// license:GPL-2.0+ // copyright-holders:Couriersud /* * nld_system.c * */ #include "solver/nld_solver.h" #include "solver/nld_matrix_solver.h" #include "nlid_system.h" namespace netlist { namespace devices { // ---------------------------------------------------------------------------------------- // netlistparams // ---------------------------------------------------------------------------------------- // ---------------------------------------------------------------------------------------- // clock // ---------------------------------------------------------------------------------------- NETLIB_UPDATE_PARAM(clock) { m_inc = netlist_time::from_double(1.0 / (m_freq() * 2.0)); } NETLIB_UPDATE(clock) { m_Q.push(!m_feedback(), m_inc); } // ---------------------------------------------------------------------------------------- // extclock // ---------------------------------------------------------------------------------------- NETLIB_RESET(extclock) { m_cnt = 0; m_off = netlist_time::from_double(m_offset()); //m_Q.initial(0); } NETLIB_UPDATE(extclock) { m_Q.push((m_cnt & 1) ^ 1, m_inc[m_cnt] + m_off); m_cnt = (m_cnt + 1) % m_size; m_off = netlist_time::zero(); } // ---------------------------------------------------------------------------------------- // logic_input // ---------------------------------------------------------------------------------------- NETLIB_RESET(logic_input) { m_Q.initial(0); } NETLIB_UPDATE(logic_input) { m_Q.push(m_IN() & 1, netlist_time::from_nsec(1)); } NETLIB_UPDATE_PARAM(logic_input) { } // ---------------------------------------------------------------------------------------- // analog_input // ---------------------------------------------------------------------------------------- NETLIB_RESET(analog_input) { m_Q.initial(0.0); } NETLIB_UPDATE(analog_input) { m_Q.push(m_IN()); } NETLIB_UPDATE_PARAM(analog_input) { } // ----------------------------------------------------------------------------- // nld_res_sw // ----------------------------------------------------------------------------- NETLIB_RESET(res_sw) { m_last_state = 0; m_R.set_R(m_ROFF()); } NETLIB_UPDATE(res_sw) { const netlist_sig_t state = m_I(); if (state != m_last_state) { m_last_state = state; const nl_double R = state ? m_RON() : m_ROFF(); // We only need to update the net first if this is a time stepping net if ((0)) // m_R->m_P.net().as_analog().solver()->is_timestep()) { m_R.update_dev(); m_R.set_R(R); m_R.m_P.schedule_after(NLTIME_FROM_NS(1)); } else { m_R.set_R(R); m_R.m_P.schedule_after(NLTIME_FROM_NS(1)); //m_R->update_dev(); } } } /* ----------------------------------------------------------------------------- * nld_function * ----------------------------------------------------------------------------- */ NETLIB_RESET(function) { //m_Q.initial(0.0); } NETLIB_UPDATE(function) { for (std::size_t i=0; i < static_cast(m_N()); i++) { m_vals[i] = (*m_I[i])(); } m_Q.push(m_precompiled.evaluate(m_vals)); } NETLIB_DEVICE_IMPL(dummy_input) NETLIB_DEVICE_IMPL(frontier) NETLIB_DEVICE_IMPL(function) NETLIB_DEVICE_IMPL(logic_input) NETLIB_DEVICE_IMPL(analog_input) NETLIB_DEVICE_IMPL(clock) NETLIB_DEVICE_IMPL(extclock) NETLIB_DEVICE_IMPL(res_sw) NETLIB_DEVICE_IMPL(mainclock) NETLIB_DEVICE_IMPL(gnd) NETLIB_DEVICE_IMPL(netlistparams) } //namespace devices } // namespace netlist