refactored routing module generation and verilog writing
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parent
89c8d089a3
commit
dafab3907e
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@ -10,6 +10,7 @@
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#include <assert.h>
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#include <sys/stat.h>
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#include <unistd.h>
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#include <vector>
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/* Include vpr structs*/
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#include "util.h"
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@ -34,6 +35,7 @@
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#include "verilog_api.h"
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#include "fpga_bitstream.h"
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#include "fpga_x2p_globals.h"
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#include "fpga_x2p_api.h"
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/* Top-level API of FPGA-SPICE */
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@ -50,8 +52,27 @@ void vpr_fpga_x2p_tool_suites(t_vpr_setup vpr_setup,
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/* Build multiplexer graphs */
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MuxLibrary mux_lib = build_device_mux_library(num_rr_nodes, rr_node, switch_inf, Arch.spice->circuit_lib, &vpr_setup.RoutingArch);
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/* TODO: Build global routing architecture modules */
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/* Create a vector of switch infs. TODO: this should be replaced switch objects!!! */
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std::vector<t_switch_inf> rr_switches;
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for (short i = 0; i < vpr_setup.RoutingArch.num_switch; ++i) {
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rr_switches.push_back(switch_inf[i]);
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}
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/* TODO: This should be done outside this function!!! */
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vtr::Point<size_t> device_size(nx + 2, ny + 2);
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std::vector<std::vector<t_grid_tile>> grids;
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/* Organize a vector (matrix) of grids to feed the top-level module generation */
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grids.resize(device_size.x());
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for (size_t ix = 0; ix < device_size.x(); ++ix) {
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grids[ix].resize(device_size.y());
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for (size_t iy = 0; iy < device_size.y(); ++iy) {
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grids[ix][iy] = grid[ix][iy];
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}
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}
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/* Build module graphs */
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ModuleManager module_manager = build_device_module_graph(vpr_setup, Arch, mux_lib);
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ModuleManager module_manager = build_device_module_graph(vpr_setup, Arch, mux_lib, grids, rr_switches, device_rr_gsb);
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/* Xifan TANG: SPICE Modeling, SPICE Netlist Output */
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if (TRUE == vpr_setup.FPGA_SPICE_Opts.SpiceOpts.do_spice) {
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@ -1,6 +1,7 @@
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#ifndef FPGA_X2P_TYPES_H
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#define FPGA_X2P_TYPES_H
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#include "vpr_types.h"
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#include "route_common.h"
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/* Define the basic data structures used for FPGA-SPICE */
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@ -2,6 +2,7 @@
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* This file includes the main function to build module graphs
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* for the FPGA fabric
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*******************************************************************/
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#include <vector>
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#include <time.h>
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#include <unistd.h>
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@ -17,6 +18,7 @@
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#include "build_wire_modules.h"
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#include "build_memory_modules.h"
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#include "build_grid_modules.h"
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#include "build_routing_modules.h"
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#include "build_module_graph.h"
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/********************************************************************
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@ -25,7 +27,10 @@
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*******************************************************************/
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ModuleManager build_device_module_graph(const t_vpr_setup& vpr_setup,
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const t_arch& arch,
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const MuxLibrary& mux_lib) {
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const MuxLibrary& mux_lib,
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const std::vector<std::vector<t_grid_tile>>& grids,
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const std::vector<t_switch_inf>& rr_switches,
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const DeviceRRGSB& L_device_rr_gsb) {
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/* Check if the routing architecture we support*/
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if (UNI_DIRECTIONAL != vpr_setup.RoutingArch.directionality) {
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vpr_printf(TIO_MESSAGE_ERROR,
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@ -104,7 +109,17 @@ ModuleManager build_device_module_graph(const t_vpr_setup& vpr_setup,
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build_grid_modules(module_manager, arch.spice->circuit_lib, mux_lib,
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arch.sram_inf.verilog_sram_inf_orgz->type, sram_model);
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/* TODO: Build global routing architecture modules */
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if (TRUE == vpr_setup.FPGA_SPICE_Opts.compact_routing_hierarchy) {
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build_unique_routing_modules(module_manager, L_device_rr_gsb, arch.spice->circuit_lib,
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arch.sram_inf.verilog_sram_inf_orgz->type, sram_model, grids,
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vpr_setup.RoutingArch, rr_switches);
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} else {
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VTR_ASSERT(FALSE == vpr_setup.FPGA_SPICE_Opts.compact_routing_hierarchy);
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build_flatten_routing_modules(module_manager, L_device_rr_gsb, arch.spice->circuit_lib,
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arch.sram_inf.verilog_sram_inf_orgz->type, sram_model, grids,
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vpr_setup.RoutingArch, rr_switches);
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}
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/* TODO: Build FPGA fabric top-level module */
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@ -1,12 +1,17 @@
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#ifndef BUILD_MODULE_GRAPH_H
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#define BUILD_MODULE_GRAPH_H
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#include <vector>
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#include "vpr_types.h"
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#include "rr_blocks.h"
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#include "mux_library.h"
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#include "module_manager.h"
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ModuleManager build_device_module_graph(const t_vpr_setup& vpr_setup,
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const t_arch& arch,
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const MuxLibrary& mux_lib);
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const MuxLibrary& mux_lib,
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const std::vector<std::vector<t_grid_tile>>& grids,
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const std::vector<t_switch_inf>& rr_switches,
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const DeviceRRGSB& L_device_rr_gsb);
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#endif
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@ -5,8 +5,33 @@
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#include <vector>
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#include "vtr_assert.h"
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#include "fpga_x2p_naming.h"
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#include "fpga_x2p_pbtypes_utils.h"
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#include "build_module_graph_utils.h"
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/*********************************************************************
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* Generate the port name for a Grid
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* This is a wrapper function for generate_port_name()
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* which can automatically decode the port name by the pin side and height
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*********************************************************************/
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std::string generate_grid_side_port_name(const std::vector<std::vector<t_grid_tile>>& grids,
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const vtr::Point<size_t>& coordinate,
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const e_side& side,
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const size_t& pin_id) {
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/* Output the pins on the side*/
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size_t height = find_grid_pin_height(grids, coordinate, pin_id);
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if (1 != grids[coordinate.x()][coordinate.y()].type->pinloc[height][side][pin_id]) {
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Side side_manager(side);
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vpr_printf(TIO_MESSAGE_ERROR,
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"(File:%s, [LINE%d])Fail to generate a grid pin (x=%lu, y=%lu, height=%lu, side=%s, index=%d)\n",
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__FILE__, __LINE__,
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coordinate.x(), coordinate.y(), height, side_manager.c_str(), pin_id);
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exit(1);
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}
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return generate_grid_port_name(coordinate, height, side, pin_id, true);
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}
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/********************************************************************
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* Find input port of a buffer/inverter module
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********************************************************************/
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@ -4,9 +4,20 @@
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#ifndef BUILD_MODULE_GRAPH_UTILS_H
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#define BUILD_MODULE_GRAPH_UTILS_H
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#include <string>
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#include <vector>
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#include "spice_types.h"
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#include "sides.h"
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#include "vtr_geometry.h"
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#include "vpr_types.h"
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#include "module_manager.h"
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#include "circuit_library.h"
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std::string generate_grid_side_port_name(const std::vector<std::vector<t_grid_tile>>& grids,
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const vtr::Point<size_t>& coordinate,
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const e_side& side,
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const size_t& pin_id);
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ModulePortId find_inverter_buffer_module_port(const ModuleManager& module_manager,
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const ModuleId& module_id,
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const CircuitLibrary& circuit_lib,
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File diff suppressed because it is too large
Load Diff
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/********************************************************************
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* Header file for build_routing_modules.cpp
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*******************************************************************/
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#ifndef BUILD_ROUTING_MODULES_H
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#define BUILD_ROUTING_MODULES_H
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#include "spice_types.h"
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#include "vpr_types.h"
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#include "rr_blocks.h"
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#include "mux_library.h"
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#include "circuit_library.h"
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#include "module_manager.h"
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void build_flatten_routing_modules(ModuleManager& module_manager,
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const DeviceRRGSB& L_device_rr_gsb,
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const CircuitLibrary& circuit_lib,
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const e_sram_orgz& sram_orgz_type,
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const CircuitModelId& sram_model,
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const std::vector<std::vector<t_grid_tile>>& grids,
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const t_det_routing_arch& routing_arch,
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const std::vector<t_switch_inf>& rr_switches);
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void build_unique_routing_modules(ModuleManager& module_manager,
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const DeviceRRGSB& L_device_rr_gsb,
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const CircuitLibrary& circuit_lib,
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const e_sram_orgz& sram_orgz_type,
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const CircuitModelId& sram_model,
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const std::vector<std::vector<t_grid_tile>>& grids,
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const t_det_routing_arch& routing_arch,
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const std::vector<t_switch_inf>& rr_switches);
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#endif
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@ -13,6 +13,7 @@
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#include <vector>
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/* Include vpr structs*/
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#include "vtr_assert.h"
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#include "vtr_geometry.h"
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#include "util.h"
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#include "physical_types.h"
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vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts);
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/* Dump routing resources: switch blocks, connection blocks and channel tracks */
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print_verilog_routing_resources(module_manager, mux_lib, sram_verilog_orgz_info,
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print_verilog_routing_resources(module_manager, sram_verilog_orgz_info,
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src_dir_path, rr_dir_path, Arch, vpr_setup.RoutingArch,
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num_rr_nodes, rr_node, rr_node_indices, rr_indexed_data,
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vpr_setup.FPGA_SPICE_Opts);
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if (TRUE == vpr_setup.FPGA_SPICE_Opts.compact_routing_hierarchy) {
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print_verilog_unique_routing_modules(module_manager, device_rr_gsb,
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vpr_setup.RoutingArch,
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std::string(src_dir_path), std::string(rr_dir_path),
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TRUE == vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts.dump_explicit_verilog);
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} else {
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VTR_ASSERT(FALSE == vpr_setup.FPGA_SPICE_Opts.compact_routing_hierarchy);
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print_verilog_flatten_routing_modules(module_manager, device_rr_gsb,
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vpr_setup.RoutingArch,
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std::string(src_dir_path), std::string(rr_dir_path),
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TRUE == vpr_setup.FPGA_SPICE_Opts.SynVerilogOpts.dump_explicit_verilog);
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}
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/* Dump logic blocks
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* Branches to go:
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* 1. a compact output
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File diff suppressed because it is too large
Load Diff
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@ -142,13 +142,7 @@ void dump_verilog_routing_connection_box_subckt(t_sram_orgz_info* cur_sram_orgz_
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boolean compact_routing_hierarchy,
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bool is_explicit_mapping);
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std::string generate_grid_side_port_name(const vtr::Point<size_t>& coordinate,
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const e_side& side,
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const size_t& pin_id);
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void print_verilog_routing_resources(ModuleManager& module_manager,
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const MuxLibrary& mux_lib,
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t_sram_orgz_info* cur_sram_orgz_info,
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char* verilog_dir,
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char* subckt_dir,
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t_rr_indexed_data* LL_rr_indexed_data,
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const t_fpga_spice_opts& FPGA_SPICE_Opts);
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void print_verilog_flatten_routing_modules(ModuleManager& module_manager,
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const DeviceRRGSB& L_device_rr_gsb,
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const t_det_routing_arch& routing_arch,
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const std::string& verilog_dir,
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const std::string& subckt_dir,
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const bool& use_explicit_port_map);
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void print_verilog_unique_routing_modules(ModuleManager& module_manager,
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const DeviceRRGSB& L_device_rr_gsb,
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const t_det_routing_arch& routing_arch,
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const std::string& verilog_dir,
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const std::string& subckt_dir,
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const bool& use_explicit_port_map);
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#endif
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@ -19,7 +19,7 @@
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#include "build_top_module_directs.h"
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#include "verilog_global.h"
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#include "verilog_routing.h"
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#include "build_module_graph_utils.h"
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#include "verilog_writer_utils.h"
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#include "verilog_module_writer.h"
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#include "verilog_top_module.h"
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@ -401,7 +401,7 @@ void add_top_module_nets_connect_grids_and_sb(ModuleManager& module_manager,
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/* Collect sink-related information */
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vtr::Point<size_t> sink_sb_port_coord(module_sb.get_opin_node(side_manager.get_side(), inode)->xlow,
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module_sb.get_opin_node(side_manager.get_side(), inode)->ylow);
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std::string sink_sb_port_name = generate_grid_side_port_name(sink_sb_port_coord,
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std::string sink_sb_port_name = generate_grid_side_port_name(grids, sink_sb_port_coord,
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module_sb.get_opin_node_grid_side(side_manager.get_side(), inode),
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src_grid_pin_index);
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ModulePortId sink_sb_port_id = module_manager.find_module_port(sink_sb_module, sink_sb_port_name);
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/* Collect source-related information */
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t_rr_node* module_ipin_node = module_cb.get_ipin_node(cb_ipin_side, inode);
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vtr::Point<size_t> cb_src_port_coord(module_ipin_node->xlow, module_ipin_node->ylow);
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std::string src_cb_port_name = generate_grid_side_port_name(cb_src_port_coord,
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std::string src_cb_port_name = generate_grid_side_port_name(grids, cb_src_port_coord,
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module_cb.get_ipin_node_grid_side(cb_ipin_side, inode),
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module_ipin_node->ptc_num);
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ModulePortId src_cb_port_id = module_manager.find_module_port(src_cb_module, src_cb_port_name);
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