opt_mem_feedback: Respect write port priority.

2021-05-25 15:17:29 +02:00 · 2021-05-25 15:17:29 +02:00 · 5628f5a88f
parent 4858721637
commit 5628f5a88f
2 changed files with 62 additions and 0 deletions
--- a/passes/opt/opt_mem_feedback.cc
+++ b/passes/opt/opt_mem_feedback.cc
@ -237,6 +237,21 @@ struct OptMemFeedbackWorker

 		log("Populating enable bits on write ports of memory %s.%s with async read feedback:\n", log_id(module), log_id(mem.memid));

+		// If a write port has a feedback path that we're about to bypass,
+		// but also has priority over some other write port, the feedback
+		// path is not necessarily a NOP — it may overwrite the other port.
+		// Emulate this effect by converting the priority to soft logic
+		// (this will affect the other port's enable signal).
+		for (auto &it : portbit_conds)
+		{
+			int wrport_idx = it.first.first;
+			auto &port = mem.wr_ports[wrport_idx];
+
+			for (int i = 0; i < wrport_idx; i++)
+				if (port.priority_mask[i])
+					mem.emulate_priority(i, wrport_idx);
+		}
+
 		for (auto &it : portbit_conds)
 		{
 			int wrport_idx = it.first.first;
--- a/tests/opt/opt_mem_feedback.ys
+++ b/tests/opt/opt_mem_feedback.ys
@ -140,3 +140,50 @@ memory_map
 design -save postopt

 equiv_opt -assert -run prepare: :
+
+
+
+design -reset
+
+# Tricky case: legit feedback path, but priority needs to be preserved.
+
+read_verilog << EOT
+
+module top(...);
+
+input clk;
+input sel;
+input [3:0] wa1;
+input [3:0] wa2;
+input [15:0] wd1;
+input [3:0] ra;
+output [15:0] rd;
+
+reg [15:0] mem [0:15];
+
+always @(posedge clk) begin
+	mem[wa1] <= sel ? wd1 : mem[wa1];
+	mem[wa2] <= mem[wa2];
+end
+
+assign rd = mem[ra];
+
+endmodule
+
+EOT
+
+hierarchy -auto-top
+proc
+opt_clean
+
+design -save start
+memory_map
+design -save preopt
+
+design -load start
+opt_mem_feedback
+select -assert-count 1 t:$memrd
+memory_map
+design -save postopt
+
+equiv_opt -assert -run prepare: :