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`timescale 1ns / 1ps
module novena_clkmgr
(
gclk_p, gclk_n,
reset_mcu_b,
sys_clk, sys_rst,
bclk_in, bclk_out
);
//
// Ports
//
input wire gclk_p; // signal from clock pins
input wire gclk_n; //
input wire reset_mcu_b; // cpu reset (async)
output wire sys_clk; // buffered system clock output
output wire sys_rst; // system reset output (sync)
input wire bclk_in; // signal from clock pin
output wire bclk_out; // buffered clock output
//
// IBUFGDS
//
(* BUFFER_TYPE="NONE" *)
wire gclk;
IBUFGDS IBUFGDS_gclk
(
.I (gclk_p),
.IB (gclk_n),
.O (gclk)
);
//
// DCM
//
wire dcm_reset; // dcm reset
wire dcm_locked; // output clock valid
wire gclk_missing; // no input clock
clkmgr_dcm dcm
(
.CLK_IN1 (gclk),
.RESET (dcm_reset),
.INPUT_CLK_STOPPED (gclk_missing),
.CLK_OUT1 (sys_clk),
.CLK_VALID (dcm_locked)
);
//
// DCM Reset Logic
//
/* DCM should be reset on power-up, when input clock is stopped or when the CPU gets reset. */
reg [15: 0] dcm_rst_shreg = {16{1'b1}}; // 16-bit shift register
always @(posedge gclk or negedge reset_mcu_b or posedge gclk_missing)
//
if ((reset_mcu_b == 1'b0) || (gclk_missing == 1'b1)) dcm_rst_shreg <= {16{1'b1}};
else dcm_rst_shreg <= {dcm_rst_shreg[14:0], 1'b0};
assign dcm_reset = dcm_rst_shreg[15];
//
// System Reset Logic
//
/* System reset is asserted for 16 cycles whenever DCM aquires lock. */
reg [15: 0] sys_rst_shreg = {16{1'b1}}; // 16-bit shift register
always @(posedge sys_clk or negedge reset_mcu_b or posedge gclk_missing or negedge dcm_locked)
//
if ((reset_mcu_b == 1'b0) || (gclk_missing == 1'b1) || (dcm_locked == 1'b0)) sys_rst_shreg <= {16{1'b1}};
else if (dcm_locked == 1'b1) sys_rst_shreg <= {sys_rst_shreg[14:0], 1'b0};
assign sys_rst = sys_rst_shreg[15];
//
// BCLK BUFG
//
BUFG BUFG_BCLK
(
.I (bclk_in),
.O (bclk_out)
);
endmodule
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