rtl: add sync_fifo module

Signed-off-by: liangkangnan <liangkangnan@163.com>

rtl.flist

@@ -50,3 +50,4 @@
 ../rtl/utils/gen_dff.sv
 ../rtl/utils/gen_ram.sv
 ../rtl/utils/cdc_2phase.sv
+../rtl/utils/sync_fifo.sv

rtl/utils/sync_fifo.sv

@@ -0,0 +1,138 @@
+// Copyright 2018 ETH Zurich and University of Bologna.
+// Copyright and related rights are licensed under the Solderpad Hardware
+// License, Version 0.51 (the "License"); you may not use this file except in
+// compliance with the License. You may obtain a copy of the License at
+// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
+// or agreed to in writing, software, hardware and materials distributed under
+// this License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
+// CONDITIONS OF ANY KIND, either express or implied. See the License for the
+// specific language governing permissions and limitations under the License.
+
+// Author: Florian Zaruba <zarubaf@iis.ee.ethz.ch>
+
+module sync_fifo #(
+    parameter bit          FALL_THROUGH = 1'b0, // fifo is in fall-through mode
+    parameter int unsigned DATA_WIDTH   = 32,   // default data width if the fifo is of type logic
+    parameter int unsigned DEPTH        = 8,    // depth can be arbitrary from 0 to 2**32
+    parameter type dtype                = logic [DATA_WIDTH-1:0],
+    // DO NOT OVERWRITE THIS PARAMETER
+    parameter int unsigned ADDR_DEPTH   = (DEPTH > 1) ? $clog2(DEPTH) : 1
+)(
+    input  logic  clk_i,            // Clock
+    input  logic  rst_ni,           // Asynchronous reset active low
+    input  logic  flush_i,          // flush the queue
+    input  logic  testmode_i,       // test_mode to bypass clock gating
+    // status flags
+    output logic  full_o,           // queue is full
+    output logic  empty_o,          // queue is empty
+    output logic  [ADDR_DEPTH-1:0] usage_o,  // fill pointer
+    // as long as the queue is not full we can push new data
+    input  dtype  data_i,           // data to push into the queue
+    input  logic  push_i,           // data is valid and can be pushed to the queue
+    // as long as the queue is not empty we can pop new elements
+    output dtype  data_o,           // output data
+    input  logic  pop_i             // pop head from queue
+);
+    // local parameter
+    // FIFO depth - handle the case of pass-through, synthesizer will do constant propagation
+    localparam int unsigned FifoDepth = (DEPTH > 0) ? DEPTH : 1;
+    // clock gating control
+    logic gate_clock;
+    // pointer to the read and write section of the queue
+    logic [ADDR_DEPTH - 1:0] read_pointer_n, read_pointer_q, write_pointer_n, write_pointer_q;
+    // keep a counter to keep track of the current queue status
+    // this integer will be truncated by the synthesis tool
+    logic [ADDR_DEPTH:0] status_cnt_n, status_cnt_q;
+    // actual memory
+    dtype [FifoDepth - 1:0] mem_n, mem_q;
+
+    assign usage_o = status_cnt_q[ADDR_DEPTH-1:0];
+
+    if (DEPTH == 0) begin : gen_pass_through
+        assign empty_o     = ~push_i;
+        assign full_o      = ~pop_i;
+    end else begin : gen_fifo
+        assign full_o       = (status_cnt_q == FifoDepth[ADDR_DEPTH:0]);
+        assign empty_o      = (status_cnt_q == 0) & ~(FALL_THROUGH & push_i);
+    end
+    // status flags
+
+    // read and write queue logic
+    always_comb begin : read_write_comb
+        // default assignment
+        read_pointer_n  = read_pointer_q;
+        write_pointer_n = write_pointer_q;
+        status_cnt_n    = status_cnt_q;
+        data_o          = (DEPTH == 0) ? data_i : mem_q[read_pointer_q];
+        mem_n           = mem_q;
+        gate_clock      = 1'b1;
+
+        // push a new element to the queue
+        if (push_i && ~full_o) begin
+            // push the data onto the queue
+            mem_n[write_pointer_q] = data_i;
+            // un-gate the clock, we want to write something
+            gate_clock = 1'b0;
+            // increment the write counter
+            if (write_pointer_q == FifoDepth[ADDR_DEPTH-1:0] - 1)
+                write_pointer_n = '0;
+            else
+                write_pointer_n = write_pointer_q + 1;
+            // increment the overall counter
+            status_cnt_n    = status_cnt_q + 1;
+        end
+
+        if (pop_i && ~empty_o) begin
+            // read from the queue is a default assignment
+            // but increment the read pointer...
+            if (read_pointer_n == FifoDepth[ADDR_DEPTH-1:0] - 1)
+                read_pointer_n = '0;
+            else
+                read_pointer_n = read_pointer_q + 1;
+            // ... and decrement the overall count
+            status_cnt_n   = status_cnt_q - 1;
+        end
+
+        // keep the count pointer stable if we push and pop at the same time
+        if (push_i && pop_i &&  ~full_o && ~empty_o)
+            status_cnt_n   = status_cnt_q;
+
+        // FIFO is in pass through mode -> do not change the pointers
+        if (FALL_THROUGH && (status_cnt_q == 0) && push_i) begin
+            data_o = data_i;
+            if (pop_i) begin
+                status_cnt_n = status_cnt_q;
+                read_pointer_n = read_pointer_q;
+                write_pointer_n = write_pointer_q;
+            end
+        end
+    end
+
+    // sequential process
+    always_ff @(posedge clk_i or negedge rst_ni) begin
+        if(~rst_ni) begin
+            read_pointer_q  <= '0;
+            write_pointer_q <= '0;
+            status_cnt_q    <= '0;
+        end else begin
+            if (flush_i) begin
+                read_pointer_q  <= '0;
+                write_pointer_q <= '0;
+                status_cnt_q    <= '0;
+             end else begin
+                read_pointer_q  <= read_pointer_n;
+                write_pointer_q <= write_pointer_n;
+                status_cnt_q    <= status_cnt_n;
+            end
+        end
+    end
+
+    always_ff @(posedge clk_i or negedge rst_ni) begin
+        if(~rst_ni) begin
+            mem_q <= '0;
+        end else if (!gate_clock) begin
+            mem_q <= mem_n;
+        end
+    end
+
+endmodule