pluto_hdl_adi/library/xilinx/common/ad_data_out.v

279 lines
7.9 KiB
Verilog
Executable File

// ***************************************************************************
// ***************************************************************************
// Copyright (C) 2017-2023 Analog Devices, Inc. All rights reserved.
//
// In this HDL repository, there are many different and unique modules, consisting
// of various HDL (Verilog or VHDL) components. The individual modules are
// developed independently, and may be accompanied by separate and unique license
// terms.
//
// The user should read each of these license terms, and understand the
// freedoms and responsibilities that he or she has by using this source/core.
//
// This core is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE.
//
// Redistribution and use of source or resulting binaries, with or without modification
// of this file, are permitted under one of the following two license terms:
//
// 1. The GNU General Public License version 2 as published by the
// Free Software Foundation, which can be found in the top level directory
// of this repository (LICENSE_GPL2), and also online at:
// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
//
// OR
//
// 2. An ADI specific BSD license, which can be found in the top level directory
// of this repository (LICENSE_ADIBSD), and also on-line at:
// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
// This will allow to generate bit files and not release the source code,
// as long as it attaches to an ADI device.
//
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module ad_data_out #(
parameter FPGA_TECHNOLOGY = 0,
parameter SINGLE_ENDED = 0,
parameter IDDR_CLK_EDGE ="SAME_EDGE",
// for 7 series devices
parameter ODELAY_TYPE = "VAR_LOAD",
// for ultrascale devices
parameter DELAY_FORMAT = "COUNT",
parameter US_DELAY_TYPE = "VAR_LOAD",
// for all
parameter IODELAY_ENABLE = 0,
parameter IODELAY_CTRL = 0,
parameter IODELAY_GROUP = "dev_if_delay_group",
parameter REFCLK_FREQUENCY = 200
) (
// data interface
input tx_clk,
input tx_data_p,
input tx_data_n,
output tx_data_out_p,
output tx_data_out_n,
// delay-data interface
input up_clk,
input up_dld,
input [ 4:0] up_dwdata,
output [ 4:0] up_drdata,
// delay-cntrl interface
input delay_clk,
input delay_rst,
output delay_locked
);
localparam NONE = -1;
localparam SEVEN_SERIES = 1;
localparam ULTRASCALE = 2;
localparam ULTRASCALE_PLUS = 3;
// do not instantiate an IDELAYCTRL if no ODELAY is instantiated
localparam IODELAY_CTRL_ENABLED = (IODELAY_ENABLE & IODELAY_CTRL);
localparam IODELAY_CTRL_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE" :
(FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";
localparam IODELAY_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE_PLUS" :
(FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";
/*
* For 7 series, IDELAYCTRL is enabled ALWAYS, meaning in the following situations:
* when ODELAY_TYPE = FIXED
* when ODELAY_TYPE = VARIABLE
* when ODELAY_TYPE = VAR_LOAD
**/
/*
* For UltraScale/UltraScale+:
* when DELAY_FORMAT = TIME:
* IDELAYCTRL must be used
* REFCLK_FREQUENCY must reflect the clock frequency of REF_CLK applied to
the IDELAYCTRL component
* DELAY_VALUE attribute represents an amount in ps
* The total delay through the IDELAYE3 is the align delay + DELAY_VALUE
* EN_VTC depends on DELAY_TYPE attribute:
* when FIXED mode: EN_VTC = 1
* It must be actively manipulated when the delay line is used in
VARIABLE or VAR_LOAD mode
(this section is NOT IMPLEMENTED! More details in UG571, DELAY_TYPE = VAR_LOAD mode and VARIABLE mode)
* when DELAY_FORMAT = COUNT:
* DO NOT use an IDELAYCTRL
* REFCLK_FREQUENCY must be set to default frequency (300MHz)
* Delay line represents an amount of taps (512 taps available)
* CNTVALUEIN/OUT[8:0] values represent the amount of taps the delay line
is set to
* EN_VTC = 0
**/
// internal signals
wire tx_data_oddr_s;
wire tx_data_odelay_s;
// internal registers
reg en_vtc;
// determine EN_VTC (VAR_LOAD and VARIABLE modes not implemented as in UG571)
always @(posedge tx_clk) begin
if (DELAY_FORMAT == "TIME") begin
if (US_DELAY_TYPE == "FIXED") begin
en_vtc <= 1'b1;
end else begin // "VAR_LOAD", "VARIABLE"
en_vtc <= ~up_dld;
end
end else begin // "COUNT"
en_vtc <= 1'b0;
end
end
// delay controller
generate
if (IODELAY_CTRL_ENABLED == 0) begin
assign delay_locked = 1'b1;
end else begin
(* IODELAY_GROUP = IODELAY_GROUP *)
IDELAYCTRL #(
.SIM_DEVICE (IODELAY_CTRL_SIM_DEVICE)
) i_delay_ctrl (
.RST (delay_rst),
.REFCLK (delay_clk),
.RDY (delay_locked));
end
endgenerate
// bypass ODELAY
generate
if (IODELAY_ENABLE == 0) begin
assign tx_data_odelay_s = tx_data_oddr_s;
assign up_drdata = 5'd0;
end
endgenerate
// transmit data interface, oddr -> odelay -> obuf
// oddr
generate
if ((FPGA_TECHNOLOGY == ULTRASCALE) || (FPGA_TECHNOLOGY == ULTRASCALE_PLUS)) begin
ODDRE1 #(
.SIM_DEVICE (IODELAY_SIM_DEVICE)
) i_tx_data_oddr (
.SR (1'b0),
.C (tx_clk),
.D1 (tx_data_n),
.D2 (tx_data_p),
.Q (tx_data_oddr_s));
end
endgenerate
generate
if (FPGA_TECHNOLOGY == SEVEN_SERIES) begin
ODDR #(
.DDR_CLK_EDGE (IDDR_CLK_EDGE)
) i_tx_data_oddr (
.CE (1'b1),
.R (1'b0),
.S (1'b0),
.C (tx_clk),
.D1 (tx_data_n),
.D2 (tx_data_p),
.Q (tx_data_oddr_s));
end
endgenerate
// odelay
generate
if (FPGA_TECHNOLOGY == SEVEN_SERIES && IODELAY_ENABLE == 1) begin
(* IODELAY_GROUP = IODELAY_GROUP *)
ODELAYE2 #(
.CINVCTRL_SEL ("FALSE"),
.DELAY_SRC ("ODATAIN"),
.HIGH_PERFORMANCE_MODE ("FALSE"),
.ODELAY_TYPE (ODELAY_TYPE),
.ODELAY_VALUE (0),
.REFCLK_FREQUENCY (REFCLK_FREQUENCY),
.PIPE_SEL ("FALSE"),
.SIGNAL_PATTERN ("DATA")
) i_tx_data_odelay (
.CE (1'b0),
.CLKIN (1'b0),
.INC (1'b0),
.LDPIPEEN (1'b0),
.CINVCTRL (1'b0),
.REGRST (1'b0),
.C (up_clk),
.ODATAIN (tx_data_oddr_s),
.DATAOUT (tx_data_odelay_s),
.LD (up_dld),
.CNTVALUEIN (up_dwdata),
.CNTVALUEOUT (up_drdata));
end
endgenerate
generate
if ((FPGA_TECHNOLOGY == ULTRASCALE_PLUS || FPGA_TECHNOLOGY == ULTRASCALE)
&& (IODELAY_ENABLE == 1)) begin
(* IODELAY_GROUP = IODELAY_GROUP *)
ODELAYE3 #(
.CASCADE ("NONE"),
.DELAY_FORMAT (DELAY_FORMAT),
.DELAY_TYPE (US_DELAY_TYPE),
.DELAY_VALUE (0),
.IS_CLK_INVERTED (1'b0),
.IS_RST_INVERTED (1'b0),
.REFCLK_FREQUENCY (REFCLK_FREQUENCY),
.SIM_DEVICE (IODELAY_SIM_DEVICE),
.UPDATE_MODE ("ASYNC")
) i_tx_data_odelay (
.CASC_RETURN (1'b0),
.CASC_IN (1'b0),
.CASC_OUT (),
.CE (1'b0),
.CLK (up_clk),
.INC (1'b0),
.LOAD (up_dld),
.CNTVALUEIN (up_dwdata),
.CNTVALUEOUT (up_drdata),
.ODATAIN (tx_data_oddr_s),
.DATAOUT (tx_data_odelay_s),
.RST (1'b0),
.EN_VTC (en_vtc));
end
endgenerate
// obuf
generate
if (SINGLE_ENDED == 1) begin
assign tx_data_out_n = 1'b0;
OBUF i_tx_data_obuf (
.I (tx_data_odelay_s),
.O (tx_data_out_p));
end else begin
OBUFDS i_tx_data_obuf (
.I (tx_data_odelay_s),
.O (tx_data_out_p),
.OB (tx_data_out_n));
end
endgenerate
endmodule