pluto_hdl_adi/library/axi_fmcadc5_sync/axi_fmcadc5_sync.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2011(c) Analog Devices, Inc.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
// - Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// - Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in
// the documentation and/or other materials provided with the
// distribution.
// - Neither the name of Analog Devices, Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
// - The use of this software may or may not infringe the patent rights
// of one or more patent holders. This license does not release you
// from the requirement that you obtain separate licenses from these
// patent holders to use this software.
// - Use of the software either in source or binary form, must be run
// on or directly connected to an Analog Devices Inc. component.
//
// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED.
//
// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// ***************************************************************************
// ***************************************************************************
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// this module is a helper core for linux. as much as possible, try not to use this core.
// best thing to do is look at no-os and implement a proper frame work in linux.
// most controls are scattered around other cores, here we collect them to provide a common access.
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`timescale 1ns/100ps
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module axi_fmcadc5_sync #(parameter integer ID = 0) (
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// receive interface
input rx_clk,
output rx_sysref,
input rx_sync_0,
input rx_sync_1,
output rx_sysref_p,
output rx_sysref_n,
output rx_sync_0_p,
output rx_sync_0_n,
output rx_sync_1_p,
output rx_sync_1_n,
input [255:0] rx_data_0,
input [255:0] rx_data_1,
output [255:0] rx_cor_data_0,
output [255:0] rx_cor_data_1,
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// calibration signal
output vcal,
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// switching regulator clocks
output psync,
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// delay interface
input delay_rst,
input delay_clk,
// spi override
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input [ 7:0] spi_csn_o,
input spi_clk_o,
input spi_sdo_o,
output [ 7:0] spi_csn,
output spi_clk,
output spi_mosi,
input spi_miso,
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// axi interface
input s_axi_aclk,
input s_axi_aresetn,
input s_axi_awvalid,
input [ 31:0] s_axi_awaddr,
output s_axi_awready,
input s_axi_wvalid,
input [ 31:0] s_axi_wdata,
input [ 3:0] s_axi_wstrb,
output s_axi_wready,
output s_axi_bvalid,
output [ 1:0] s_axi_bresp,
input s_axi_bready,
input s_axi_arvalid,
input [ 31:0] s_axi_araddr,
output s_axi_arready,
output s_axi_rvalid,
output [ 31:0] s_axi_rdata,
output [ 1:0] s_axi_rresp,
input s_axi_rready,
input [ 2:0] s_axi_awprot,
input [ 2:0] s_axi_arprot);
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// version
localparam [31:0] PCORE_VERSION = 32'h00040063;
// internal registers
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reg [ 7:0] up_psync_count = 'd0;
reg up_psync = 'd0;
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reg up_cal_done_t_m1 = 'd0;
reg up_cal_done_t_m2 = 'd0;
reg up_cal_done_t_m3 = 'd0;
reg [ 15:0] up_cal_max_0 = 'd0;
reg [ 15:0] up_cal_min_0 = 'd0;
reg [ 15:0] up_cal_max_1 = 'd0;
reg [ 15:0] up_cal_min_1 = 'd0;
reg up_cal_enable = 'd0;
reg up_cor_enable = 'd0;
reg up_cor_enable_t = 'd0;
reg [ 15:0] up_cor_scale_0 = 'd0;
reg [ 15:0] up_cor_offset_0 = 'd0;
reg [ 15:0] up_cor_scale_1 = 'd0;
reg [ 15:0] up_cor_offset_1 = 'd0;
reg [ 7:0] up_vcal_8 = 'd0;
reg up_vcal = 'd0;
reg [ 7:0] up_vcal_cnt = 'd0;
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reg up_vcal_enable = 'd0;
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reg up_sysref_ack_t_m1 = 'd0;
reg up_sysref_ack_t_m2 = 'd0;
reg up_sysref_ack_t_m3 = 'd0;
reg up_sysref_control_t = 'd0;
reg [ 1:0] up_sysref_mode_e = 'd0;
reg up_sysref_mode_i = 'd0;
reg up_sysref_req_t = 'd0;
reg up_sysref_status = 'd0;
reg up_sync_control_t = 'd0;
reg up_sync_mode = 'd0;
reg up_sync_disable_1 = 'd0;
reg up_sync_disable_0 = 'd0;
reg up_sync_status_t_m1 = 'd0;
reg up_sync_status_t_m2 = 'd0;
reg up_sync_status_t_m3 = 'd0;
reg up_sync_status_1 = 'd0;
reg up_sync_status_0 = 'd0;
reg up_delay_ld = 'd0;
reg [ 4:0] up_delay_wdata = 'd0;
reg [ 7:0] up_spi_csn_int = 'd0;
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reg up_spi_clk_int = 'd0;
reg up_spi_mosi_int = 'd0;
reg up_spi_gnt = 'd0;
reg up_spi_req = 'd0;
reg [ 7:0] up_spi_csn = 'd0;
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reg [ 5:0] up_spi_cnt = 'd0;
reg [ 31:0] up_spi_clk_32 = 'd0;
reg [ 31:0] up_spi_out_32 = 'd0;
reg [ 31:0] up_spi_in_32 = 'd0;
reg [ 7:0] up_spi_out = 'd0;
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reg [ 31:0] up_scratch = 'd0;
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reg up_wack = 'd0;
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reg up_rack = 'd0;
reg [ 31:0] up_rdata = 'd0;
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reg rx_cal_enable_m1 = 'd0;
reg rx_cal_enable = 'd0;
reg rx_cor_enable_t_m1 = 'd0;
reg rx_cor_enable_t_m2 = 'd0;
reg rx_cor_enable_t_m3 = 'd0;
reg rx_cor_enable = 'd0;
reg [ 15:0] rx_cor_scale_0 = 'd0;
reg [ 15:0] rx_cor_offset_0 = 'd0;
reg [ 15:0] rx_cor_scale_1 = 'd0;
reg [ 15:0] rx_cor_offset_1 = 'd0;
reg [ 15:0] rx_cor_scale_d_0 = 'd0;
reg [ 15:0] rx_cor_offset_d_0 = 'd0;
reg [ 15:0] rx_cor_scale_d_1 = 'd0;
reg [ 15:0] rx_cor_offset_d_1 = 'd0;
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reg [ 7:0] rx_sysref_cnt = 'd0;
reg rx_sysref_control_t_m1 = 'd0;
reg rx_sysref_control_t_m2 = 'd0;
reg rx_sysref_control_t_m3 = 'd0;
reg [ 1:0] rx_sysref_mode_e = 'd0;
reg rx_sysref_mode_i = 'd0;
reg rx_sysref_req_t_m1 = 'd0;
reg rx_sysref_req_t_m2 = 'd0;
reg rx_sysref_req_t_m3 = 'd0;
reg rx_sysref_req = 'd0;
reg rx_sysref_e = 'd0;
reg rx_sysref_i = 'd0;
reg rx_sysref_ack_t = 'd0;
reg rx_sysref_enb_e = 'd0;
reg rx_sysref_enb_i = 'd0;
reg rx_sync_control_t_m1 = 'd0;
reg rx_sync_control_t_m2 = 'd0;
reg rx_sync_control_t_m3 = 'd0;
reg rx_sync_mode = 'd0;
reg rx_sync_disable_1 = 'd0;
reg rx_sync_disable_0 = 'd0;
reg rx_sync_out_1 = 'd0;
reg rx_sync_out_0 = 'd0;
reg [ 7:0] rx_sync_cnt = 'd0;
reg rx_sync_hold_1 = 'd0;
reg rx_sync_hold_0 = 'd0;
reg rx_sync_status_t = 'd0;
reg rx_sync_status_1 = 'd0;
reg rx_sync_status_0 = 'd0;
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// internal signals
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wire up_cal_done_t_s;
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wire up_sysref_ack_t_s;
wire up_sync_status_t_s;
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wire up_spi_gnt_s;
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wire [ 31:0] up_spi_out_32_s;
wire [ 7:0] up_spi_in_s;
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wire rx_cor_enable_t_s;
wire rx_cal_done_t_s;
wire [ 15:0] rx_cal_max_0_s;
wire [ 15:0] rx_cal_min_0_s;
wire [ 15:0] rx_cal_max_1_s;
wire [ 15:0] rx_cal_min_1_s;
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wire rx_sysref_control_t_s;
wire rx_sysref_req_t_s;
wire rx_sysref_enb_e_s;
wire rx_sync_control_t_s;
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wire [ 4:0] up_delay_rdata_s;
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wire up_delay_locked_s;
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wire up_wreq_s;
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wire [ 13:0] up_waddr_s;
wire [ 31:0] up_wdata_s;
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wire up_rreq_s;
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wire [ 13:0] up_raddr_s;
wire up_rstn;
wire up_clk;
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// signal name changes
assign up_rstn = s_axi_aresetn;
assign up_clk = s_axi_aclk;
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// switching regulator clocks (~602K)
assign psync = up_psync;
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 1'b0) begin
up_psync_count <= 7'd0;
up_psync <= 1'b0;
end else begin
if (up_psync_count >= 7'h52) begin
up_psync_count <= 7'd0;
end else begin
up_psync_count <= up_psync_count + 1'b1;
end
if (up_psync_count >= 7'h4f) begin
up_psync <= ~up_psync;
end
end
end
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// calibration (offset & gain only)
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 1'b0) begin
up_cal_done_t_m1 <= 1'd0;
up_cal_done_t_m2 <= 1'd0;
up_cal_done_t_m3 <= 1'd0;
end else begin
up_cal_done_t_m1 <= rx_cal_done_t_s;
up_cal_done_t_m2 <= up_cal_done_t_m1;
up_cal_done_t_m3 <= up_cal_done_t_m2;
end
end
assign up_cal_done_t_s = up_cal_done_t_m3 ^ up_cal_done_t_m2;
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 1'b0) begin
up_cal_max_0 <= 16'd0;
up_cal_min_0 <= 16'd0;
up_cal_max_1 <= 16'd0;
up_cal_min_1 <= 16'd0;
end else begin
if (up_cal_done_t_s == 1'b1) begin
up_cal_max_0 <= rx_cal_max_0_s;
up_cal_min_0 <= rx_cal_min_0_s;
up_cal_max_1 <= rx_cal_max_1_s;
up_cal_min_1 <= rx_cal_min_1_s;
end
end
end
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 1'b0) begin
up_cal_enable <= 1'd0;
up_cor_enable <= 1'd0;
up_cor_enable_t <= 1'd0;
up_cor_scale_0 <= 16'd0;
up_cor_offset_0 <= 16'd0;
up_cor_scale_1 <= 16'd0;
up_cor_offset_1 <= 16'd0;
end else begin
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0060)) begin
up_cal_enable <= up_wdata_s[0];
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0061)) begin
up_cor_enable <= up_wdata_s[0];
up_cor_enable_t <= ~up_cor_enable_t;
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0068)) begin
up_cor_scale_0 <= up_wdata_s[15:0];
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0069)) begin
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up_cor_offset_0 <= up_wdata_s[15:0];
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h006a)) begin
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up_cor_scale_1 <= up_wdata_s[15:0];
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h006b)) begin
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up_cor_offset_1 <= up_wdata_s[15:0];
end
end
end
// calibration signal register(s)
assign vcal = up_vcal;
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 1'b0) begin
up_vcal_8 <= 8'd0;
up_vcal <= 1'd0;
up_vcal_cnt <= 8'd0;
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up_vcal_enable <= 1'd0;
end else begin
if (up_vcal_8 >= up_vcal_cnt) begin
up_vcal_8 <= 8'd0;
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up_vcal <= ~up_vcal & up_vcal_enable;
end else begin
up_vcal_8 <= up_vcal_8 + 1'b1;
up_vcal <= up_vcal;
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0050)) begin
up_vcal_cnt <= up_wdata_s[7:0];
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0051)) begin
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up_vcal_enable <= up_wdata_s[0];
end
end
end
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// sysref register(s)
assign up_sysref_ack_t_s = up_sysref_ack_t_m3 ^ up_sysref_ack_t_m2;
always @(negedge up_rstn or posedge up_clk) begin
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if (up_rstn == 1'b0) begin
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up_sysref_ack_t_m1 <= 1'd0;
up_sysref_ack_t_m2 <= 1'd0;
up_sysref_ack_t_m3 <= 1'd0;
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end else begin
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up_sysref_ack_t_m1 <= rx_sysref_ack_t;
up_sysref_ack_t_m2 <= up_sysref_ack_t_m1;
up_sysref_ack_t_m3 <= up_sysref_ack_t_m2;
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end
end
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always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_sysref_control_t <= 1'd0;
up_sysref_mode_e <= 2'd0;
up_sysref_mode_i <= 1'd0;
up_sysref_req_t <= 1'd0;
up_sysref_status <= 1'b0;
end else begin
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0040)) begin
up_sysref_control_t <= ~up_sysref_control_t;
up_sysref_mode_e <= up_wdata_s[5:4];
up_sysref_mode_i <= up_wdata_s[0];
end
if (up_sysref_status == 1'b1) begin
if (up_sysref_ack_t_s == 1'b1) begin
up_sysref_req_t <= up_sysref_req_t;
up_sysref_status <= 1'b0;
end
end else if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0041)) begin
if (up_wdata_s[0] == 1'b1) begin
up_sysref_req_t <= ~up_sysref_req_t;
up_sysref_status <= 1'b1;
end
end
end
end
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// sync register(s)
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_sync_control_t <= 1'd0;
up_sync_mode <= 1'd0;
up_sync_disable_1 <= 1'd0;
up_sync_disable_0 <= 1'd0;
end else begin
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0030)) begin
up_sync_control_t <= ~up_sync_control_t;
up_sync_mode <= up_wdata_s[2];
up_sync_disable_1 <= up_wdata_s[1];
up_sync_disable_0 <= up_wdata_s[0];
end
end
end
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// simple current status (no persistence)
assign up_sync_status_t_s = up_sync_status_t_m3 ^ up_sync_status_t_m2;
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always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_sync_status_t_m1 <= 1'd0;
up_sync_status_t_m2 <= 1'd0;
up_sync_status_t_m3 <= 1'd0;
up_sync_status_1 <= 1'd0;
up_sync_status_0 <= 1'd0;
end else begin
up_sync_status_t_m1 <= rx_sync_status_t;
up_sync_status_t_m2 <= up_sync_status_t_m1;
up_sync_status_t_m3 <= up_sync_status_t_m2;
if (up_sync_status_t_s == 1'b1) begin
up_sync_status_1 <= rx_sync_status_1;
up_sync_status_0 <= rx_sync_status_0;
end
end
end
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// delay register(s)
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_delay_ld <= 1'd0;
up_delay_wdata <= 5'd0;
end else begin
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0020)) begin
up_delay_ld <= 1'b1;
end else begin
up_delay_ld <= 1'b0;
end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0020)) begin
up_delay_wdata <= up_wdata_s[4:0];
end
end
end
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// switching must be glitchless
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assign spi_csn = up_spi_csn_int;
assign spi_clk = up_spi_clk_int;
assign spi_mosi = up_spi_mosi_int;
always @(negedge up_clk) begin
if (up_spi_gnt == 1'b1) begin
up_spi_csn_int <= up_spi_csn;
up_spi_clk_int <= up_spi_clk_32[31];
up_spi_mosi_int <= up_spi_out_32[31];
end else begin
up_spi_csn_int <= spi_csn_o;
up_spi_clk_int <= spi_clk_o;
up_spi_mosi_int <= spi_sdo_o;
end
end
assign up_spi_gnt_s = (&spi_csn_o) & ~spi_clk_o;
always @(posedge up_clk or negedge up_rstn) begin
if (up_rstn == 1'b0) begin
up_spi_gnt <= 1'd0;
end else begin
if (up_spi_gnt_s == 1'b1) begin
up_spi_gnt <= up_spi_req;
end
end
end
// spi data stretching
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assign up_spi_out_32_s[31:28] = {4{up_wdata_s[7]}};
assign up_spi_out_32_s[27:24] = {4{up_wdata_s[6]}};
assign up_spi_out_32_s[23:20] = {4{up_wdata_s[5]}};
assign up_spi_out_32_s[19:16] = {4{up_wdata_s[4]}};
assign up_spi_out_32_s[15:12] = {4{up_wdata_s[3]}};
assign up_spi_out_32_s[11: 8] = {4{up_wdata_s[2]}};
assign up_spi_out_32_s[ 7: 4] = {4{up_wdata_s[1]}};
assign up_spi_out_32_s[ 3: 0] = {4{up_wdata_s[0]}};
assign up_spi_in_s[7] = up_spi_in_32[28];
assign up_spi_in_s[6] = up_spi_in_32[24];
assign up_spi_in_s[5] = up_spi_in_32[20];
assign up_spi_in_s[4] = up_spi_in_32[16];
assign up_spi_in_s[3] = up_spi_in_32[12];
assign up_spi_in_s[2] = up_spi_in_32[ 8];
assign up_spi_in_s[1] = up_spi_in_32[ 4];
assign up_spi_in_s[0] = up_spi_in_32[ 0];
// spi register(s)
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
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up_spi_req <= 1'd0;
up_spi_csn <= {8{1'b1}};
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up_spi_cnt <= 6'd0;
up_spi_clk_32 <= 32'd0;
up_spi_out_32 <= 32'd0;
up_spi_in_32 <= 32'd0;
up_spi_out <= 8'd0;
end else begin
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0010)) begin
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up_spi_req <= up_wdata_s[0];
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end
if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0012)) begin
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up_spi_csn <= up_wdata_s[7:0];
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end
if (up_spi_cnt[5] == 1'b1) begin
up_spi_cnt <= up_spi_cnt + 1'b1;
up_spi_clk_32 <= {up_spi_clk_32[30:0], 1'd0};
up_spi_out_32 <= {up_spi_out_32[30:0], 1'd0};
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up_spi_in_32 <= {up_spi_in_32[30:0], spi_miso};
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up_spi_out <= up_spi_out;
end else if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0013)) begin
up_spi_cnt <= 6'h20;
up_spi_clk_32 <= {8{4'h6}};
up_spi_out_32 <= up_spi_out_32_s;
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up_spi_in_32 <= {31'd0, spi_miso};
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up_spi_out <= up_wdata_s[7:0];
end
end
end
// scratch register(s)
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always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_scratch <= 'd0;
end else begin
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if ((up_wreq_s == 1'b1) && (up_waddr_s == 14'h0002)) begin
up_scratch <= up_wdata_s;
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end
end
end
// processor read interface
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
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up_wack <= 'd0;
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up_rack <= 'd0;
up_rdata <= 'd0;
end else begin
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up_wack <= up_wreq_s;
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up_rack <= up_rreq_s;
if (up_rreq_s == 1'b1) begin
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case (up_raddr_s)
14'h0000: up_rdata <= PCORE_VERSION;
14'h0001: up_rdata <= ID;
14'h0002: up_rdata <= up_scratch;
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14'h0010: up_rdata <= {31'd0, up_spi_req};
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14'h0011: up_rdata <= {31'd0, up_spi_gnt};
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14'h0012: up_rdata <= {24'd0, up_spi_csn};
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14'h0013: up_rdata <= {24'd0, up_spi_out};
14'h0014: up_rdata <= {24'd0, up_spi_in_s};
14'h0015: up_rdata <= {31'd0, up_spi_cnt[5]};
14'h0020: up_rdata <= {27'd0, up_delay_wdata};
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14'h0021: up_rdata <= {27'd0, up_delay_rdata_s};
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14'h0022: up_rdata <= {31'd0, up_delay_locked_s};
14'h0030: up_rdata <= {29'd0, up_sync_mode, up_sync_disable_1, up_sync_disable_0};
14'h0031: up_rdata <= {30'd0, up_sync_status_1, up_sync_status_0};
14'h0040: up_rdata <= {26'd0, up_sysref_mode_e, 3'b0, up_sysref_mode_i};
14'h0041: up_rdata <= {31'd0, up_sysref_status};
14'h0050: up_rdata <= {24'd0, up_vcal_cnt};
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14'h0051: up_rdata <= {31'd0, up_vcal_enable};
14'h0060: up_rdata <= {30'd0, up_cal_enable};
14'h0061: up_rdata <= {30'd0, up_cor_enable};
14'h0064: up_rdata <= {16'd0, up_cal_max_0};
14'h0065: up_rdata <= {16'd0, up_cal_min_0};
14'h0066: up_rdata <= {16'd0, up_cal_max_1};
14'h0067: up_rdata <= {16'd0, up_cal_min_1};
14'h0068: up_rdata <= {16'd0, up_cor_scale_0};
14'h0069: up_rdata <= {16'd0, up_cor_offset_0};
14'h006a: up_rdata <= {16'd0, up_cor_scale_1};
14'h006b: up_rdata <= {16'd0, up_cor_offset_1};
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default: up_rdata <= 0;
endcase
end else begin
up_rdata <= 32'd0;
end
end
end
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// calibration at receive clock
always @(posedge rx_clk) begin
rx_cal_enable_m1 <= up_cal_enable;
rx_cal_enable <= rx_cal_enable_m1;
rx_cor_enable_t_m1 <= up_cor_enable_t;
rx_cor_enable_t_m2 <= rx_cor_enable_t_m1;
rx_cor_enable_t_m3 <= rx_cor_enable_t_m2;
end
assign rx_cor_enable_t_s = rx_cor_enable_t_m3 ^ rx_cor_enable_t_m2;
always @(posedge rx_clk) begin
if (rx_cor_enable_t_s == 1'b1) begin
rx_cor_enable <= up_cor_enable;
rx_cor_scale_0 <= up_cor_scale_0;
rx_cor_offset_0 <= up_cor_offset_0;
rx_cor_scale_1 <= up_cor_scale_1;
rx_cor_offset_1 <= up_cor_offset_1;
end
end
always @(posedge rx_clk) begin
if (rx_cor_enable == 1'b0) begin
rx_cor_scale_d_0 <= 16'h8000;
rx_cor_offset_d_0 <= 16'h0000;
rx_cor_scale_d_1 <= 16'h8000;
rx_cor_offset_d_1 <= 16'h0000;
end else begin
rx_cor_scale_d_0 <= rx_cor_scale_0;
rx_cor_offset_d_0 <= rx_cor_offset_0;
rx_cor_scale_d_1 <= rx_cor_scale_1;
rx_cor_offset_d_1 <= rx_cor_offset_1;
end
end
axi_fmcadc5_sync_calcor i_calcor (
.rx_clk (rx_clk),
.rx_data_0 (rx_data_0),
.rx_data_1 (rx_data_1),
.rx_cor_data_0 (rx_cor_data_0),
.rx_cor_data_1 (rx_cor_data_1),
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.rx_cal_enable (rx_cal_enable),
.rx_cal_done_t (rx_cal_done_t_s),
.rx_cal_max_0 (rx_cal_max_0_s),
.rx_cal_min_0 (rx_cal_min_0_s),
.rx_cal_max_1 (rx_cal_max_1_s),
.rx_cal_min_1 (rx_cal_min_1_s),
.rx_cor_scale_0 (rx_cor_scale_d_0),
.rx_cor_offset_0 (rx_cor_offset_d_0),
.rx_cor_scale_1 (rx_cor_scale_d_1),
.rx_cor_offset_1 (rx_cor_offset_d_1));
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// sysref-control at receive clock
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always @(posedge rx_clk) begin
rx_sysref_cnt <= rx_sysref_cnt + 1'b1;
end
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assign rx_sysref_control_t_s = rx_sysref_control_t_m3 ^ rx_sysref_control_t_m2;
assign rx_sysref_req_t_s = rx_sysref_req_t_m3 ^ rx_sysref_req_t_m2;
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always @(posedge rx_clk) begin
rx_sysref_control_t_m1 <= up_sysref_control_t;
rx_sysref_control_t_m2 <= rx_sysref_control_t_m1;
rx_sysref_control_t_m3 <= rx_sysref_control_t_m2;
if (rx_sysref_control_t_s == 1'b1) begin
rx_sysref_mode_e <= up_sysref_mode_e;
rx_sysref_mode_i <= up_sysref_mode_i;
end
rx_sysref_req_t_m1 <= up_sysref_req_t;
rx_sysref_req_t_m2 <= rx_sysref_req_t_m1;
rx_sysref_req_t_m3 <= rx_sysref_req_t_m2;
if ((rx_sysref_cnt == 8'd0) || (rx_sysref_req_t_s == 1'b1)) begin
rx_sysref_req <= rx_sysref_req_t_s;
end
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end
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assign rx_sysref_enb_e_s = (rx_sysref_mode_e == 2'b10) ? rx_sysref_req :
((rx_sysref_mode_e == 2'b00) ? 1'b1 : 1'b0);
always @(posedge rx_clk) begin
rx_sysref_e <= rx_sysref_cnt[7] & rx_sysref_enb_e;
rx_sysref_i <= rx_sysref_cnt[7] & rx_sysref_enb_i;
if (rx_sysref_cnt == 8'd0) begin
if (rx_sysref_enb_e == 1'b1) begin
rx_sysref_ack_t <= ~rx_sysref_ack_t;
end
rx_sysref_enb_e <= rx_sysref_enb_e_s;
rx_sysref_enb_i <= ~rx_sysref_mode_i;
end
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end
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// sync-control at receive clock
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assign rx_sync_control_t_s = rx_sync_control_t_m3 ^ rx_sync_control_t_m2;
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always @(posedge rx_clk) begin
rx_sync_control_t_m1 <= up_sync_control_t;
rx_sync_control_t_m2 <= rx_sync_control_t_m1;
rx_sync_control_t_m3 <= rx_sync_control_t_m2;
if (rx_sync_control_t_s == 1'b1) begin
rx_sync_mode <= up_sync_mode;
rx_sync_disable_1 <= up_sync_disable_1;
rx_sync_disable_0 <= up_sync_disable_0;
end
if (rx_sync_mode == 1'b1) begin
rx_sync_out_1 <= ~rx_sync_disable_1 & rx_sync_1 & rx_sync_0;
rx_sync_out_0 <= ~rx_sync_disable_0 & rx_sync_1 & rx_sync_0;
end else begin
rx_sync_out_1 <= ~rx_sync_disable_1 & rx_sync_1;
rx_sync_out_0 <= ~rx_sync_disable_0 & rx_sync_0;
end
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end
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always @(posedge rx_clk) begin
rx_sync_cnt <= rx_sync_cnt + 1'b1;
if ((rx_sync_cnt == 8'd0) || (rx_sync_1 == 1'b0)) begin
rx_sync_hold_1 <= rx_sync_1;
end
if ((rx_sync_cnt == 8'd0) || (rx_sync_0 == 1'b0)) begin
rx_sync_hold_0 <= rx_sync_0;
end
if (rx_sync_cnt == 8'd0) begin
rx_sync_status_t <= ~rx_sync_status_t;
rx_sync_status_1 <= rx_sync_hold_1;
rx_sync_status_0 <= rx_sync_hold_0;
end
end
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// sync buffers
OBUFDS i_obufds_rx_sync_1 (
.I (rx_sync_out_1),
.O (rx_sync_1_p),
.OB (rx_sync_1_n));
OBUFDS i_obufds_rx_sync_0 (
.I (rx_sync_out_0),
.O (rx_sync_0_p),
.OB (rx_sync_0_n));
// sysref delay control
assign rx_sysref = rx_sysref_i;
ad_lvds_out #(
.DEVICE_TYPE (0),
.SINGLE_ENDED (0),
.IODELAY_ENABLE (1),
.IODELAY_CTRL (1),
.IODELAY_GROUP ("FMCADC5_SYSREF_IODELAY_GROUP"))
i_rx_sysref (
.tx_clk (rx_clk),
.tx_data_p (rx_sysref_e),
.tx_data_n (rx_sysref_e),
.tx_data_out_p (rx_sysref_p),
.tx_data_out_n (rx_sysref_n),
.up_clk (up_clk),
.up_dld (up_delay_ld),
.up_dwdata (up_delay_wdata),
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.up_drdata (up_delay_rdata_s),
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.delay_clk (delay_clk),
.delay_rst (delay_rst),
.delay_locked (up_delay_locked_s));
// up == micro("u") processor
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up_axi i_up_axi (
.up_rstn (up_rstn),
.up_clk (up_clk),
.up_axi_awvalid (s_axi_awvalid),
.up_axi_awaddr (s_axi_awaddr),
.up_axi_awready (s_axi_awready),
.up_axi_wvalid (s_axi_wvalid),
.up_axi_wdata (s_axi_wdata),
.up_axi_wstrb (s_axi_wstrb),
.up_axi_wready (s_axi_wready),
.up_axi_bvalid (s_axi_bvalid),
.up_axi_bresp (s_axi_bresp),
.up_axi_bready (s_axi_bready),
.up_axi_arvalid (s_axi_arvalid),
.up_axi_araddr (s_axi_araddr),
.up_axi_arready (s_axi_arready),
.up_axi_rvalid (s_axi_rvalid),
.up_axi_rresp (s_axi_rresp),
.up_axi_rdata (s_axi_rdata),
.up_axi_rready (s_axi_rready),
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.up_wreq (up_wreq_s),
.up_waddr (up_waddr_s),
.up_wdata (up_wdata_s),
.up_wack (up_wack),
.up_rreq (up_rreq_s),
.up_raddr (up_raddr_s),
.up_rdata (up_rdata),
.up_rack (up_rack));
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endmodule
// ***************************************************************************
// ***************************************************************************