critical bug fixed when annotating the routing results.

Add previous node check. This is due to that some loops between SB/CBs may exist when routing congestion is high, which leads to same nets appear in the inputs of a routing multiplexer. Actually one of them is driven by the other as a downstream node Using previous node check can identify which one to pick
2020-06-17 11:17:57 -06:00 · 2020-06-17 11:17:57 -06:00 · 5d79a3f69f
parent 4f7e8020a8
commit 5d79a3f69f
6 changed files with 179 additions and 4 deletions
--- a/openfpga/src/annotation/annotate_routing.cpp
+++ b/openfpga/src/annotation/annotate_routing.cpp
@ -50,5 +50,134 @@ void annotate_rr_node_nets(const DeviceContext& device_ctx,
  VTR_LOG("Done with %d nodes mapping\n", counter);
 }

+
+/********************************************************************
+ * This function will find a previous node for a given rr_node
+ * from the routing traces
+ *
+ * It requires a candidate which provided by upstream functions
+ * Try to validate a candidate by searching it from driving node list
+ * If not validated, try to find a right one in the routing traces
+ *******************************************************************/
+static 
+RRNodeId find_previous_node_from_routing_traces(const RRGraph& rr_graph,
+                                                t_trace* routing_trace_head,
+                                                const RRNodeId& prev_node_candidate,
+                                                const RRNodeId& cur_rr_node) {
+  RRNodeId prev_node = prev_node_candidate;
+
+  /* For a valid prev_node, ensure prev node is one of the driving nodes for this rr_node! */
+  if (prev_node) {
+    /* Try to spot the previous node in the incoming node list of this rr_node */
+    bool valid_prev_node = false;
+    for (const RREdgeId& in_edge : rr_graph.node_in_edges(cur_rr_node)) {
+      if (prev_node == rr_graph.edge_src_node(in_edge)) {
+        valid_prev_node = true;
+        break;
+      }
+    }
+
+    /* Early exit if we already validate the node */
+    if (true == valid_prev_node) {
+      return prev_node;
+    }
+
+    /* If we cannot find one, it could be possible that this rr_node branches 
+     * from an earlier point in the routing tree
+     *
+     *            +----- ... --->prev_node
+     *            |
+     *  src_node->+
+     *            |
+     *            +-----+ rr_node
+     *
+     * Our job now is to start from the head of the traces and find the prev_node 
+     * that drives this rr_node
+     *
+     * This search will find the first-fit and finish.
+     * This is reasonable because if there is a second-fit, it should be a longer path
+     * which should be considered in routing optimization
+     */
+    if (false == valid_prev_node) {
+      t_trace* tptr = routing_trace_head;
+      while (tptr != nullptr) {
+        RRNodeId cand_prev_node = tptr->index;
+        bool is_good_cand = false;
+        for (const RREdgeId& in_edge : rr_graph.node_in_edges(cur_rr_node)) {
+          if (cand_prev_node == rr_graph.edge_src_node(in_edge)) {
+            is_good_cand = true;
+            break;
+          }
+        }
+  
+        if (true == is_good_cand) {
+          /* Update prev_node */
+          prev_node = cand_prev_node;
+          break;
+        }
+
+        /* Move on to the next */
+        tptr = tptr->next;
+      }
+    } 
+  }
+
+  return prev_node; 
+}
+
+/********************************************************************
+ * Create a mapping between each rr_node and its previous node
+ * based on VPR routing results
+ * - Unmapped rr_node will have an invalid id of previous rr_node
+ *******************************************************************/
+void annotate_rr_node_previous_nodes(const DeviceContext& device_ctx,
+                                     const ClusteringContext& clustering_ctx,
+                                     const RoutingContext& routing_ctx,
+                                     VprRoutingAnnotation& vpr_routing_annotation,
+                                     const bool& verbose) {
+  size_t counter = 0;
+  VTR_LOG("Annotating previous nodes for rr_node...");
+  VTR_LOGV(verbose, "\n");
+   
+  for (auto net_id : clustering_ctx.clb_nlist.nets()) {
+    /* Ignore nets that are not routed */
+    if (true == clustering_ctx.clb_nlist.net_is_ignored(net_id)) {
+      continue;
+    }
+    /* Ignore used in local cluster only, reserved one CLB pin */
+    if (false == clustering_ctx.clb_nlist.net_sinks(net_id).size()) {
+      continue;
+    }
+    
+    /* Cache Previous nodes */
+    RRNodeId prev_node = RRNodeId::INVALID();
+
+    t_trace* tptr = routing_ctx.trace[net_id].head;
+    while (tptr != nullptr) {
+      RRNodeId rr_node = tptr->index;
+
+      /* Find the right previous node */
+      prev_node = find_previous_node_from_routing_traces(device_ctx.rr_graph,
+                                                         routing_ctx.trace[net_id].head,
+                                                         prev_node,
+                                                         rr_node);
+
+      /* Only update mapped nodes */
+      if (prev_node) {
+        vpr_routing_annotation.set_rr_node_prev_node(rr_node, prev_node);
+        counter++;
+      }
+
+      /* Update prev_node */
+      prev_node = rr_node;
+
+      /* Move on to the next */
+      tptr = tptr->next;
+    }
+  }
+
+  VTR_LOG("Done with %d nodes mapping\n", counter);
+}
+
 } /* end namespace openfpga */

--- a/openfpga/src/annotation/annotate_routing.h
+++ b/openfpga/src/annotation/annotate_routing.h
@ -21,6 +21,12 @@ void annotate_rr_node_nets(const DeviceContext& device_ctx,
                           VprRoutingAnnotation& vpr_routing_annotation,
                           const bool& verbose);

+void annotate_rr_node_previous_nodes(const DeviceContext& device_ctx,
+                                     const ClusteringContext& clustering_ctx,
+                                     const RoutingContext& routing_ctx,
+                                     VprRoutingAnnotation& vpr_routing_annotation,
+                                     const bool& verbose);
+
 } /* end namespace openfpga */

 #endif
--- a/openfpga/src/annotation/vpr_routing_annotation.cpp
+++ b/openfpga/src/annotation/vpr_routing_annotation.cpp
@ -24,11 +24,18 @@ ClusterNetId VprRoutingAnnotation::rr_node_net(const RRNodeId& rr_node) const {
  return rr_node_nets_[rr_node];
 }

+RRNodeId VprRoutingAnnotation::rr_node_prev_node(const RRNodeId& rr_node) const {
+  /* Ensure that the node_id is in the list */
+  VTR_ASSERT(size_t(rr_node) < rr_node_nets_.size());
+  return rr_node_prev_nodes_[rr_node];
+}
+
 /************************************************************************
 * Public mutators
 ***********************************************************************/
 void VprRoutingAnnotation::init(const RRGraph& rr_graph) {
  rr_node_nets_.resize(rr_graph.nodes().size(), ClusterNetId::INVALID());
+  rr_node_prev_nodes_.resize(rr_graph.nodes().size(), RRNodeId::INVALID());
 }

 void VprRoutingAnnotation::set_rr_node_net(const RRNodeId& rr_node,
@ -45,4 +52,18 @@ void VprRoutingAnnotation::set_rr_node_net(const RRNodeId& rr_node,
  rr_node_nets_[rr_node] = net_id;
 }

+void VprRoutingAnnotation::set_rr_node_prev_node(const RRNodeId& rr_node,
+                                                 const RRNodeId& prev_node) {
+  /* Ensure that the node_id is in the list */
+  VTR_ASSERT(size_t(rr_node) < rr_node_nets_.size());
+  /* Warn any override attempt */
+  if ( (RRNodeId::INVALID() != rr_node_prev_nodes_[rr_node])
+    && (prev_node != rr_node_prev_nodes_[rr_node])) {
+    VTR_LOG_WARN("Override the previous node '%ld' by previous node '%ld' for node '%ld' with in routing context annotation!\n",
+                 size_t(rr_node_prev_nodes_[rr_node]), size_t(prev_node), size_t(rr_node));
+  }
+
+  rr_node_prev_nodes_[rr_node] = prev_node;
+}
+
 } /* End namespace openfpga*/
--- a/openfpga/src/annotation/vpr_routing_annotation.h
+++ b/openfpga/src/annotation/vpr_routing_annotation.h
@ -26,13 +26,19 @@ class VprRoutingAnnotation {
    VprRoutingAnnotation();
  public:  /* Public accessors */
    ClusterNetId rr_node_net(const RRNodeId& rr_node) const;
+    RRNodeId rr_node_prev_node(const RRNodeId& rr_node) const;
  public:  /* Public mutators */
    void init(const RRGraph& rr_graph);
    void set_rr_node_net(const RRNodeId& rr_node,
                         const ClusterNetId& net_id);
+    void set_rr_node_prev_node(const RRNodeId& rr_node,
+                               const RRNodeId& prev_node);
  private: /* Internal data */
-    /* Pair a regular pb_type to its physical pb_type */
+    /* Clustered net ids mapped to each rr_node */
    vtr::vector<RRNodeId, ClusterNetId> rr_node_nets_;
+
+    /* Previous rr_node driving each rr_node */
+    vtr::vector<RRNodeId, RRNodeId> rr_node_prev_nodes_;
 };

 } /* End namespace openfpga*/
--- a/openfpga/src/base/openfpga_link_arch.cpp
+++ b/openfpga/src/base/openfpga_link_arch.cpp
@ -95,7 +95,9 @@ int link_arch(OpenfpgaContext& openfpga_ctx,
                                   openfpga_ctx.mutable_vpr_device_annotation(),
                                   cmd_context.option_enable(cmd, opt_verbose));

-  /* Annotate net mapping to each rr_node 
+  /* Annotate routing results:
+   * - net mapping to each rr_node 
+   * - previous nodes driving each rr_node 
   */
  openfpga_ctx.mutable_vpr_routing_annotation().init(g_vpr_ctx.device().rr_graph);

@ -103,6 +105,11 @@ int link_arch(OpenfpgaContext& openfpga_ctx,
                        openfpga_ctx.mutable_vpr_routing_annotation(),
                        cmd_context.option_enable(cmd, opt_verbose));

+  annotate_rr_node_previous_nodes(g_vpr_ctx.device(), g_vpr_ctx.clustering(), g_vpr_ctx.routing(), 
+                                  openfpga_ctx.mutable_vpr_routing_annotation(),
+                                  cmd_context.option_enable(cmd, opt_verbose));
+
+
  /* Build the routing graph annotation
   * - RRGSB
   * - DeviceRRGSB 
--- a/openfpga/src/fpga_bitstream/build_routing_bitstream.cpp
+++ b/openfpga/src/fpga_bitstream/build_routing_bitstream.cpp
@ -66,8 +66,11 @@ void build_switch_block_mux_bitstream(BitstreamManager& bitstream_manager,
   */
  int path_id = DEFAULT_PATH_ID;
  if (ClusterNetId::INVALID() != output_net) {
+    /* We must have a valid previous node that is supposed to drive the source node! */
+    VTR_ASSERT(routing_annotation.rr_node_prev_node(cur_rr_node));
    for (size_t inode = 0; inode < drive_rr_nodes.size(); ++inode) {
-      if (input_nets[inode] == output_net) {
+      if ( (input_nets[inode] == output_net)
+        && (drive_rr_nodes[inode] == routing_annotation.rr_node_prev_node(cur_rr_node)) ) {
        path_id = (int)inode;
        break;
      }
@ -246,7 +249,10 @@ void build_connection_block_mux_bitstream(BitstreamManager& bitstream_manager,
  if (ClusterNetId::INVALID() != output_net) {
    for (const RREdgeId& edge : rr_graph.node_in_edges(src_rr_node)) {
      RRNodeId driver_node = rr_graph.edge_src_node(edge);
-      if (routing_annotation.rr_node_net(driver_node) == output_net) {
+      /* We must have a valid previous node that is supposed to drive the source node! */
+      VTR_ASSERT(routing_annotation.rr_node_prev_node(src_rr_node));
+      if ( (routing_annotation.rr_node_net(driver_node) == output_net) 
+         && (driver_node == routing_annotation.rr_node_prev_node(src_rr_node)) ) {
        path_id = edge_index;
        break;
      }