refactored local encoder support for Verilog MUX generation
This commit is contained in:
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4da5035627
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433fc73460
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@ -54,8 +54,8 @@
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* Get the model id of a SRAM model that is used to configure
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* a circuit model
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*******************************************************************/
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std::vector<CircuitModelId> get_circuit_sram_models(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model) {
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std::vector<CircuitModelId> find_circuit_sram_models(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model) {
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/* SRAM model id is stored in the sram ports of a circuit model */
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std::vector<CircuitPortId> sram_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_SRAM);
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std::vector<CircuitModelId> sram_models;
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@ -73,3 +73,21 @@ std::vector<CircuitModelId> get_circuit_sram_models(const CircuitLibrary& circui
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return sram_models;
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}
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/********************************************************************
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* Find regular (not mode select) sram ports of a circuit model
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*******************************************************************/
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std::vector<CircuitPortId> find_circuit_regular_sram_ports(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model) {
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std::vector<CircuitPortId> sram_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_SRAM, true);
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std::vector<CircuitPortId> regular_sram_ports;
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for (const auto& port : sram_ports) {
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if (true == circuit_lib.port_is_mode_select(port)) {
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continue;
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}
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regular_sram_ports.push_back(port);
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}
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return regular_sram_ports;
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}
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@ -10,7 +10,10 @@
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#include <vector>
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#include "circuit_library.h"
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std::vector<CircuitModelId> get_circuit_sram_models(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model);
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std::vector<CircuitModelId> find_circuit_sram_models(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model);
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std::vector<CircuitPortId> find_circuit_regular_sram_ports(const CircuitLibrary& circuit_lib,
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const CircuitModelId& circuit_model);
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#endif
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@ -136,10 +136,14 @@ void BasicPort::revert() {
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/* rotate: increase both lsb and msb by an offset */
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bool BasicPort::rotate(const size_t& offset) {
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/* If current port is invalid or offset is 0,
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* we do nothing
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*/
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if ((0 == offset) || (0 == get_width())) {
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/* If offset is 0, we do nothing */
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if (0 == offset) {
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return true;
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}
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/* If current width is 0, we set a width using the offset! */
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if (0 == get_width()) {
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set_width(offset);
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return true;
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}
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/* check if leads to overflow:
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@ -27,12 +27,14 @@
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* We plus 1, which is all-zero condition for outputs
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***************************************************************************************/
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size_t find_mux_local_decoder_addr_size(const size_t& data_size) {
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/* Make sure we have a encoder which is at least 2 ! */
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/* if data size is 1, it is an corner case for the decoder (addr = 1) */
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if (1 == data_size) {
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return 1;
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}
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VTR_ASSERT (2 <= data_size);
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return ceil(log(data_size) / log(2));
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}
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/***************************************************************************************
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* Try to find if the decoder already exists in the library,
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* If there is no such decoder, add it to the library
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@ -6,6 +6,8 @@
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#include "decoder_library.h"
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bool need_mux_local_decoder(const size_t& data_size);
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size_t find_mux_local_decoder_addr_size(const size_t& data_size);
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DecoderId add_mux_local_decoder_to_library(DecoderLibrary& decoder_lib,
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@ -332,6 +332,33 @@ std::string generate_configuration_chain_tail_name() {
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return std::string("ccff_tail");
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}
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/*********************************************************************
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* Generate the addr port (input) for a local decoder of a multiplexer
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* TODO: This could be replaced as a constexpr string
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*********************************************************************/
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std::string generate_mux_local_decoder_addr_port_name() {
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return std::string("addr");
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}
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/*********************************************************************
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* Generate the data port (output) for a local decoder of a multiplexer
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* TODO: This could be replaced as a constexpr string
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*********************************************************************/
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std::string generate_mux_local_decoder_data_port_name() {
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return std::string("data");
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}
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/*********************************************************************
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* Generate the inverted data port (output) for a local decoder of a multiplexer
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* TODO: This could be replaced as a constexpr string
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*********************************************************************/
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std::string generate_mux_local_decoder_data_inv_port_name() {
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return std::string("data_inv");
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}
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/*********************************************************************
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* Generate the port name for a regular sram port which appears in the
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* port list of a module
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@ -76,6 +76,12 @@ std::string generate_configuration_chain_head_name();
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std::string generate_configuration_chain_tail_name();
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std::string generate_mux_local_decoder_addr_port_name();
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std::string generate_mux_local_decoder_data_port_name();
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std::string generate_mux_local_decoder_data_inv_port_name();
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std::string generate_sram_port_name(const CircuitLibrary& circuit_lib,
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const CircuitModelId& sram_model,
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const e_sram_orgz& sram_orgz_type,
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@ -59,17 +59,17 @@ void print_verilog_mux_local_decoder_module(std::fstream& fp,
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VTR_ASSERT(ModuleId::INVALID() != module_id);
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/* Add module ports */
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/* Add each input port */
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BasicPort addr_port("addr", addr_size);
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BasicPort addr_port(generate_mux_local_decoder_addr_port_name(), addr_size);
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module_manager.add_port(module_id, addr_port, ModuleManager::MODULE_INPUT_PORT);
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/* Add each output port */
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BasicPort data_port("data", data_size);
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BasicPort data_port(generate_mux_local_decoder_data_port_name(), data_size);
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module_manager.add_port(module_id, data_port, ModuleManager::MODULE_OUTPUT_PORT);
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/* Data port is registered. It should be outputted as
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* output reg [lsb:msb] data
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*/
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module_manager.set_port_is_register(module_id, data_port.get_name(), true);
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/* Add data_in port */
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BasicPort data_inv_port("data_inv", data_size);
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BasicPort data_inv_port(generate_mux_local_decoder_data_inv_port_name(), data_size);
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VTR_ASSERT(true == decoder_lib.use_data_inv_port(decoder));
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module_manager.add_port(module_id, data_inv_port, ModuleManager::MODULE_OUTPUT_PORT);
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@ -81,6 +81,20 @@ void print_verilog_mux_local_decoder_module(std::fstream& fp,
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/* Print the truth table of this decoder */
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/* Internal logics */
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/* Early exit: Corner case for data size = 1 the logic is very simple:
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* data = addr;
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* data_inv = ~data_inv
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*/
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if (1 == data_size) {
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print_verilog_wire_connection(fp, addr_port, data_port, false);
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print_verilog_wire_connection(fp, data_inv_port, data_port, true);
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print_verilog_comment(fp, std::string("----- END Verilog codes for Decoder convert " + std::to_string(addr_size) + "-bit addr to " + std::to_string(data_size) + "-bit data -----"));
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/* Put an end to the Verilog module */
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print_verilog_module_end(fp, module_name);
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return;
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}
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/* We use a magic number -1 as the addr=1 should be mapped to ...1
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* Otherwise addr will map addr=1 to ..10
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* Note that there should be a range for the shift operators
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@ -194,7 +208,7 @@ void print_verilog_submodule_mux_local_decoders(ModuleManager& module_manager,
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* Note that only when there are >=2 memories, a decoder is needed
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*/
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size_t decoder_data_size = branch_mux_graph.num_memory_bits();
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if (2 > decoder_data_size) {
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if (0 == decoder_data_size) {
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continue;
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}
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/* Try to find if the decoder already exists in the library,
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@ -442,7 +442,7 @@ void print_verilog_mux_memory_module(ModuleManager& module_manager,
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std::string(verilog_mem_posfix));
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/* Get the sram ports from the mux */
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std::vector<CircuitModelId> sram_models = get_circuit_sram_models(circuit_lib, mux_model);
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std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model);
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VTR_ASSERT( 1 == sram_models.size() );
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/* Find the number of SRAMs in the module, this is also the port width */
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@ -17,6 +17,8 @@
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#include "physical_types.h"
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#include "vpr_types.h"
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#include "mux_utils.h"
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#include "circuit_library_utils.h"
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#include "decoder_library_utils.h"
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/* FPGA-X2P context header files */
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#include "spice_types.h"
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@ -853,6 +855,10 @@ void generate_verilog_cmos_mux_module_mux2_multiplexing_structure(ModuleManager&
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/* Generate the port info of each mem node */
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BasicPort instance_mem_port(circuit_lib.port_lib_name(mux_regular_sram_ports[0]), size_t(mem), size_t(mem));
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std::string module_mem_port_name = circuit_lib.port_lib_name(std_cell_input_ports[2]);
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/* If use local decoders, we should use another name for the mem port */
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if (true == circuit_lib.mux_use_local_encoder(circuit_model)) {
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instance_mem_port.set_name(generate_mux_local_decoder_data_port_name());
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}
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port2port_name_map[module_mem_port_name] = instance_mem_port;
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}
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@ -910,19 +916,8 @@ void generate_verilog_cmos_mux_module_tgate_multiplexing_structure(ModuleManager
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/* Find the actual mux size */
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size_t mux_size = find_mux_num_datapath_inputs(circuit_lib, circuit_model, mux_graph.num_inputs());
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/* TODO: these are duplicated codes, find a way to simplify it!!!
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* Get the regular (non-mode-select) sram ports from the mux
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*/
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std::vector<CircuitPortId> mux_regular_sram_ports;
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for (const auto& port : circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_SRAM, true)) {
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/* Multiplexing structure does not mode_sram_ports, they are handled in LUT modules
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* Here we just bypass it.
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*/
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if (true == circuit_lib.port_is_mode_select(port)) {
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continue;
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}
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mux_regular_sram_ports.push_back(port);
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}
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/* Get the regular (non-mode-select) sram ports from the mux */
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std::vector<CircuitPortId> mux_regular_sram_ports = find_circuit_regular_sram_ports(circuit_lib, circuit_model);
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VTR_ASSERT(1 == mux_regular_sram_ports.size());
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/* Build the location map of intermediate buffers */
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@ -1035,6 +1030,10 @@ void generate_verilog_cmos_mux_module_tgate_multiplexing_structure(ModuleManager
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for (const auto& mem : mems) {
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/* Generate the port info of each mem node */
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BasicPort branch_node_mem_port(circuit_lib.port_lib_name(mux_regular_sram_ports[0]), size_t(mem), size_t(mem));
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/* If use local decoders, we should use another name for the mem port */
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if (true == circuit_lib.mux_use_local_encoder(circuit_model)) {
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branch_node_mem_port.set_name(generate_mux_local_decoder_data_port_name());
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}
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branch_node_mem_ports.push_back(branch_node_mem_port);
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}
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@ -1065,6 +1064,10 @@ void generate_verilog_cmos_mux_module_tgate_multiplexing_structure(ModuleManager
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for (const auto& mem : mems) {
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/* Generate the port info of each mem node */
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BasicPort branch_node_mem_inv_port(circuit_lib.port_lib_name(mux_regular_sram_ports[0]) + "_inv", size_t(mem), size_t(mem));
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/* If use local decoders, we should use another name for the mem port */
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if (true == circuit_lib.mux_use_local_encoder(circuit_model)) {
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branch_node_mem_inv_port.set_name(generate_mux_local_decoder_data_inv_port_name());
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}
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branch_node_mem_inv_ports.push_back(branch_node_mem_inv_port);
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}
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@ -1315,8 +1318,11 @@ void generate_verilog_cmos_mux_module(ModuleManager& module_manager,
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std::vector<CircuitPortId> mux_input_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_INPUT, true);
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/* Get the output ports from the mux */
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std::vector<CircuitPortId> mux_output_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_OUTPUT, true);
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/* Get the sram ports from the mux */
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std::vector<CircuitPortId> mux_sram_ports = circuit_lib.model_ports_by_type(circuit_model, SPICE_MODEL_PORT_SRAM, true);
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/* Get the sram ports from the mux
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* Multiplexing structure does not mode_sram_ports, they are handled in LUT modules
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* Here we just bypass it.
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*/
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std::vector<CircuitPortId> mux_sram_ports = find_circuit_regular_sram_ports(circuit_lib, circuit_model);
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/* Make sure we have a valid file handler*/
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check_file_handler(fp);
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@ -1329,6 +1335,18 @@ void generate_verilog_cmos_mux_module(ModuleManager& module_manager,
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/* Find out the number of memory bits */
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size_t num_mems = mux_graph.num_memory_bits();
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/* The size of of memory ports depend on
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* if a local encoder is used for the mux or not
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* Multiplexer local encoders are applied to memory bits at each stage
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*/
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if (true == circuit_lib.mux_use_local_encoder(circuit_model)) {
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num_mems = 0;
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for (const auto& lvl : mux_graph.levels()) {
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size_t data_size = mux_graph.num_memory_bits_at_level(lvl);
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num_mems += find_mux_local_decoder_addr_size(data_size);
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}
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}
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/* Check codes to ensure the port of Verilog netlists will match */
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/* MUX graph must have only 1 output */
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VTR_ASSERT(1 == mux_input_ports.size());
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@ -1381,18 +1399,8 @@ void generate_verilog_cmos_mux_module(ModuleManager& module_manager,
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module_manager.add_port(module_id, output_port, ModuleManager::MODULE_OUTPUT_PORT);
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}
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/* TODO: the size of of memory ports depend on
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* if a local encoder is used for the mux or not
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*/
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size_t sram_port_cnt = 0;
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for (const auto& port : mux_sram_ports) {
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/* Multiplexing structure does not mode_sram_ports, they are handled in LUT modules
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* Here we just bypass it.
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*/
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if (true == circuit_lib.port_is_mode_select(port)) {
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continue;
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}
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BasicPort mem_port(circuit_lib.port_lib_name(port), num_mems);
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module_manager.add_port(module_id, mem_port, ModuleManager::MODULE_INPUT_PORT);
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BasicPort mem_inv_port(std::string(circuit_lib.port_lib_name(port) + "_inv"), num_mems);
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@ -1400,11 +1408,56 @@ void generate_verilog_cmos_mux_module(ModuleManager& module_manager,
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/* Update counter */
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sram_port_cnt++;
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}
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VTR_ASSERT(1 == sram_port_cnt);
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/* dump module definition + ports */
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print_verilog_module_declaration(fp, module_manager, module_id);
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/* TODO: Print the internal logic in Verilog codes */
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/* Add local decoder instance here */
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if (true == circuit_lib.mux_use_local_encoder(circuit_model)) {
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BasicPort decoder_data_port(generate_mux_local_decoder_data_port_name(), mux_graph.num_memory_bits());
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BasicPort decoder_data_inv_port(generate_mux_local_decoder_data_inv_port_name(), mux_graph.num_memory_bits());
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/* Print local wires to bridge the port of module and memory inputs
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* of each MUX branch instance
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*/
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fp << generate_verilog_port(VERILOG_PORT_WIRE, decoder_data_port) << ";" << std::endl;
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fp << generate_verilog_port(VERILOG_PORT_WIRE, decoder_data_inv_port) << ";" << std::endl;
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/* Local port to record the LSB and MSB of each level, here, we deposite (0, 0) */
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BasicPort lvl_addr_port(circuit_lib.port_lib_name(mux_sram_ports[0]), 0);
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BasicPort lvl_data_port(decoder_data_port.get_name(), 0);
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BasicPort lvl_data_inv_port(decoder_data_inv_port.get_name(), 0);
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for (const auto& lvl : mux_graph.levels()) {
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size_t addr_size = find_mux_local_decoder_addr_size(mux_graph.num_memory_bits_at_level(lvl));
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size_t data_size = mux_graph.num_memory_bits_at_level(lvl);
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/* Update the LSB and MSB of addr and data port for the current level */
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lvl_addr_port.rotate(addr_size);
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lvl_data_port.rotate(data_size);
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lvl_data_inv_port.rotate(data_size);
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/* Print the instance of local decoder */
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std::string decoder_module_name = generate_mux_local_decoder_subckt_name(addr_size, data_size);
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ModuleId decoder_module = module_manager.find_module(decoder_module_name);
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VTR_ASSERT(ModuleId::INVALID() != decoder_module);
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/* Create a port-to-port map */
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std::map<std::string, BasicPort> decoder_port2port_name_map;
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decoder_port2port_name_map[generate_mux_local_decoder_addr_port_name()] = lvl_addr_port;
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decoder_port2port_name_map[generate_mux_local_decoder_data_port_name()] = lvl_data_port;
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decoder_port2port_name_map[generate_mux_local_decoder_data_inv_port_name()] = lvl_data_inv_port;
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/* Print an instance of the MUX Module */
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print_verilog_comment(fp, std::string("----- BEGIN Instanciation of a local decoder -----"));
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print_verilog_module_instance(fp, module_manager, module_id, decoder_module, decoder_port2port_name_map, circuit_lib.dump_explicit_port_map(circuit_model));
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print_verilog_comment(fp, std::string("----- END Instanciation of a local decoder -----"));
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fp << std::endl;
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/* IMPORTANT: this update MUST be called after the instance outputting!!!!
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* update the module manager with the relationship between the parent and child modules
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*/
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module_manager.add_child_module(module_id, decoder_module);
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}
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}
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/* Print the internal logic in Verilog codes */
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/* Print the Multiplexing structure in Verilog codes
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* Separated generation strategy on using standard cell MUX2 or TGATE,
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* 1. MUX2 has a fixed port map: input_port[0] and input_port[1] is the data_path input
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@ -1430,8 +1483,6 @@ void generate_verilog_cmos_mux_module(ModuleManager& module_manager,
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generate_verilog_cmos_mux_module_input_buffers(module_manager, circuit_lib, fp, module_id, circuit_model, mux_graph);
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generate_verilog_cmos_mux_module_output_buffers(module_manager, circuit_lib, fp, module_id, circuit_model, mux_graph);
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||||
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/* TODO: add local decoder instance here */
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/* Put an end to the Verilog module */
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print_verilog_module_end(fp, module_name);
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}
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||||
|
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@ -872,7 +872,7 @@ void print_verilog_cmos_mux_config_bus(std::fstream& fp,
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fp << generate_verilog_port(VERILOG_PORT_WIRE, inverted_sram_output_bus) << ";" << std::endl;
|
||||
|
||||
/* Get the SRAM model of the mux_model */
|
||||
std::vector<CircuitModelId> sram_models = get_circuit_sram_models(circuit_lib, mux_model);
|
||||
std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model);
|
||||
/* TODO: maybe later multiplexers may have mode select ports... This should be relaxed */
|
||||
VTR_ASSERT( 1 == sram_models.size() );
|
||||
std::vector<CircuitPortId> blb_ports = circuit_lib.model_ports_by_type(sram_models[0], SPICE_MODEL_PORT_BLB);
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||||
|
@ -998,7 +998,7 @@ void print_verilog_rram_mux_config_bus(std::fstream& fp,
|
|||
fp << generate_verilog_port(VERILOG_PORT_WIRE, inverted_sram_output_bus) << ";" << std::endl;
|
||||
|
||||
/* Get the SRAM model of the mux_model */
|
||||
std::vector<CircuitModelId> sram_models = get_circuit_sram_models(circuit_lib, mux_model);
|
||||
std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model);
|
||||
/* TODO: maybe later multiplexers may have mode select ports... This should be relaxed */
|
||||
VTR_ASSERT( 1 == sram_models.size() );
|
||||
|
||||
|
@ -1078,7 +1078,7 @@ void print_verilog_formal_verification_mux_sram_ports_wiring(std::fstream& fp,
|
|||
BasicPort mux_sram_output(generate_mux_sram_port_name(circuit_lib, mux_model, mux_size, mux_instance_id, SPICE_MODEL_PORT_INPUT),
|
||||
num_conf_bits);
|
||||
/* Get the SRAM model of the mux_model */
|
||||
std::vector<CircuitModelId> sram_models = get_circuit_sram_models(circuit_lib, mux_model);
|
||||
std::vector<CircuitModelId> sram_models = find_circuit_sram_models(circuit_lib, mux_model);
|
||||
/* TODO: maybe later multiplexers may have mode select ports... This should be relaxed */
|
||||
VTR_ASSERT( 1 == sram_models.size() );
|
||||
BasicPort formal_verification_port(generate_formal_verification_sram_port_name(circuit_lib, sram_models[0]),
|
||||
|
|
Loading…
Reference in New Issue