mor1kx-bemicrocv/ip/altera/ddr3/sequencer_scc_sv_wrapper.sv

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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
module sequencer_scc_sv_wrapper
# (parameter
DATAWIDTH = 24,
IO_SDATA_BITS = 11,
DQS_SDATA_BITS = 46,
AVL_DATA_WIDTH = 32,
DLL_DELAY_CHAIN_LENGTH = 6,
DUAL_WRITE_CLOCK = 0
)
(
reset_n_scc_clk,
scc_clk,
scc_dataout,
scc_io_cfg,
scc_dqs_cfg,
scc_sr_dqsenable_delayctrl,
scc_sr_dqsdisablen_delayctrl,
scc_sr_multirank_delayctrl
);
input scc_clk;
input reset_n_scc_clk;
input [DATAWIDTH-1:0] scc_dataout;
output [IO_SDATA_BITS - 1:0] scc_io_cfg;
output [DQS_SDATA_BITS - 1:0] scc_dqs_cfg;
output [7:0] scc_sr_dqsenable_delayctrl;
output [7:0] scc_sr_dqsdisablen_delayctrl;
output [7:0] scc_sr_multirank_delayctrl;
typedef enum integer {
SCC_ADDR_DQS_IN_DELAY = 'b0001,
SCC_ADDR_DQS_EN_PHASE = 'b0010,
SCC_ADDR_DQS_EN_DELAY = 'b0011,
SCC_ADDR_DQDQS_OUT_PHASE= 'b0100,
SCC_ADDR_OCT_OUT1_DELAY = 'b0101,
SCC_ADDR_OCT_OUT2_DELAY = 'b0110,
SCC_ADDR_IO_OUT1_DELAY = 'b0111,
SCC_ADDR_IO_OUT2_DELAY = 'b1000,
SCC_ADDR_IO_IN_DELAY = 'b1001
} sdata_addr_t;
wire [DATAWIDTH-1:0] scc_dataout;
reg [IO_SDATA_BITS - 1:0] scc_io_cfg;
reg [DQS_SDATA_BITS - 1:0] scc_dqs_cfg;
reg [7:0] scc_sr_dqsenable_delayctrl;
reg [7:0] scc_sr_dqsdisablen_delayctrl;
reg [7:0] scc_sr_multirank_delayctrl;
wire [2:0] dqsi_phase;
wire [5:0] dqse_phase;
wire [6:0] dqs_phase;
wire [6:0] dq_phase;
typedef bit [13:0] t_setting_mask;
integer unsigned setting_offsets[1:9] = '{ 'd0, 'd12, 'd17, 'd25, 'd30, 'd36, 'd0, 'd6, 'd12 };
t_setting_mask setting_masks [1:9] = '{ 'b0111111111111, 'b011111, 'b011111111, 'b011111, 'b0111111, 'b0111111, 'b0111111, 'b0111111, 'b0111111111111 };
// decode phases
sequencer_scc_sv_phase_decode # (
.AVL_DATA_WIDTH (DATAWIDTH ),
.DLL_DELAY_CHAIN_LENGTH (DLL_DELAY_CHAIN_LENGTH )
) sequencer_scc_phase_decode_dqe_inst (
.avl_writedata ((scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_PHASE]) & setting_masks[SCC_ADDR_DQS_EN_PHASE]),
.dqsi_phase (dqsi_phase ),
.dqse_phase (dqse_phase ),
.dqs_phase(),
.dq_phase()
);
sequencer_scc_sv_phase_decode # (
.AVL_DATA_WIDTH (DATAWIDTH ),
.DLL_DELAY_CHAIN_LENGTH (DLL_DELAY_CHAIN_LENGTH )
) sequencer_scc_phase_decode_dqdqs_inst (
.avl_writedata ((scc_dataout >> setting_offsets[SCC_ADDR_DQDQS_OUT_PHASE]) & setting_masks[SCC_ADDR_DQDQS_OUT_PHASE]),
.dqs_phase (dqs_phase ),
.dq_phase (dq_phase ),
.dqsi_phase(),
.dqse_phase()
);
always_ff @ (posedge scc_clk or negedge reset_n_scc_clk) begin
if (~reset_n_scc_clk) begin
scc_io_cfg <= '0;
scc_dqs_cfg <= '0;
scc_sr_dqsenable_delayctrl <= '0;
scc_sr_dqsdisablen_delayctrl <= '0;
scc_sr_multirank_delayctrl <= '0;
scc_dqs_cfg[26] <= '1;
scc_dqs_cfg[30] <= '1;
scc_dqs_cfg[35] <= '1;
scc_dqs_cfg[39] <= '1;
scc_dqs_cfg[44] <= '1;
scc_dqs_cfg[48] <= '1;
scc_dqs_cfg[53] <= '1;
scc_dqs_cfg[57] <= '1;
scc_dqs_cfg[63] <= '1;
end
else begin
scc_dqs_cfg <= '0;
scc_dqs_cfg[26] <= '1;
scc_dqs_cfg[30] <= '1;
scc_dqs_cfg[35] <= '1;
scc_dqs_cfg[39] <= '1;
scc_dqs_cfg[44] <= '1;
scc_dqs_cfg[48] <= '1;
scc_dqs_cfg[53] <= '1;
scc_dqs_cfg[57] <= '1;
scc_dqs_cfg[63] <= '1;
scc_dqs_cfg[88:87] <= dqsi_phase[1:0];
scc_dqs_cfg[11:0] <= maskTo12Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_IN_DELAY]);
scc_dqs_cfg[85:78] <= maskTo8Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_DELAY]);
scc_dqs_cfg[77:70] <= maskTo8Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_DELAY]);
scc_dqs_cfg[17:12] <= maskTo6Bits(scc_dataout >> setting_offsets[SCC_ADDR_OCT_OUT1_DELAY]);
scc_dqs_cfg[23:18] <= maskTo6Bits(scc_dataout >> setting_offsets[SCC_ADDR_OCT_OUT2_DELAY]);
scc_dqs_cfg[42:41] <= dqse_phase[1:0];
scc_dqs_cfg[45] <= dqse_phase[2];
scc_dqs_cfg[86] <= dqse_phase[3];
if (DUAL_WRITE_CLOCK) begin
scc_dqs_cfg[29:28] <= dqs_phase[6:5];
scc_dqs_cfg[31] <= dqs_phase[4];
scc_dqs_cfg[69] <= dqs_phase[0];
scc_dqs_cfg[89] <= dqs_phase[0];
scc_dqs_cfg[68:66] <= dqs_phase[3:1];
scc_dqs_cfg[93:91] <= dqs_phase[3:1];
scc_dqs_cfg[47:46] <= dqs_phase[6:5];
scc_dqs_cfg[33:32] <= dqs_phase[6:5];
scc_dqs_cfg[36] <= dqs_phase[4];
scc_dqs_cfg[90] <= dqs_phase[0];
scc_dqs_cfg[96:94] <= dqs_phase[3:1];
scc_dqs_cfg[51:50] <= dqs_phase[6:5];
scc_dqs_cfg[34] <= '1;
scc_dqs_cfg[52] <= '1;
end
else begin
scc_dqs_cfg[29:28] <= dqs_phase[6:5];
scc_dqs_cfg[31] <= dqs_phase[4];
scc_dqs_cfg[69] <= dqs_phase[0];
scc_dqs_cfg[89] <= dqs_phase[0];
scc_dqs_cfg[68:66] <= dqs_phase[3:1];
scc_dqs_cfg[93:91] <= dqs_phase[3:1];
scc_dqs_cfg[47:46] <= dqs_phase[6:5];
scc_dqs_cfg[33:32] <= dq_phase[6:5];
scc_dqs_cfg[36] <= dq_phase[4];
scc_dqs_cfg[90] <= dq_phase[0];
scc_dqs_cfg[96:94] <= dq_phase[3:1];
scc_dqs_cfg[51:50] <= dq_phase[6:5];
end
scc_dqs_cfg[54] <= 1'b0;
scc_dqs_cfg[49] <= 1'b0;
scc_io_cfg[17:12] <= maskTo6Bits(scc_dataout >> setting_offsets[SCC_ADDR_IO_OUT1_DELAY]);
scc_io_cfg[23:18] <= maskTo6Bits(scc_dataout >> setting_offsets[SCC_ADDR_IO_OUT2_DELAY]);
scc_io_cfg[11:0] <= maskTo12Bits(scc_dataout >> setting_offsets[SCC_ADDR_IO_IN_DELAY]);
scc_io_cfg[39:24] <= '0;
scc_sr_dqsenable_delayctrl <= maskTo8Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_DELAY]);
scc_sr_dqsdisablen_delayctrl <= maskTo8Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_DELAY]);
scc_sr_multirank_delayctrl <= maskTo8Bits(scc_dataout >> setting_offsets[SCC_ADDR_DQS_EN_DELAY]);
end
end
function[5:0] maskTo6Bits;
input[DATAWIDTH-1:0] i;
maskTo6Bits = i[5:0];
endfunction
function[7:0] maskTo8Bits;
input[DATAWIDTH-1:0] i;
maskTo8Bits = i[7:0];
endfunction
function[11:0] maskTo12Bits;
input[DATAWIDTH-1:0] i;
maskTo12Bits = i[11:0];
endfunction
endmodule