[core] refactor

This commit is contained in:
tangxifan 2024-09-21 21:53:53 -07:00
parent 415fd9a8fa
commit f009180bbf
1 changed files with 74 additions and 86 deletions

View File

@ -293,6 +293,72 @@ static int route_spine_taps(
return CMD_EXEC_SUCCESS; return CMD_EXEC_SUCCESS;
} }
/********************************************************************
* Recursively route a clock spine on an existing routing resource graph
*******************************************************************/
static int route_spine_intermediate_drivers(
VprRoutingAnnotation& vpr_routing_annotation,
const RRGraphView& rr_graph, const RRClockSpatialLookup& clk_rr_lookup,
const vtr::vector<RRNodeId, ClusterNetId>& rr_node_gnets,
const std::map<ClockTreePinId, ClusterNetId>& tree2clk_pin_map,
const ClockNetwork& clk_ntwk, const ClockTreeId& clk_tree,
const ClockSpineId& curr_spine, const ClockTreePinId& curr_pin,
const vtr::Point<int>& des_coord, const bool& verbose) {
Direction des_spine_direction = clk_ntwk.spine_direction(curr_spine);
ClockLevelId des_spine_level = clk_ntwk.spine_level(curr_spine);
RRNodeId des_node = clk_rr_lookup.find_node(
des_coord.x(), des_coord.y(), clk_tree, des_spine_level, curr_pin,
des_spine_direction, verbose);
VTR_ASSERT(rr_graph.valid_node(des_node));
/* Internal drivers may appear at the intermediate. Check if there are
* any defined and related rr_node found as incoming edges. If the
* global net is mapped to the internal driver, use it as the previous
* node */
size_t use_int_driver = 0;
if (!clk_ntwk
.spine_intermediate_drivers_by_routing_track(curr_spine, des_coord)
.empty() &&
tree2clk_pin_map.find(curr_pin) != tree2clk_pin_map.end()) {
VTR_LOGV(verbose,
"Finding intermediate drivers at (%d, %d) for spine '%s'\n",
des_coord.x(), des_coord.y(),
clk_ntwk.spine_name(curr_spine).c_str());
for (RREdgeId cand_edge : rr_graph.node_in_edges(des_node)) {
RRNodeId opin_node = rr_graph.edge_src_node(cand_edge);
if (OPIN != rr_graph.node_type(opin_node)) {
continue;
}
if (rr_node_gnets[opin_node] != tree2clk_pin_map.at(curr_pin)) {
continue;
}
/* This is the opin node we need, use it as the internal driver */
vpr_routing_annotation.set_rr_node_prev_node(rr_graph, des_node,
opin_node);
vpr_routing_annotation.set_rr_node_net(opin_node,
tree2clk_pin_map.at(curr_pin));
vpr_routing_annotation.set_rr_node_net(des_node,
tree2clk_pin_map.at(curr_pin));
use_int_driver++;
VTR_LOGV(verbose,
"Routed intermediate point of spine '%s' at "
"(%lu, %lu) using internal driver\n",
clk_ntwk.spine_name(curr_spine).c_str(), des_coord.x(),
des_coord.y());
}
}
if (use_int_driver > 1) {
VTR_LOG_ERROR(
"Found %lu internal drivers for the intermediate point (%lu, %lu) "
"for "
"spine '%s'!\n Expect only 1!\n",
use_int_driver, des_coord.x(), des_coord.y(),
clk_ntwk.spine_name(curr_spine).c_str());
}
return use_int_driver;
}
/******************************************************************** /********************************************************************
* Recursively route a clock spine on an existing routing resource graph * Recursively route a clock spine on an existing routing resource graph
* The strategy is to route spine one by one * The strategy is to route spine one by one
@ -428,56 +494,11 @@ static int rec_expand_and_route_clock_spine(
/* Skip the first stop */ /* Skip the first stop */
if (icoord == spine_coords.size() - 1) { if (icoord == spine_coords.size() - 1) {
vtr::Point<int> des_coord = spine_coords[icoord]; vtr::Point<int> des_coord = spine_coords[icoord];
Direction des_spine_direction = clk_ntwk.spine_direction(curr_spine);
ClockLevelId des_spine_level = clk_ntwk.spine_level(curr_spine);
RRNodeId des_node = clk_rr_lookup.find_node(
des_coord.x(), des_coord.y(), clk_tree, des_spine_level, curr_pin,
des_spine_direction, verbose);
VTR_ASSERT(rr_graph.valid_node(des_node));
/* Internal drivers may appear at the intermediate. Check if there are int use_int_driver = route_spine_intermediate_drivers(vpr_routing_annotation,
* any defined and related rr_node found as incoming edges. If the rr_graph, clk_rr_lookup, rr_node_gnets, tree2clk_pin_map,
* global net is mapped to the internal driver, use it as the previous clk_ntwk, clk_tree, curr_spine, curr_pin, des_coord, verbose);
* node */
size_t use_int_driver = 0;
if (!clk_ntwk
.spine_intermediate_drivers_by_routing_track(curr_spine, des_coord)
.empty() &&
tree2clk_pin_map.find(curr_pin) != tree2clk_pin_map.end()) {
VTR_LOGV(verbose,
"Finding intermediate drivers at (%d, %d) for spine '%s'\n",
des_coord.x(), des_coord.y(),
clk_ntwk.spine_name(curr_spine).c_str());
for (RREdgeId cand_edge : rr_graph.node_in_edges(des_node)) {
RRNodeId opin_node = rr_graph.edge_src_node(cand_edge);
if (OPIN != rr_graph.node_type(opin_node)) {
continue;
}
if (rr_node_gnets[opin_node] != tree2clk_pin_map.at(curr_pin)) {
continue;
}
/* This is the opin node we need, use it as the internal driver */
vpr_routing_annotation.set_rr_node_prev_node(rr_graph, des_node,
opin_node);
vpr_routing_annotation.set_rr_node_net(opin_node,
tree2clk_pin_map.at(curr_pin));
vpr_routing_annotation.set_rr_node_net(des_node,
tree2clk_pin_map.at(curr_pin));
use_int_driver++;
VTR_LOGV(verbose,
"Routed intermediate point of spine '%s' at "
"(%lu, %lu) using internal driver\n",
clk_ntwk.spine_name(curr_spine).c_str(), des_coord.x(),
des_coord.y());
}
}
if (use_int_driver > 1) { if (use_int_driver > 1) {
VTR_LOG_ERROR(
"Found %lu internal drivers for the intermediate point (%lu, %lu) "
"for "
"spine '%s'!\n Expect only 1!\n",
use_int_driver, des_coord.x(), des_coord.y(),
clk_ntwk.spine_name(curr_spine).c_str());
return CMD_EXEC_FATAL_ERROR; return CMD_EXEC_FATAL_ERROR;
} }
continue; continue;
@ -507,43 +528,10 @@ static int rec_expand_and_route_clock_spine(
* any defined and related rr_node found as incoming edges. If the * any defined and related rr_node found as incoming edges. If the
* global net is mapped to the internal driver, use it as the previous * global net is mapped to the internal driver, use it as the previous
* node */ * node */
size_t use_int_driver = 0; int use_int_driver = route_spine_intermediate_drivers(vpr_routing_annotation,
if (!clk_ntwk rr_graph, clk_rr_lookup, rr_node_gnets, tree2clk_pin_map,
.spine_intermediate_drivers_by_routing_track(curr_spine, des_coord) clk_ntwk, clk_tree, curr_spine, curr_pin, des_coord, verbose);
.empty() &&
tree2clk_pin_map.find(curr_pin) != tree2clk_pin_map.end()) {
VTR_LOGV(
verbose, "Finding intermediate drivers at (%d, %d) for spine '%s'\n",
des_coord.x(), des_coord.y(), clk_ntwk.spine_name(curr_spine).c_str());
for (RREdgeId cand_edge : rr_graph.node_in_edges(des_node)) {
RRNodeId opin_node = rr_graph.edge_src_node(cand_edge);
if (OPIN != rr_graph.node_type(opin_node)) {
continue;
}
if (rr_node_gnets[opin_node] != tree2clk_pin_map.at(curr_pin)) {
continue;
}
/* This is the opin node we need, use it as the internal driver */
vpr_routing_annotation.set_rr_node_prev_node(rr_graph, des_node,
opin_node);
vpr_routing_annotation.set_rr_node_net(opin_node,
tree2clk_pin_map.at(curr_pin));
vpr_routing_annotation.set_rr_node_net(des_node,
tree2clk_pin_map.at(curr_pin));
use_int_driver++;
VTR_LOGV(verbose,
"Routed intermediate point of spine '%s' at "
"(%lu, %lu) using internal driver\n",
clk_ntwk.spine_name(curr_spine).c_str(), des_coord.x(),
des_coord.y());
}
}
if (use_int_driver > 1) { if (use_int_driver > 1) {
VTR_LOG_ERROR(
"Found %lu internal drivers for the intermediate point (%lu, %lu) for "
"spine '%s'!\n Expect only 1!\n",
use_int_driver, des_coord.x(), des_coord.y(),
clk_ntwk.spine_name(curr_spine).c_str());
return CMD_EXEC_FATAL_ERROR; return CMD_EXEC_FATAL_ERROR;
} }
if (use_int_driver == 1) { if (use_int_driver == 1) {