mor1kx-bemicrocv/ip/altera/ddr3/ddr3_p0_reset.v

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2016-08-04 19:22:38 +02:00
// (C) 2001-2015 Altera Corporation. All rights reserved.
// Your use of Altera Corporation's design tools, logic functions and other
// software and tools, and its AMPP partner logic functions, and any output
// files any of the foregoing (including device programming or simulation
// files), and any associated documentation or information are expressly subject
// to the terms and conditions of the Altera Program License Subscription
// Agreement, Altera MegaCore Function License Agreement, or other applicable
// license agreement, including, without limitation, that your use is for the
// sole purpose of programming logic devices manufactured by Altera and sold by
// Altera or its authorized distributors. Please refer to the applicable
// agreement for further details.
`timescale 1 ps / 1 ps
(* altera_attribute = "-name GLOBAL_SIGNAL OFF" *)
module ddr3_p0_reset(
seq_reset_mem_stable,
pll_afi_clk,
pll_addr_cmd_clk,
pll_dqs_ena_clk,
seq_clk,
scc_clk,
pll_avl_clk,
reset_n_scc_clk,
reset_n_avl_clk,
read_capture_clk,
pll_locked,
global_reset_n,
soft_reset_n,
ctl_reset_n,
ctl_reset_export_n,
reset_n_afi_clk,
reset_n_addr_cmd_clk,
reset_n_resync_clk,
reset_n_seq_clk,
reset_n_read_capture_clk
);
parameter MEM_READ_DQS_WIDTH = "";
parameter NUM_AFI_RESET = 1;
input seq_reset_mem_stable;
input pll_afi_clk;
input pll_addr_cmd_clk;
input pll_dqs_ena_clk;
input seq_clk;
input scc_clk;
input pll_avl_clk;
output reset_n_scc_clk;
output reset_n_avl_clk;
input [MEM_READ_DQS_WIDTH-1:0] read_capture_clk;
input pll_locked;
input global_reset_n;
input soft_reset_n;
output ctl_reset_n;
output ctl_reset_export_n;
output [NUM_AFI_RESET-1:0] reset_n_afi_clk;
output reset_n_addr_cmd_clk;
output reset_n_resync_clk;
output reset_n_seq_clk;
output [MEM_READ_DQS_WIDTH-1:0] reset_n_read_capture_clk;
// Apply the synthesis keep attribute on the synchronized reset wires
// so that these names can be constrained using QSF settings to keep
// the resets on local routing.
wire phy_reset_n /* synthesis keep = 1 */;
wire phy_reset_mem_stable_n /* synthesis keep = 1*/;
wire [MEM_READ_DQS_WIDTH-1:0] reset_n_read_capture;
assign phy_reset_mem_stable_n = phy_reset_n & seq_reset_mem_stable;
assign reset_n_read_capture_clk = reset_n_read_capture;
assign phy_reset_n = pll_locked & global_reset_n & soft_reset_n;
ddr3_p0_reset_sync ureset_afi_clk(
.reset_n (phy_reset_n),
.clk (pll_afi_clk),
.reset_n_sync (reset_n_afi_clk)
);
defparam ureset_afi_clk.RESET_SYNC_STAGES = 15;
defparam ureset_afi_clk.NUM_RESET_OUTPUT = NUM_AFI_RESET;
ddr3_p0_reset_sync ureset_ctl_reset_clk(
.reset_n (phy_reset_n),
.clk (pll_afi_clk),
.reset_n_sync ({ctl_reset_n, ctl_reset_export_n})
);
defparam ureset_ctl_reset_clk.RESET_SYNC_STAGES = 15;
defparam ureset_ctl_reset_clk.NUM_RESET_OUTPUT = 2;
ddr3_p0_reset_sync ureset_addr_cmd_clk(
.reset_n (phy_reset_n),
.clk (pll_addr_cmd_clk),
.reset_n_sync (reset_n_addr_cmd_clk)
);
defparam ureset_addr_cmd_clk.RESET_SYNC_STAGES = 15;
defparam ureset_addr_cmd_clk.NUM_RESET_OUTPUT = 1;
ddr3_p0_reset_sync ureset_resync_clk(
.reset_n (phy_reset_n),
.clk (pll_dqs_ena_clk),
.reset_n_sync (reset_n_resync_clk)
);
defparam ureset_resync_clk.RESET_SYNC_STAGES = 15;
defparam ureset_resync_clk.NUM_RESET_OUTPUT = 1;
ddr3_p0_reset_sync ureset_seq_clk(
.reset_n (phy_reset_n),
.clk (seq_clk),
.reset_n_sync (reset_n_seq_clk)
);
defparam ureset_seq_clk.RESET_SYNC_STAGES = 15;
defparam ureset_seq_clk.NUM_RESET_OUTPUT = 1;
ddr3_p0_reset_sync ureset_scc_clk(
.reset_n (phy_reset_n),
.clk (scc_clk),
.reset_n_sync (reset_n_scc_clk)
);
defparam ureset_scc_clk.RESET_SYNC_STAGES = 15;
defparam ureset_scc_clk.NUM_RESET_OUTPUT = 1;
ddr3_p0_reset_sync ureset_avl_clk(
.reset_n (phy_reset_n),
.clk (pll_avl_clk),
.reset_n_sync (reset_n_avl_clk)
);
defparam ureset_avl_clk.RESET_SYNC_STAGES = 2;
defparam ureset_avl_clk.NUM_RESET_OUTPUT = 1;
generate
genvar i;
for (i=0; i<MEM_READ_DQS_WIDTH; i=i+1)
begin: read_capture_reset
ddr3_p0_reset_sync #(
.RESET_SYNC_STAGES(15),
.NUM_RESET_OUTPUT(1)
)
ureset_read_capture_clk(
.reset_n (phy_reset_mem_stable_n),
.clk (read_capture_clk[i]),
.reset_n_sync (reset_n_read_capture[i])
);
end
endgenerate
endmodule