_lo_gain(index, TX_DIRECTION); _lo_tx_gain = index; return _lo_tx_gain; } double rhodium_radio_ctrl_impl::set_rx_lo_gain( double gain, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_gain(gain=" << gain << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_rx_lo_gain"); if (name == ALL_LOS) { throw uhd::runtime_error("LO gain must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO does not have configurable gain"); return 0.0; } auto index = _get_lo_gain_range().clip(gain); _cpld->set_lo_gain(index, RX_DIRECTION); _lo_rx_gain = index; return _lo_rx_gain; } double rhodium_radio_ctrl_impl::get_tx_lo_gain( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_gain(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_gain"); if (name == ALL_LOS) { throw uhd::runtime_error("LO gain must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _lo_rx_gain : 0.0; } double rhodium_radio_ctrl_impl::get_rx_lo_gain( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_gain(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_gain"); if (name == ALL_LOS) { throw uhd::runtime_error("LO gain must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _lo_tx_gain : 0.0; } /****************************************************************************** * Output Power Control *****************************************************************************/ double rhodium_radio_ctrl_impl::_set_lo1_power( const double power, const direction_t dir ) { auto& _lo_ctrl = (dir == RX_DIRECTION) ? _rx_lo : _tx_lo; auto coerced_power = static_cast(_get_lo_power_range().clip(power, true)); _lo_ctrl->set_output_power(lmx2592_iface::RF_OUTPUT_A, coerced_power); return coerced_power; } double rhodium_radio_ctrl_impl::set_tx_lo_power( const double power, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_tx_lo_power(power=" << power << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_tx_lo_power"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO output power must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO does not have configurable output power"); return 0.0; } _lo_tx_power = _set_lo1_power(power, TX_DIRECTION); return _lo_tx_power; } double rhodium_radio_ctrl_impl::set_rx_lo_power( const double power, const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "set_rx_lo_power(power=" << power << ", name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "set_rx_lo_power"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO output power must be set for each stage individually"); } if (name == RHODIUM_LO2) { UHD_LOG_WARNING(unique_id(), "The Lowband LO does not have configurable output power"); return 0.0; } _lo_rx_power = _set_lo1_power(power, RX_DIRECTION); return _lo_rx_power; } double rhodium_radio_ctrl_impl::get_tx_lo_power( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_tx_lo_power(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_tx_lo_power"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO output power must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _lo_tx_power : 0.0; } double rhodium_radio_ctrl_impl::get_rx_lo_power( const std::string& name, const size_t chan ) { UHD_LOG_TRACE(unique_id(), "get_rx_lo_power(name=" << name << ", chan=" << chan << ")"); UHD_ASSERT_THROW(chan == 0); _validate_lo_name(name, "get_rx_lo_power"); if (name == ALL_LOS) { throw uhd::runtime_error( "LO output power must be retrieved for each stage individually"); } return (name == RHODIUM_LO1) ? _lo_rx_power : 0.0; } /****************************************************************************** * Helper Functions *****************************************************************************/ double rhodium_radio_ctrl_impl::_get_lowband_lo_freq() const { return MCR_TO_LOWBAND_IF.at(_master_clock_rate); } uhd::gain_range_t rhodium_radio_ctrl_impl::_get_lo_gain_range() { return gain_range_t(LO_MIN_GAIN, LO_MAX_GAIN, LO_GAIN_STEP); } uhd::gain_range_t rhodium_radio_ctrl_impl::_get_lo_power_range() { return gain_range_t(LO_MIN_POWER, LO_MAX_POWER, LO_POWER_STEP); } int rhodium_radio_ctrl_impl::_get_lo_dsa_setting(const double freq, const direction_t dir) { int index = 0; while (freq > FREQ_THRESHOLDS[index+1]) { index++; } const double freq_low = FREQ_THRESHOLDS[index]; const double freq_high = FREQ_THRESHOLDS[index+1]; const auto& gain_table = (dir == RX_DIRECTION) ? DSA_RX_GAIN_VALUES : DSA_TX_GAIN_VALUES; const double gain_low = gain_table[index]; const double gain_high = gain_table[index+1]; const double slope = (gain_high - gain_low) / (freq_high - freq_low); const double gain_at_freq = gain_low + (freq - freq_low) * slope; UHD_LOG_TRACE(unique_id(), "Interpolated DSA Gain is " << gain_at_freq); return static_cast(std::round(gain_at_freq)); } unsigned int rhodium_radio_ctrl_impl::_get_lo_power_setting(double freq) { int index = 0; while (freq > FREQ_THRESHOLDS[index+1]) { index++; } const double freq_low = FREQ_THRESHOLDS[index]; const double freq_high = FREQ_THRESHOLDS[index+1]; const double power_low = LMX_GAIN_VALUES[index]; const double power_high = LMX_GAIN_VALUES[index+1]; const double slope = (power_high - power_low) / (freq_high - freq_low); const double power_at_freq = power_low + (freq - freq_low) * slope; UHD_LOG_TRACE(unique_id(), "Interpolated LMX Power is " << power_at_freq); return uhd::narrow_cast(std::lround(power_at_freq)); }