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[/] [spacewiresystemc/] [trunk/] [altera_work/] [spw_fifo_ulight/] [ulight_fifo/] [synthesis/] [submodules/] [hps_sdram_p0_altdqdqs.v] - Rev 40

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// (C) 2001-2017 Intel Corporation. All rights reserved.
// Your use of Intel Corporation's design tools, logic functions and other 
// software and tools, and its AMPP partner logic functions, and any output 
// files from 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 Intel Program License Subscription 
// Agreement, Intel FPGA IP License Agreement, or other applicable 
// license agreement, including, without limitation, that your use is for the 
// sole purpose of programming logic devices manufactured by Intel and sold by 
// Intel or its authorized distributors.  Please refer to the applicable 
// agreement for further details.
 
 
 
`timescale 1 ps / 1 ps
 
module hps_sdram_p0_altdqdqs (
	core_clock_in,
	reset_n_core_clock_in,
	fr_clock_in,
	hr_clock_in,
	write_strobe_clock_in,
	write_strobe,
	strobe_ena_hr_clock_in,
	capture_strobe_tracking,
	read_write_data_io,
	write_oe_in,
	strobe_io,
	output_strobe_ena,
	strobe_n_io,
	oct_ena_in,
	read_data_out,
	capture_strobe_out,
	write_data_in,
	extra_write_data_in,
	extra_write_data_out,
	parallelterminationcontrol_in,
	seriesterminationcontrol_in,
	config_data_in,
	config_update,
	config_dqs_ena,
	config_io_ena,
	config_extra_io_ena,
	config_dqs_io_ena,
	config_clock_in,
	lfifo_rdata_en,
	lfifo_rdata_en_full,
	lfifo_rd_latency,
	lfifo_reset_n,
	lfifo_rdata_valid,
	vfifo_qvld,
	vfifo_inc_wr_ptr,
	vfifo_reset_n,
	rfifo_reset_n,
	dll_delayctrl_in
);
 
 
input [7-1:0] dll_delayctrl_in;
 
input core_clock_in;
input reset_n_core_clock_in;
input fr_clock_in;
input hr_clock_in;
 
input write_strobe_clock_in;
input [3:0] write_strobe;
input strobe_ena_hr_clock_in;
output capture_strobe_tracking;
inout [8-1:0] read_write_data_io;
input [2*8-1:0] write_oe_in;
inout strobe_io;
input [2-1:0] output_strobe_ena;
inout strobe_n_io;
input [2-1:0] oct_ena_in;
output [2 * 2 * 8-1:0] read_data_out;
output capture_strobe_out;
input [2 * 2 * 8-1:0] write_data_in;
input [2 * 2 * 1-1:0] extra_write_data_in;
output [1-1:0] extra_write_data_out;
input	[16-1:0] parallelterminationcontrol_in;
input	[16-1:0] seriesterminationcontrol_in;
input config_data_in;
input config_update;
input config_dqs_ena;
input [8-1:0] config_io_ena;
input [1-1:0] config_extra_io_ena;
input config_dqs_io_ena;
input config_clock_in;
 
input [2-1:0] lfifo_rdata_en;
input [2-1:0] lfifo_rdata_en_full;
input [4:0] lfifo_rd_latency;
input lfifo_reset_n;
output lfifo_rdata_valid;
input [2-1:0] vfifo_qvld;
input [2-1:0] vfifo_inc_wr_ptr;
input vfifo_reset_n;
input rfifo_reset_n;
 
parameter ALTERA_ALTDQ_DQS2_FAST_SIM_MODEL = ""; 
 
 
 
 
	altdq_dqs2_acv_connect_to_hard_phy_cyclonev altdq_dqs2_inst (
		.core_clock_in( core_clock_in),
		.reset_n_core_clock_in (reset_n_core_clock_in),
		.fr_clock_in( fr_clock_in),
		.hr_clock_in( hr_clock_in),
		.write_strobe_clock_in (write_strobe_clock_in),
		.write_strobe(write_strobe),
		.strobe_ena_hr_clock_in( strobe_ena_hr_clock_in),
		.capture_strobe_tracking (capture_strobe_tracking),
		.read_write_data_io( read_write_data_io),
		.write_oe_in( write_oe_in),
		.strobe_io( strobe_io),
		.output_strobe_ena( output_strobe_ena),
		.strobe_n_io( strobe_n_io),
		.oct_ena_in( oct_ena_in),
		.read_data_out( read_data_out),
		.capture_strobe_out( capture_strobe_out),
		.write_data_in( write_data_in),
		.extra_write_data_in( extra_write_data_in),
		.extra_write_data_out( extra_write_data_out),
		.parallelterminationcontrol_in( parallelterminationcontrol_in),
		.seriesterminationcontrol_in( seriesterminationcontrol_in),
		.config_data_in( config_data_in),
		.config_update( config_update),
		.config_dqs_ena( config_dqs_ena),
		.config_io_ena( config_io_ena),
		.config_extra_io_ena( config_extra_io_ena),
		.config_dqs_io_ena( config_dqs_io_ena),
		.config_clock_in( config_clock_in),
		.lfifo_rdata_en(lfifo_rdata_en),
		.lfifo_rdata_en_full(lfifo_rdata_en_full),
		.lfifo_rd_latency(lfifo_rd_latency),
		.lfifo_reset_n(lfifo_reset_n),
		.lfifo_rdata_valid(lfifo_rdata_valid),
		.vfifo_qvld(vfifo_qvld),
		.vfifo_inc_wr_ptr(vfifo_inc_wr_ptr),
		.vfifo_reset_n(vfifo_reset_n),
		.rfifo_reset_n(rfifo_reset_n),
		.dll_delayctrl_in(dll_delayctrl_in)
 
	);
	defparam altdq_dqs2_inst.PIN_WIDTH = 8;
	defparam altdq_dqs2_inst.PIN_TYPE = "bidir";
	defparam altdq_dqs2_inst.USE_INPUT_PHASE_ALIGNMENT = "false";
	defparam altdq_dqs2_inst.USE_OUTPUT_PHASE_ALIGNMENT = "false";
	defparam altdq_dqs2_inst.USE_LDC_AS_LOW_SKEW_CLOCK = "false";
	defparam altdq_dqs2_inst.USE_HALF_RATE_INPUT = "false";
	defparam altdq_dqs2_inst.USE_HALF_RATE_OUTPUT = "true";
	defparam altdq_dqs2_inst.DIFFERENTIAL_CAPTURE_STROBE = "true";
	defparam altdq_dqs2_inst.SEPARATE_CAPTURE_STROBE = "false";
	defparam altdq_dqs2_inst.INPUT_FREQ = 300.0;
	defparam altdq_dqs2_inst.INPUT_FREQ_PS = "3333 ps";
	defparam altdq_dqs2_inst.DELAY_CHAIN_BUFFER_MODE = "high";
	defparam altdq_dqs2_inst.DQS_PHASE_SETTING = 0;
	defparam altdq_dqs2_inst.DQS_PHASE_SHIFT = 0;
	defparam altdq_dqs2_inst.DQS_ENABLE_PHASE_SETTING = 3;
	defparam altdq_dqs2_inst.USE_DYNAMIC_CONFIG = "true";
	defparam altdq_dqs2_inst.INVERT_CAPTURE_STROBE = "true";
	defparam altdq_dqs2_inst.SWAP_CAPTURE_STROBE_POLARITY = "false";
	defparam altdq_dqs2_inst.USE_TERMINATION_CONTROL = "true";
	defparam altdq_dqs2_inst.USE_DQS_ENABLE = "true";
	defparam altdq_dqs2_inst.USE_OUTPUT_STROBE = "true";
	defparam altdq_dqs2_inst.USE_OUTPUT_STROBE_RESET = "false";
	defparam altdq_dqs2_inst.DIFFERENTIAL_OUTPUT_STROBE = "true";
	defparam altdq_dqs2_inst.USE_BIDIR_STROBE = "true";
	defparam altdq_dqs2_inst.REVERSE_READ_WORDS = "false";
	defparam altdq_dqs2_inst.EXTRA_OUTPUT_WIDTH = 1;
	defparam altdq_dqs2_inst.DYNAMIC_MODE = "dynamic";
	defparam altdq_dqs2_inst.OCT_SERIES_TERM_CONTROL_WIDTH   = 16; 
	defparam altdq_dqs2_inst.OCT_PARALLEL_TERM_CONTROL_WIDTH = 16; 
	defparam altdq_dqs2_inst.DLL_WIDTH = 7;
	defparam altdq_dqs2_inst.USE_DATA_OE_FOR_OCT = "false";
	defparam altdq_dqs2_inst.DQS_ENABLE_WIDTH = 1;
	defparam altdq_dqs2_inst.USE_OCT_ENA_IN_FOR_OCT = "true";
	defparam altdq_dqs2_inst.PREAMBLE_TYPE = "high";
	defparam altdq_dqs2_inst.EMIF_UNALIGNED_PREAMBLE_SUPPORT = "false";
	defparam altdq_dqs2_inst.EMIF_BYPASS_OCT_DDIO = "false";
	defparam altdq_dqs2_inst.USE_OFFSET_CTRL = "false";
	defparam altdq_dqs2_inst.HR_DDIO_OUT_HAS_THREE_REGS = "false";
	defparam altdq_dqs2_inst.DQS_ENABLE_PHASECTRL = "true";
	defparam altdq_dqs2_inst.USE_2X_FF = "false";
	defparam altdq_dqs2_inst.DLL_USE_2X_CLK = "false";
	defparam altdq_dqs2_inst.USE_DQS_TRACKING = "true";
	defparam altdq_dqs2_inst.USE_HARD_FIFOS = "true";
	defparam altdq_dqs2_inst.USE_DQSIN_FOR_VFIFO_READ = "false";
	defparam altdq_dqs2_inst.CALIBRATION_SUPPORT = "false";
	defparam altdq_dqs2_inst.NATURAL_ALIGNMENT = "true";
	defparam altdq_dqs2_inst.SEPERATE_LDC_FOR_WRITE_STROBE = "false";
	defparam altdq_dqs2_inst.HHP_HPS = "true";
 
 
 
endmodule
 

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