[core] enable clock intermediate driver in rrgraph buildup

This commit is contained in:
tangxifan 2024-09-20 19:07:16 -07:00
parent 1332d426c7
commit e8957b6fd8
1 changed files with 76 additions and 0 deletions

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@ -736,6 +736,79 @@ static int add_rr_graph_opin2clk_edges(
return CMD_EXEC_SUCCESS;
}
/********************************************************************
* Add edges between OPIN of programmable blocks and clock routing tracks
* Note that such edges only occur at the intermeidate points of spines
* Different from add_rr_graph_opin2clk_edges(), we follow the clock spines
*here By expanding on intermediate points, internal drivers will be added
*******************************************************************/
static int add_rr_graph_opin2clk_intermediate_edges(
RRGraphBuilder& rr_graph_builder, size_t& num_edges_to_create,
const RRClockSpatialLookup& clk_rr_lookup, const RRGraphView& rr_graph_view,
const DeviceGrid& grids, const size_t& layer, const ClockNetwork& clk_ntwk,
const bool& verbose) {
size_t edge_count = 0;
for (ClockTreeId clk_tree : clk_ntwk.trees()) {
for (ClockSpineId ispine : clk_ntwk.spines(clk_tree)) {
VTR_LOGV(verbose, "Finding internal drivers on spine '%s'...\n",
clk_ntwk.spine_name(ispine).c_str());
for (auto ipin : clk_ntwk.pins(clk_tree)) {
for (const vtr::Point<int>& coord : clk_ntwk.spine_coordinates(ispine)) {
if (clk_ntwk.spine_intermediate_drivers(ispine, coord).empty()) {
continue;
}
size_t curr_edge_count = edge_count;
/* Get the rr node of destination spine */
Direction des_spine_direction = clk_ntwk.spine_direction(ispine);
ClockLevelId des_spine_level = clk_ntwk.spine_level(ispine);
vtr::Point<int> des_coord;
/* des node depends on the type of routing track and direction. But it should be a starting point at the current SB[x][y] */
if (des_spine_direction == Direction::INC && clk_ntwk.spine_track_type(ispine) == CHANX) {
des_coord.set_x(coord.x() + 1);
des_coord.set_y(coord.y());
}
if (des_spine_direction == Direction::DEC && clk_ntwk.spine_track_type(ispine) == CHANX) {
des_coord.set_x(coord.x());
des_coord.set_y(coord.y());
}
if (des_spine_direction == Direction::INC && clk_ntwk.spine_track_type(ispine) == CHANY) {
des_coord.set_x(coord.x());
des_coord.set_y(coord.y() + 1);
}
if (des_spine_direction == Direction::DEC && clk_ntwk.spine_track_type(ispine) == CHANY) {
des_coord.set_x(coord.x());
des_coord.set_y(coord.y());
}
RRNodeId des_node = clk_rr_lookup.find_node(
des_coord.x(), des_coord.y(), clk_tree, des_spine_level, ipin,
des_spine_direction, verbose);
if (!rr_graph_view.valid_node(des_node)) {
continue;
}
/* Walk through each qualified OPIN, build edges */
std::vector<ClockInternalDriverId> int_driver_ids = clk_ntwk.spine_intermediate_drivers(ispine, coord);
for (RRNodeId src_node : find_clock_opin2track_node(
grids, rr_graph_view, layer, coord, clk_ntwk, ipin,
int_driver_ids, verbose)) {
/* Create edges */
VTR_ASSERT(rr_graph_view.valid_node(des_node));
rr_graph_builder.create_edge(
src_node, des_node, clk_ntwk.default_driver_switch(), false);
edge_count++;
}
VTR_LOGV(verbose, "\tWill add %lu edges from OPINs as intermediate drivers at (x=%lu, y=%lu)\n",
edge_count - curr_edge_count, des_coord.x(), des_coord.y());
}
}
}
}
/* Allocate edges */
rr_graph_builder.build_edges(true);
num_edges_to_create += edge_count;
return CMD_EXEC_SUCCESS;
}
/********************************************************************
* Add edges to interconnect clock nodes
* Walk through the routing tracks in each connection block (driver nodes)
@ -812,6 +885,9 @@ static void add_rr_graph_clock_edges(
add_rr_graph_opin2clk_edges(rr_graph_builder, num_edges_to_create,
clk_rr_lookup, rr_graph_view, grids, layer,
clk_ntwk, verbose);
add_rr_graph_opin2clk_intermediate_edges(rr_graph_builder, num_edges_to_create,
clk_rr_lookup, rr_graph_view, grids, layer,
clk_ntwk, verbose);
}
/********************************************************************