developing switch block pattern for tileable routing architecture
This commit is contained in:
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352c97302b
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9ca1b42f4c
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@ -47,12 +47,16 @@
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#include <vector>
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#include <vector>
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#include <algorithm>
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#include <algorithm>
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#include "vtr_ndmatrix.h"
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#include "vpr_types.h"
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#include "vpr_types.h"
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#include "globals.h"
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#include "globals.h"
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#include "vpr_utils.h"
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#include "vpr_utils.h"
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#include "rr_graph_util.h"
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#include "rr_graph_util.h"
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#include "ReadOptions.h"
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#include "rr_graph.h"
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#include "rr_graph.h"
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#include "rr_graph2.h"
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#include "rr_graph2.h"
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#include "rr_graph_sbox.h"
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#include "route_common.h"
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#include "route_common.h"
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#include "fpga_x2p_types.h"
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#include "fpga_x2p_types.h"
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#include "rr_graph_tileable_builder.h"
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#include "rr_graph_tileable_builder.h"
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@ -892,9 +896,9 @@ void alloc_rr_graph_fast_lookup(const DeviceCoordinator& device_size,
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/* For OPINs, IPINs, SOURCE, SINKs, CHANX and CHANY */
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/* For OPINs, IPINs, SOURCE, SINKs, CHANX and CHANY */
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for (int type = 0; type < NUM_RR_TYPES; ++type) {
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for (int type = 0; type < NUM_RR_TYPES; ++type) {
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/* Skip SOURCE and OPIN, they will share with SOURCE and SINK
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/* Skip SOURCE and OPIN, they will share with SOURCE and SINK
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* SOURCE and SINK have unique ptc values so their data can be shared.
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* SOURCE and SINK have unique ptc values so their data can be shared.
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* IPIN and OPIN have unique ptc values so their data can be shared.
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* IPIN and OPIN have unique ptc values so their data can be shared.
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*/
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*/
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if ((SOURCE == type) || (OPIN == type) ) {
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if ((SOURCE == type) || (OPIN == type) ) {
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continue;
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continue;
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}
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}
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@ -1337,8 +1341,9 @@ void add_one_edge_for_two_rr_nodes(t_rr_graph* rr_graph,
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***********************************************************************/
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***********************************************************************/
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static
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static
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void build_edges_for_one_tileable_rr_gsb(t_rr_graph* rr_graph, RRGSB* rr_gsb,
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void build_edges_for_one_tileable_rr_gsb(t_rr_graph* rr_graph, RRGSB* rr_gsb,
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int** Fc_in, int** Fc_out,
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std::vector < std::vector< std::vector<int> > > track2ipin_lookup,
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enum e_switch_block_type sb_type, int Fs,
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std::vector < std::vector< std::vector<int> > > opin2track_map,
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std::vector < std::vector< std::vector<int> > > sb_conn,
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int num_directs, t_clb_to_clb_directs* clb_to_clb_directs,
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int num_directs, t_clb_to_clb_directs* clb_to_clb_directs,
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int num_switches, int delayless_switch) {
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int num_switches, int delayless_switch) {
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/* Check rr_gsb */
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/* Check rr_gsb */
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@ -1362,16 +1367,19 @@ void build_edges_for_one_tileable_rr_gsb(t_rr_graph* rr_graph, RRGSB* rr_gsb,
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/* Find IPINs */
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/* Find IPINs */
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for (size_t inode = 0; inode < rr_gsb->get_num_ipin_nodes(gsb_side); ++inode) {
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for (size_t inode = 0; inode < rr_gsb->get_num_ipin_nodes(gsb_side); ++inode) {
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t_rr_node* ipin_node = rr_gsb->get_ipin_node(gsb_side, inode);
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t_rr_node* ipin_node = rr_gsb->get_ipin_node(gsb_side, inode);
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/* 1. create edges between SOURCE and OPINs */
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/* 2. create edges between IPINs and SINKs */
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int sink_node_id = get_rr_node_index(ipin_node->xlow, ipin_node->ylow,
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int sink_node_id = get_rr_node_index(ipin_node->xlow, ipin_node->ylow,
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SINK, ipin_node->ptc_num,
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SINK, ipin_node->ptc_num,
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rr_graph->rr_node_indices);
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rr_graph->rr_node_indices);
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/* add edges to the src_node */
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/* add edges to connect the IPIN node to SINK nodes */
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add_one_edge_for_two_rr_nodes(rr_graph, ipin_node - rr_graph->rr_node, sink_node_id,
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add_one_edge_for_two_rr_nodes(rr_graph, ipin_node - rr_graph->rr_node, sink_node_id,
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delayless_switch);
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delayless_switch);
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}
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}
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}
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}
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/* 3. create edges between CHANX | CHANY and IPINs (connections inside connection blocks) */
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/* For TOP and BOTTOM */
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return;
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return;
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}
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}
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@ -1393,8 +1401,9 @@ void build_rr_graph_edges(t_rr_graph* rr_graph,
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const DeviceCoordinator& device_size,
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const DeviceCoordinator& device_size,
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std::vector<size_t> device_chan_width,
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std::vector<size_t> device_chan_width,
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std::vector<t_segment_inf> segment_inf,
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std::vector<t_segment_inf> segment_inf,
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int** Fc_in, int** Fc_out,
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int L_num_types, t_type_ptr types,
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enum e_switch_block_type sb_type, int Fs,
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struct s_ivec**** track_to_ipin_lookup, int***** opin_to_track_map,
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vtr::NdMatrix<std::vector<int>,3> switch_block_conn,
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int num_directs, t_clb_to_clb_directs* clb_to_clb_directs,
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int num_directs, t_clb_to_clb_directs* clb_to_clb_directs,
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int num_switches, int delayless_switch) {
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int num_switches, int delayless_switch) {
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DeviceCoordinator device_range(device_size.get_x() - 1, device_size.get_y() - 1);
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DeviceCoordinator device_range(device_size.get_x() - 1, device_size.get_y() - 1);
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@ -1404,9 +1413,15 @@ void build_rr_graph_edges(t_rr_graph* rr_graph,
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DeviceCoordinator gsb_coordinator(ix, iy);
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DeviceCoordinator gsb_coordinator(ix, iy);
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/* Create a GSB object */
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/* Create a GSB object */
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RRGSB rr_gsb = build_one_tileable_rr_gsb(device_range, device_chan_width, segment_inf, gsb_coordinator, rr_graph);
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RRGSB rr_gsb = build_one_tileable_rr_gsb(device_range, device_chan_width, segment_inf, gsb_coordinator, rr_graph);
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/* adapt the track_to_ipin_lookup for the GSB nodes */
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std::vector < std::vector< std::vector<int> > > track2ipin_lookup; /* [0..gsb_side][0..num_tracks][0..Fc] */
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/* adapt the opin_to_track_map for the GSB nodes */
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std::vector < std::vector< std::vector<int> > > opin2track_map; /* [0..gsb_side][0..num_opin_node][0..Fc] */
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/* adapt the switch_block_conn for the GSB nodes */
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std::vector < std::vector< std::vector<int> > > sb_conn; /* [0..gsb_side][0..chan_width][0..Fc] */
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/* Build edges for a GSB */
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/* Build edges for a GSB */
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build_edges_for_one_tileable_rr_gsb(rr_graph, &rr_gsb, Fc_in, Fc_out,
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build_edges_for_one_tileable_rr_gsb(rr_graph, &rr_gsb,
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sb_type, Fs,
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track2ipin_lookup, opin2track_map, sb_conn,
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num_directs, clb_to_clb_directs,
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num_directs, clb_to_clb_directs,
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num_switches, delayless_switch);
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num_switches, delayless_switch);
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/* Finish this GSB, go to the next*/
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/* Finish this GSB, go to the next*/
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@ -1416,6 +1431,76 @@ void build_rr_graph_edges(t_rr_graph* rr_graph,
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return;
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return;
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}
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}
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/************************************************************************
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* Build internal connection pattern for a switch block
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* This function is adapt to fit the tileable routing context from
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* rr_graph_sbox.c : alloc_and_load_switch_block_conn
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* Switch box: *
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* TOP (CHANY) *
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* | | | | | | *
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* +-----------+ *
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* --| |-- *
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* --| |-- *
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* LEFT --| |-- RIGHT *
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* (CHANX)--| |--(CHANX) *
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* --| |-- *
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* --| |-- *
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* +-----------+ *
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* | | | | | | *
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* BOTTOM (CHANY)
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*
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* [0..3][0..3][0..nodes_per_chan-1]. Structure below is indexed as: *
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* [from_side][to_side][from_track]. That yields an integer vector (ivec) *
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* of the tracks to which from_track connects in the proper to_location. *
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* For simple switch boxes this is overkill, but it will allow complicated *
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* switch boxes with Fs > 3, etc. without trouble.
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***********************************************************************/
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static
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vtr::NdMatrix<std::vector<int>,3> alloc_and_load_tileable_switch_block_conn(size_t chan_width,
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enum e_switch_block_type switch_block_type,
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int Fs) {
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/* Currently Fs must be 3 since each track maps once to each other side */
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VTR_ASSERT(3 == Fs);
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vtr::NdMatrix<std::vector<int>,3> switch_block_conn({4, 4, chan_width});
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for (e_side from_side : {TOP, RIGHT, BOTTOM, LEFT}) {
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for (e_side to_side : {TOP, RIGHT, BOTTOM, LEFT}) {
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for (size_t from_track = 0; from_track < chan_width; from_track++) {
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if (from_side != to_side) {
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switch_block_conn[from_side][to_side][from_track].resize(1);
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switch_block_conn[from_side][to_side][from_track][0] = get_simple_switch_block_track(from_side, to_side,
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from_track, switch_block_type,
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chan_width);
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} else { /* from_side == to_side -> no connection. */
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switch_block_conn[from_side][to_side][from_track].clear();
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}
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}
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}
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}
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if (getEchoEnabled()) {
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FILE *out = fopen("switch_block_conn.echo", "w");
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for (int l = 0; l < 4; ++l) {
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for (int k = 0; k < 4; ++k) {
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fprintf(out, "Side %d to %d\n", l, k);
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for (size_t j = 0; j < chan_width; ++j) {
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fprintf(out, "%zu: ", j);
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for (unsigned i = 0; i < switch_block_conn[l][k][j].size(); ++i) {
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fprintf(out, "%d ", switch_block_conn[l][k][j][i]);
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}
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fprintf(out, "\n");
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}
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fprintf(out, "\n");
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}
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}
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fclose(out);
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}
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return switch_block_conn;
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}
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/************************************************************************
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/************************************************************************
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* Main function of this file
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* Main function of this file
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* Builder for a detailed uni-directional tileable rr_graph
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* Builder for a detailed uni-directional tileable rr_graph
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@ -1484,7 +1569,7 @@ void build_tileable_unidir_rr_graph(INP int L_num_types,
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for (int ix = 0; ix < (L_nx + 2); ++ix) {
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for (int ix = 0; ix < (L_nx + 2); ++ix) {
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grids[ix].resize(L_ny + 2);
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grids[ix].resize(L_ny + 2);
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for (int iy = 0; ix < (L_ny + 2); ++iy) {
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for (int iy = 0; ix < (L_ny + 2); ++iy) {
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grid[ix][iy] = L_grid[ix][iy];
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grids[ix][iy] = L_grid[ix][iy];
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}
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}
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}
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}
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/* Create a vector of channel width, we support X-direction and Y-direction has different W */
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/* Create a vector of channel width, we support X-direction and Y-direction has different W */
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@ -1532,9 +1617,13 @@ void build_tileable_unidir_rr_graph(INP int L_num_types,
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load_rr_nodes_basic_info(&rr_graph, device_size, grids, device_chan_width, segment_infs);
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load_rr_nodes_basic_info(&rr_graph, device_size, grids, device_chan_width, segment_infs);
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/************************************************************************
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/************************************************************************
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* 3. Create the connectivity of OPINs
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* 3.1 Create the connectivity of OPINs
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* a. Evenly assign connections to OPINs to routing tracks
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* a. Evenly assign connections to OPINs to routing tracks
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* b. the connection pattern should be same across the fabric
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* b. the connection pattern should be same across the fabric
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*
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* 3.2 Create the connectivity of IPINs
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* a. Evenly assign connections from routing tracks to IPINs
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* b. the connection pattern should be same across the fabric
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***********************************************************************/
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***********************************************************************/
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int **Fc_in = NULL; /* [0..num_types-1][0..num_pins-1] */
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int **Fc_in = NULL; /* [0..num_types-1][0..num_pins-1] */
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boolean Fc_clipped;
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boolean Fc_clipped;
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@ -1545,18 +1634,42 @@ void build_tileable_unidir_rr_graph(INP int L_num_types,
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*Warnings |= RR_GRAPH_WARN_FC_CLIPPED;
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*Warnings |= RR_GRAPH_WARN_FC_CLIPPED;
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}
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}
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/************************************************************************
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* 4. Create the connectivity of IPINs
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* a. Evenly assign connections from routing tracks to IPINs
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* b. the connection pattern should be same across the fabric
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***********************************************************************/
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int **Fc_out = NULL; /* [0..num_types-1][0..num_pins-1] */
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int **Fc_out = NULL; /* [0..num_types-1][0..num_pins-1] */
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Fc_clipped = FALSE;
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Fc_clipped = FALSE;
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Fc_out = alloc_and_load_actual_fc(L_num_types, types, chan_width,
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Fc_out = alloc_and_load_actual_fc(L_num_types, types, chan_width,
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TRUE, UNI_DIRECTIONAL, &Fc_clipped, ignore_Fc_0);
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TRUE, UNI_DIRECTIONAL, &Fc_clipped, ignore_Fc_0);
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if (Fc_clipped) {
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*Warnings |= RR_GRAPH_WARN_FC_CLIPPED;
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}
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/* START IPINP MAP */
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/* Create ipin map lookups */
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int***** ipin_to_track_map = (int*****) my_calloc(L_num_types, sizeof(int****));
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struct s_ivec**** track_to_ipin_lookup = (struct s_ivec****) my_calloc(L_num_types, sizeof(struct s_ivec***));
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boolean* perturb_ipins = alloc_and_load_perturb_ipins(chan_width, L_num_types, Fc_in, Fc_out, UNI_DIRECTIONAL);
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for (int i = 0; i < L_num_types; ++i) {
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ipin_to_track_map[i] = alloc_and_load_pin_to_track_map(RECEIVER, chan_width, Fc_in[i], &types[i],
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perturb_ipins[i], UNI_DIRECTIONAL);
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track_to_ipin_lookup[i] = alloc_and_load_track_to_pin_lookup(ipin_to_track_map[i], Fc_in[i],
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types[i].height, types[i].num_pins, chan_width);
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}
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/* END IPINP MAP */
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/* START OPINP MAP */
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/* Create opin map lookups */
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int***** opin_to_track_map = (int*****) my_calloc(L_num_types, sizeof(int****));
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for (int i = 0; i < L_num_types; ++i) {
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opin_to_track_map[i] = alloc_and_load_pin_to_track_map(DRIVER, chan_width, Fc_out[i], &types[i], FALSE, UNI_DIRECTIONAL);
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}
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/************************************************************************
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/************************************************************************
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* 5. Build the connections tile by tile:
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* 4. Build switch block connection matrix
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***********************************************************************/
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vtr::NdMatrix<std::vector<int>,3> switch_block_conn = alloc_and_load_tileable_switch_block_conn(chan_width, sb_type, Fs);
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/************************************************************************
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* 6. Build the connections tile by tile:
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* We classify rr_nodes into a general switch block (GSB) data structure
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* We classify rr_nodes into a general switch block (GSB) data structure
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* where we create edges to each rr_nodes in the GSB with respect to
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* where we create edges to each rr_nodes in the GSB with respect to
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* Fc_in and Fc_out, switch block patterns
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* Fc_in and Fc_out, switch block patterns
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@ -1571,7 +1684,7 @@ void build_tileable_unidir_rr_graph(INP int L_num_types,
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/* Create edges for a tileable rr_graph */
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/* Create edges for a tileable rr_graph */
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build_rr_graph_edges(&rr_graph, device_size, device_chan_width, segment_infs,
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build_rr_graph_edges(&rr_graph, device_size, device_chan_width, segment_infs,
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Fc_in, Fc_out, sb_type, Fs,
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L_num_types, types, track_to_ipin_lookup, opin_to_track_map, switch_block_conn,
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num_directs, clb_to_clb_directs, num_switches, delayless_switch);
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num_directs, clb_to_clb_directs, num_switches, delayless_switch);
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/************************************************************************
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/************************************************************************
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@ -1592,6 +1705,37 @@ void build_tileable_unidir_rr_graph(INP int L_num_types,
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rr_node = rr_graph.rr_node;
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rr_node = rr_graph.rr_node;
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rr_node_indices = rr_graph.rr_node_indices;
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rr_node_indices = rr_graph.rr_node_indices;
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/************************************************************************
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* 9. Free all temp stucts
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***********************************************************************/
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/* Free all temp structs */
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if (Fc_in) {
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free_matrix(Fc_in,0, L_num_types, 0, sizeof(int));
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Fc_in = NULL;
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}
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if (Fc_out) {
|
||||||
|
free_matrix(Fc_out,0, L_num_types, 0, sizeof(int));
|
||||||
|
Fc_out = NULL;
|
||||||
|
}
|
||||||
|
if (perturb_ipins) {
|
||||||
|
free(perturb_ipins);
|
||||||
|
perturb_ipins = NULL;
|
||||||
|
}
|
||||||
|
if (opin_to_track_map) {
|
||||||
|
for (int i = 0; i < L_num_types; ++i) {
|
||||||
|
free_matrix4(opin_to_track_map[i], 0, types[i].num_pins - 1, 0,
|
||||||
|
types[i].height - 1, 0, 3, 0, sizeof(int));
|
||||||
|
}
|
||||||
|
free(opin_to_track_map);
|
||||||
|
}
|
||||||
|
|
||||||
|
free_type_pin_to_track_map(ipin_to_track_map, types);
|
||||||
|
free_type_track_to_ipin_map(track_to_ipin_lookup, types, chan_width);
|
||||||
|
if(clb_to_clb_directs != NULL) {
|
||||||
|
free(clb_to_clb_directs);
|
||||||
|
}
|
||||||
|
|
||||||
return;
|
return;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
|
|
@ -69,14 +69,6 @@ static t_chunk rr_mem_ch = {NULL, 0, NULL};
|
||||||
/* Status of current chunk being dished out by calls to my_chunk_malloc. */
|
/* Status of current chunk being dished out by calls to my_chunk_malloc. */
|
||||||
|
|
||||||
/********************* Subroutines local to this module. *******************/
|
/********************* Subroutines local to this module. *******************/
|
||||||
static int ****alloc_and_load_pin_to_track_map(INP enum e_pin_type pin_type,
|
|
||||||
INP int nodes_per_chan, INP int *Fc, INP t_type_ptr Type,
|
|
||||||
INP boolean perturb_switch_pattern,
|
|
||||||
INP enum e_directionality directionality);
|
|
||||||
|
|
||||||
static struct s_ivec ***alloc_and_load_track_to_pin_lookup(
|
|
||||||
INP int ****pin_to_track_map, INP int *Fc, INP int height,
|
|
||||||
INP int num_pins, INP int nodes_per_chan);
|
|
||||||
|
|
||||||
static void build_bidir_rr_opins(INP int i, INP int j,
|
static void build_bidir_rr_opins(INP int i, INP int j,
|
||||||
INOUTP t_rr_node * L_rr_node, INP t_ivec *** L_rr_node_indices,
|
INOUTP t_rr_node * L_rr_node, INP t_ivec *** L_rr_node_indices,
|
||||||
|
@ -124,10 +116,6 @@ static void check_all_tracks_reach_pins(t_type_ptr type,
|
||||||
int ****tracks_connected_to_pin, int nodes_per_chan, int Fc,
|
int ****tracks_connected_to_pin, int nodes_per_chan, int Fc,
|
||||||
enum e_pin_type ipin_or_opin);
|
enum e_pin_type ipin_or_opin);
|
||||||
|
|
||||||
static boolean *alloc_and_load_perturb_ipins(INP int nodes_per_chan,
|
|
||||||
INP int L_num_types, INP int **Fc_in, INP int **Fc_out,
|
|
||||||
INP enum e_directionality directionality);
|
|
||||||
|
|
||||||
static void build_rr_sinks_sources(INP int i, INP int j,
|
static void build_rr_sinks_sources(INP int i, INP int j,
|
||||||
INP t_rr_node * L_rr_node, INP t_ivec *** L_rr_node_indices,
|
INP t_rr_node * L_rr_node, INP t_ivec *** L_rr_node_indices,
|
||||||
INP int delayless_switch, INP struct s_grid_tile **L_grid);
|
INP int delayless_switch, INP struct s_grid_tile **L_grid);
|
||||||
|
@ -188,11 +176,6 @@ static void print_distribution(FILE * fptr,
|
||||||
t_mux_size_distribution * distr_struct);
|
t_mux_size_distribution * distr_struct);
|
||||||
#endif
|
#endif
|
||||||
|
|
||||||
static void free_type_pin_to_track_map(int***** ipin_to_track_map,
|
|
||||||
t_type_ptr types);
|
|
||||||
|
|
||||||
static void free_type_track_to_ipin_map(struct s_ivec**** track_to_pin_map,
|
|
||||||
t_type_ptr types, int nodes_per_chan);
|
|
||||||
|
|
||||||
static t_seg_details *alloc_and_load_global_route_seg_details(
|
static t_seg_details *alloc_and_load_global_route_seg_details(
|
||||||
INP int nodes_per_chan, INP int global_route_switch);
|
INP int nodes_per_chan, INP int global_route_switch);
|
||||||
|
@ -543,7 +526,7 @@ void rr_graph_externals(t_timing_inf timing_inf,
|
||||||
alloc_and_load_rr_clb_source(rr_node_indices);
|
alloc_and_load_rr_clb_source(rr_node_indices);
|
||||||
}
|
}
|
||||||
|
|
||||||
static boolean *
|
boolean *
|
||||||
alloc_and_load_perturb_ipins(INP int nodes_per_chan, INP int L_num_types,
|
alloc_and_load_perturb_ipins(INP int nodes_per_chan, INP int L_num_types,
|
||||||
INP int **Fc_in, INP int **Fc_out, INP enum e_directionality directionality) {
|
INP int **Fc_in, INP int **Fc_out, INP enum e_directionality directionality) {
|
||||||
int i;
|
int i;
|
||||||
|
@ -675,7 +658,7 @@ alloc_and_load_actual_fc(INP int L_num_types, INP t_type_ptr types,
|
||||||
}
|
}
|
||||||
|
|
||||||
/* frees the track to ipin mapping for each physical grid type */
|
/* frees the track to ipin mapping for each physical grid type */
|
||||||
static void free_type_track_to_ipin_map(struct s_ivec**** track_to_pin_map,
|
void free_type_track_to_ipin_map(struct s_ivec**** track_to_pin_map,
|
||||||
t_type_ptr types, int nodes_per_chan) {
|
t_type_ptr types, int nodes_per_chan) {
|
||||||
int i, itrack, ioff, iside;
|
int i, itrack, ioff, iside;
|
||||||
for (i = 0; i < num_types; i++) {
|
for (i = 0; i < num_types; i++) {
|
||||||
|
@ -698,7 +681,7 @@ static void free_type_track_to_ipin_map(struct s_ivec**** track_to_pin_map,
|
||||||
}
|
}
|
||||||
|
|
||||||
/* frees the ipin to track mapping for each physical grid type */
|
/* frees the ipin to track mapping for each physical grid type */
|
||||||
static void free_type_pin_to_track_map(int***** ipin_to_track_map,
|
void free_type_pin_to_track_map(int***** ipin_to_track_map,
|
||||||
t_type_ptr types) {
|
t_type_ptr types) {
|
||||||
int i;
|
int i;
|
||||||
for (i = 0; i < num_types; i++) {
|
for (i = 0; i < num_types; i++) {
|
||||||
|
@ -1532,7 +1515,7 @@ void alloc_and_load_edges_and_switches(INP t_rr_node * L_rr_node, INP int inode,
|
||||||
assert(i == num_edges);
|
assert(i == num_edges);
|
||||||
}
|
}
|
||||||
|
|
||||||
static int ****
|
int ****
|
||||||
alloc_and_load_pin_to_track_map(INP enum e_pin_type pin_type,
|
alloc_and_load_pin_to_track_map(INP enum e_pin_type pin_type,
|
||||||
INP int nodes_per_chan, INP int *Fc, INP t_type_ptr Type,
|
INP int nodes_per_chan, INP int *Fc, INP t_type_ptr Type,
|
||||||
INP boolean perturb_switch_pattern,
|
INP boolean perturb_switch_pattern,
|
||||||
|
@ -1873,7 +1856,7 @@ static void check_all_tracks_reach_pins(t_type_ptr type,
|
||||||
/* Allocates and loads the track to ipin lookup for each physical grid type. This
|
/* Allocates and loads the track to ipin lookup for each physical grid type. This
|
||||||
* is the same information as the ipin_to_track map but accessed in a different way. */
|
* is the same information as the ipin_to_track map but accessed in a different way. */
|
||||||
|
|
||||||
static struct s_ivec ***
|
struct s_ivec ***
|
||||||
alloc_and_load_track_to_pin_lookup(INP int ****pin_to_track_map, INP int *Fc,
|
alloc_and_load_track_to_pin_lookup(INP int ****pin_to_track_map, INP int *Fc,
|
||||||
INP int height, INP int num_pins, INP int nodes_per_chan) {
|
INP int height, INP int num_pins, INP int nodes_per_chan) {
|
||||||
int ipin, iside, itrack, iconn, ioff, pin_counter;
|
int ipin, iside, itrack, iconn, ioff, pin_counter;
|
||||||
|
|
|
@ -63,5 +63,27 @@ void rr_graph_externals(t_timing_inf timing_inf,
|
||||||
t_segment_inf * segment_inf, int num_seg_types, int nodes_per_chan,
|
t_segment_inf * segment_inf, int num_seg_types, int nodes_per_chan,
|
||||||
int wire_to_ipin_switch, enum e_base_cost_type base_cost_type);
|
int wire_to_ipin_switch, enum e_base_cost_type base_cost_type);
|
||||||
|
|
||||||
|
/* Xifan Tang: Functions shared by tileable rr_graph generator */
|
||||||
|
|
||||||
|
int ****alloc_and_load_pin_to_track_map(INP enum e_pin_type pin_type,
|
||||||
|
INP int nodes_per_chan, INP int *Fc, INP t_type_ptr Type,
|
||||||
|
INP boolean perturb_switch_pattern,
|
||||||
|
INP enum e_directionality directionality);
|
||||||
|
|
||||||
|
struct s_ivec ***alloc_and_load_track_to_pin_lookup(
|
||||||
|
INP int ****pin_to_track_map, INP int *Fc, INP int height,
|
||||||
|
INP int num_pins, INP int nodes_per_chan);
|
||||||
|
|
||||||
|
boolean *
|
||||||
|
alloc_and_load_perturb_ipins(INP int nodes_per_chan, INP int L_num_types,
|
||||||
|
INP int **Fc_in, INP int **Fc_out, INP enum e_directionality directionality);
|
||||||
|
|
||||||
|
void free_type_pin_to_track_map(int***** ipin_to_track_map,
|
||||||
|
t_type_ptr types);
|
||||||
|
|
||||||
|
void free_type_track_to_ipin_map(struct s_ivec**** track_to_pin_map,
|
||||||
|
t_type_ptr types, int nodes_per_chan);
|
||||||
|
|
||||||
|
|
||||||
#endif
|
#endif
|
||||||
|
|
||||||
|
|
Loading…
Reference in New Issue