/* * yosys -- Yosys Open SYnthesis Suite * * Copyright (C) 2012 Claire Xenia Wolf * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ #ifndef MACC_H #define MACC_H #include "kernel/yosys.h" YOSYS_NAMESPACE_BEGIN struct Macc { struct port_t { RTLIL::SigSpec in_a, in_b; bool is_signed, do_subtract; }; std::vector ports; void optimize(int width) { std::vector new_ports; RTLIL::Const off(0, width); for (auto &port : ports) { if (GetSize(port.in_a) == 0 && GetSize(port.in_b) == 0) continue; if (GetSize(port.in_a) < GetSize(port.in_b)) std::swap(port.in_a, port.in_b); if (port.in_a.is_fully_const() && port.in_b.is_fully_const()) { RTLIL::Const v = port.in_a.as_const(); if (GetSize(port.in_b)) v = const_mul(v, port.in_b.as_const(), port.is_signed, port.is_signed, width); if (port.do_subtract) off = const_sub(off, v, port.is_signed, port.is_signed, width); else off = const_add(off, v, port.is_signed, port.is_signed, width); continue; } if (port.is_signed) { while (GetSize(port.in_a) > 1 && port.in_a[GetSize(port.in_a)-1] == port.in_a[GetSize(port.in_a)-2]) port.in_a.remove(GetSize(port.in_a)-1); while (GetSize(port.in_b) > 1 && port.in_b[GetSize(port.in_b)-1] == port.in_b[GetSize(port.in_b)-2]) port.in_b.remove(GetSize(port.in_b)-1); } else { while (GetSize(port.in_a) > 1 && port.in_a[GetSize(port.in_a)-1] == State::S0) port.in_a.remove(GetSize(port.in_a)-1); while (GetSize(port.in_b) > 1 && port.in_b[GetSize(port.in_b)-1] == State::S0) port.in_b.remove(GetSize(port.in_b)-1); } new_ports.push_back(port); } if (off.as_bool()) { port_t port; port.in_a = off; port.is_signed = false; port.do_subtract = false; new_ports.push_back(port); } new_ports.swap(ports); } void from_cell_v1(RTLIL::Cell *cell) { RTLIL::SigSpec port_a = cell->getPort(ID::A); ports.clear(); auto config_bits = cell->getParam(ID::CONFIG); int config_cursor = 0; int config_width = cell->getParam(ID::CONFIG_WIDTH).as_int(); log_assert(GetSize(config_bits) >= config_width); int num_bits = 0; if (config_bits[config_cursor++] == State::S1) num_bits |= 1; if (config_bits[config_cursor++] == State::S1) num_bits |= 2; if (config_bits[config_cursor++] == State::S1) num_bits |= 4; if (config_bits[config_cursor++] == State::S1) num_bits |= 8; int port_a_cursor = 0; while (port_a_cursor < GetSize(port_a)) { log_assert(config_cursor + 2 + 2*num_bits <= config_width); port_t this_port; this_port.is_signed = config_bits[config_cursor++] == State::S1; this_port.do_subtract = config_bits[config_cursor++] == State::S1; int size_a = 0; for (int i = 0; i < num_bits; i++) if (config_bits[config_cursor++] == State::S1) size_a |= 1 << i; this_port.in_a = port_a.extract(port_a_cursor, size_a); port_a_cursor += size_a; int size_b = 0; for (int i = 0; i < num_bits; i++) if (config_bits[config_cursor++] == State::S1) size_b |= 1 << i; this_port.in_b = port_a.extract(port_a_cursor, size_b); port_a_cursor += size_b; if (size_a || size_b) ports.push_back(this_port); } for (auto bit : cell->getPort(ID::B)) ports.push_back(port_t{{bit}, {}, false, false}); log_assert(config_cursor == config_width); log_assert(port_a_cursor == GetSize(port_a)); } void from_cell(RTLIL::Cell *cell) { if (cell->type == ID($macc)) { from_cell_v1(cell); return; } log_assert(cell->type == ID($macc_v2)); RTLIL::SigSpec port_a = cell->getPort(ID::A); RTLIL::SigSpec port_b = cell->getPort(ID::B); RTLIL::SigSpec port_c = cell->getPort(ID::C); ports.clear(); int nproducts = cell->getParam(ID::NPRODUCTS).as_int(); const Const &product_neg = cell->getParam(ID::PRODUCT_NEGATED); const Const &a_widths = cell->getParam(ID::A_WIDTHS); const Const &b_widths = cell->getParam(ID::B_WIDTHS); const Const &a_signed = cell->getParam(ID::A_SIGNED); const Const &b_signed = cell->getParam(ID::B_SIGNED); int ai = 0, bi = 0; for (int i = 0; i < nproducts; i++) { port_t term; log_assert(a_signed[i] == b_signed[i]); term.is_signed = (a_signed[i] == State::S1); int a_width = a_widths.extract(16 * i, 16).as_int(false); int b_width = b_widths.extract(16 * i, 16).as_int(false); term.in_a = port_a.extract(ai, a_width); ai += a_width; term.in_b = port_b.extract(bi, b_width); bi += b_width; term.do_subtract = (product_neg[i] == State::S1); ports.push_back(term); } log_assert(port_a.size() == ai); log_assert(port_b.size() == bi); int naddends = cell->getParam(ID::NADDENDS).as_int(); const Const &addend_neg = cell->getParam(ID::ADDEND_NEGATED); const Const &c_widths = cell->getParam(ID::C_WIDTHS); const Const &c_signed = cell->getParam(ID::C_SIGNED); int ci = 0; for (int i = 0; i < naddends; i++) { port_t term; term.is_signed = (c_signed[i] == State::S1); int c_width = c_widths.extract(16 * i, 16).as_int(false); term.in_a = port_c.extract(ci, c_width); ci += c_width; term.do_subtract = (addend_neg[i] == State::S1); ports.push_back(term); } log_assert(port_c.size() == ci); } void to_cell(RTLIL::Cell *cell) { cell->type = ID($macc_v2); int nproducts = 0, naddends = 0; Const a_signed, b_signed, a_widths, b_widths, product_negated; Const c_signed, c_widths, addend_negated; SigSpec a, b, c; for (int i = 0; i < (int) ports.size(); i++) { SigSpec term_a = ports[i].in_a, term_b = ports[i].in_b; if (term_b.empty()) { // addend c_widths.append(Const(term_a.size(), 16)); c_signed.append(ports[i].is_signed ? RTLIL::S1 : RTLIL::S0); addend_negated.append(ports[i].do_subtract ? RTLIL::S1 : RTLIL::S0); c.append(term_a); naddends++; } else { // product a_widths.append(Const(term_a.size(), 16)); b_widths.append(Const(term_b.size(), 16)); a_signed.append(ports[i].is_signed ? RTLIL::S1 : RTLIL::S0); b_signed.append(ports[i].is_signed ? RTLIL::S1 : RTLIL::S0); product_negated.append(ports[i].do_subtract ? RTLIL::S1 : RTLIL::S0); a.append(term_a); b.append(term_b); nproducts++; } } if (a_signed.empty()) a_signed = {RTLIL::Sx}; if (b_signed.empty()) a_signed = {RTLIL::Sx}; if (c_signed.empty()) c_signed = {RTLIL::Sx}; if (a_widths.empty()) a_widths = {RTLIL::Sx}; if (b_widths.empty()) b_widths = {RTLIL::Sx}; if (c_widths.empty()) c_widths = {RTLIL::Sx}; if (product_negated.empty()) product_negated = {RTLIL::Sx}; if (addend_negated.empty()) addend_negated = {RTLIL::Sx}; cell->setParam(ID::NPRODUCTS, nproducts); cell->setParam(ID::PRODUCT_NEGATED, product_negated); cell->setParam(ID::NADDENDS, naddends); cell->setParam(ID::ADDEND_NEGATED, addend_negated); cell->setParam(ID::A_SIGNED, a_signed); cell->setParam(ID::B_SIGNED, b_signed); cell->setParam(ID::C_SIGNED, c_signed); cell->setParam(ID::A_WIDTHS, a_widths); cell->setParam(ID::B_WIDTHS, b_widths); cell->setParam(ID::C_WIDTHS, c_widths); cell->setPort(ID::A, a); cell->setPort(ID::B, b); cell->setPort(ID::C, c); } bool eval(RTLIL::Const &result) const { for (auto &bit : result.bits()) bit = State::S0; for (auto &port : ports) { if (!port.in_a.is_fully_const() || !port.in_b.is_fully_const()) return false; RTLIL::Const summand; if (GetSize(port.in_b) == 0) summand = const_pos(port.in_a.as_const(), port.in_b.as_const(), port.is_signed, port.is_signed, GetSize(result)); else summand = const_mul(port.in_a.as_const(), port.in_b.as_const(), port.is_signed, port.is_signed, GetSize(result)); if (port.do_subtract) result = const_sub(result, summand, port.is_signed, port.is_signed, GetSize(result)); else result = const_add(result, summand, port.is_signed, port.is_signed, GetSize(result)); } return true; } bool is_simple_product() { return ports.size() == 1 && !ports[0].in_b.empty() && !ports[0].do_subtract; } Macc(RTLIL::Cell *cell = nullptr) { if (cell != nullptr) from_cell(cell); } }; YOSYS_NAMESPACE_END #endif