2 files changed, 83 insertions, 0 deletions
diff --git a/fpga/usrp3/lib/control/Makefile.srcs b/fpga/usrp3/lib/control/Makefile.srcs
index 21f986a50..74ba3b48a 100644
--- a/fpga/usrp3/lib/control/Makefile.srcs
+++ b/fpga/usrp3/lib/control/Makefile.srcs
@@ -59,4 +59,5 @@ map/cam.v \
 map/kv_map.v \
 map/axis_muxed_kv_map.v \
 axil_ctrlport_master.v\
+handshake.v\
 ))
diff --git a/fpga/usrp3/lib/control/handshake.v b/fpga/usrp3/lib/control/handshake.v
new file mode 100644
index 000000000..47c05b7df
--- /dev/null
+++ b/fpga/usrp3/lib/control/handshake.v
@@ -0,0 +1,82 @@
+///////////////////////////////////////////////////////////////////////////////
+//
+// Copyright 2020 Ettus Research, A National Instruments Brand
+//
+// SPDX-License-Identifier: LGPL-3.0-or-later
+//
+// Module: handshake
+// Description:
+// Implements clock domain crossing for data from one clock domain
+// to another independent of the relative clock frequencies or phases of
+// clk_a and clk_b.
+//
+// Once a handshake is triggered it cannot be aborted. A proper design needs to
+// apply reset to the target clock domain downstream module to make sure a
+// valid_b pulse does not cause any issues.
+//
+// Input Behavior:
+//          ┌┐┌┐┌┐┌┐┋ ┋┌┐┌┐┌┐┌┐┌┐┋ ┋┌┐┌┐┌┐┌┐┌┐┌┐┌┐
+//  clk_a   ┘└┘└┘└┘└┋ ┋┘└┘└┘└┘└┘└┋ ┋┘└┘└┘└┘└┘└┘└┘└
+//            ┌─┐   ┋ ┋    ┌─┐   ┋ ┋
+//  valid_a ──┘ └───┋ ┋────┘ └───┋ ┋──────────────
+//          ▄▄┬─┬▄▄▄┋ ┋▄▄▄▄┬─┬▄▄▄┋ ┋▄▄▄▄▄▄▄▄▄▄▄▄▄▄
+//  data_a  ▀▀┴─┴▀▀▀┋ ┋▀▀▀▀┴─┴▀▀▀┋ ┋▀▀▀▀▀▀▀▀▀▀▀▀▀▀
+//              ┌───┋ ┋────┐ ┌───┋ ┋────────┐
+//  busy_a  ────┘   ┋ ┋    └─┘   ┋ ┋        └─────
+//
+//
+// Output Behavior:
+//           ┌─┐ ┌─┐ ┌─┐ ┌─┐ ┋ ┋ ┌─┐ ┌─┐ ┌─┐ ┌─┐
+//  clk_b   ─┘ └─┘ └─┘ └─┘ └─┋ ┋─┘ └─┘ └─┘ └─┘ └─
+//                   ┌───┐   ┋ ┋     ┌───┐
+//  valid_b ─────────┘   └───┋ ┋─────┘   └───────
+//          ▄▄▄▄▄▄▄▄▄┬───┬▄▄▄┋ ┋▄▄▄▄▄┬───┬▄▄▄▄▄▄▄
+//  data_b  ▀▀▀▀▀▀▀▀▀┴───┴▀▀▀┋ ┋▀▀▀▀▀┴───┴▀▀▀▀▀▀▀
+///////////////////////////////////////////////////////////////////////////////
+
+module handshake #(
+  parameter WIDTH = 32 // data width
+) (
+  // source clock domain
+  input  wire             clk_a,
+  input  wire             rst_a,
+  input  wire             valid_a, // trigger handshake on rising edge
+  input  wire [WIDTH-1:0] data_a,
+  output wire             busy_a,
+
+  // target clock domain
+  input  wire             clk_b,
+  output wire             valid_b,
+  output wire [WIDTH-1:0] data_b
+);
+
+  // Handling of the handshaking between the two clock domains. The reset does
+  // not delete a pulse, which is already triggered!
+  pulse_synchronizer #(
+    .MODE("PULSE"), .STAGES(4)
+  ) push_sync_inst (
+     .clk_a(clk_a), .rst_a(rst_a), .pulse_a(valid_a), .busy_a(busy_a),
+     .clk_b(clk_b), .pulse_b(valid_b)
+  );
+
+  // Capture the data aligned with triggering the handshake.
+  reg [WIDTH-1:0] data_a_lcl;
+  always @(posedge clk_a) begin
+    if (valid_a & ~busy_a) begin
+      data_a_lcl <= data_a;
+    end
+  end
+
+  // Transfer data with timing exception. Data is captured upfront and kept
+  // stable in clk_a domain. As there are more synchronizer stages in the
+  // pulse_synchronizer the data in these 2 stage synchronizer is stable once
+  // the valid_b pulse arrives in clk_b domain. 2 stages are used to resolve
+  // meta-stability. Reset is not needed on the data path as it is controlled by
+  // the valid signals.
+  synchronizer #(
+    .WIDTH(WIDTH), .STAGES(2), .INITIAL_VAL({WIDTH {1'b0}}), .FALSE_PATH_TO_IN(1)
+  ) data_sync_inst (
+    .clk(clk_b), .rst(1'b0), .in(data_a_lcl), .out(data_b)
+  );
+
+endmodule