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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [xilinx/] [ml501/] [rtl/] [verilog/] [xilinx_ddr2/] [ddr2_top.v] - Rev 480
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//***************************************************************************** // DISCLAIMER OF LIABILITY // // This file contains proprietary and confidential information of // Xilinx, Inc. ("Xilinx"), that is distributed under a license // from Xilinx, and may be used, copied and/or disclosed only // pursuant to the terms of a valid license agreement with Xilinx. // // XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION // ("MATERIALS") "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER // EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING WITHOUT // LIMITATION, ANY WARRANTY WITH RESPECT TO NONINFRINGEMENT, // MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. Xilinx // does not warrant that functions included in the Materials will // meet the requirements of Licensee, or that the operation of the // Materials will be uninterrupted or error-free, or that defects // in the Materials will be corrected. Furthermore, Xilinx does // not warrant or make any representations regarding use, or the // results of the use, of the Materials in terms of correctness, // accuracy, reliability or otherwise. // // Xilinx products are not designed or intended to be fail-safe, // or for use in any application requiring fail-safe performance, // such as life-support or safety devices or systems, Class III // medical devices, nuclear facilities, applications related to // the deployment of airbags, or any other applications that could // lead to death, personal injury or severe property or // environmental damage (individually and collectively, "critical // applications"). Customer assumes the sole risk and liability // of any use of Xilinx products in critical applications, // subject only to applicable laws and regulations governing // limitations on product liability. // // Copyright 2006, 2007, 2008 Xilinx, Inc. // All rights reserved. // // This disclaimer and copyright notice must be retained as part // of this file at all times. //***************************************************************************** // ____ ____ // / /\/ / // /___/ \ / Vendor: Xilinx // \ \ \/ Version: 3.0 // \ \ Application: MIG // / / Filename: ddr2_top.v // /___/ /\ Date Last Modified: $Date: 2009/01/15 14:22:14 $ // \ \ / \ Date Created: Wed Aug 16 2006 // \___\/\___\ // //Device: Virtex-5 //Design Name: DDR2 //Purpose: // System level module. This level contains just the memory controller. // This level will be intiantated when the user wants to remove the // synthesizable test bench, IDELAY control block and the clock // generation modules. //Reference: //Revision History: // Rev 1.1 - Parameter USE_DM_PORT added. PK. 6/25/08 // Rev 1.2 - Parameter HIGH_PERFORMANCE_MODE added. PK. 7/10/08 // Rev 1.3 - Parameter IODELAY_GRP added. PK. 11/27/08 //***************************************************************************** `timescale 1ns/1ps module ddr2_top # ( // Following parameters are for 72-bit RDIMM design (for ML561 Reference // board design). Actual values may be different. Actual parameters values // are passed from design top module ddr2_mig module. Please refer to // the ddr2_mig module for actual values. parameter BANK_WIDTH = 2, // # of memory bank addr bits parameter CKE_WIDTH = 1, // # of memory clock enable outputs parameter CLK_WIDTH = 1, // # of clock outputs parameter COL_WIDTH = 10, // # of memory column bits parameter CS_NUM = 1, // # of separate memory chip selects parameter CS_BITS = 0, // set to log2(CS_NUM) (rounded up) parameter CS_WIDTH = 1, // # of total memory chip selects parameter USE_DM_PORT = 1, // enable Data Mask (=1 enable) parameter DM_WIDTH = 9, // # of data mask bits parameter DQ_WIDTH = 72, // # of data width parameter DQ_BITS = 7, // set to log2(DQS_WIDTH*DQ_PER_DQS) parameter DQ_PER_DQS = 8, // # of DQ data bits per strobe parameter DQS_WIDTH = 9, // # of DQS strobes parameter DQS_BITS = 4, // set to log2(DQS_WIDTH) parameter HIGH_PERFORMANCE_MODE = "TRUE", // IODELAY Performance Mode parameter IODELAY_GRP = "IODELAY_MIG", // IODELAY Group Name parameter ODT_WIDTH = 1, // # of memory on-die term enables parameter ROW_WIDTH = 14, // # of memory row & # of addr bits parameter APPDATA_WIDTH = 144, // # of usr read/write data bus bits parameter ADDITIVE_LAT = 0, // additive write latency parameter BURST_LEN = 4, // burst length (in double words) parameter BURST_TYPE = 0, // burst type (=0 seq; =1 interlved) parameter CAS_LAT = 5, // CAS latency parameter ECC_ENABLE = 0, // enable ECC (=1 enable) parameter ODT_TYPE = 1, // ODT (=0(none),=1(75),=2(150),=3(50)) parameter MULTI_BANK_EN = 1, // enable bank management parameter TWO_T_TIME_EN = 0, // 2t timing for unbuffered dimms parameter REDUCE_DRV = 0, // reduced strength mem I/O (=1 yes) parameter REG_ENABLE = 1, // registered addr/ctrl (=1 yes) parameter TREFI_NS = 7800, // auto refresh interval (ns) parameter TRAS = 40000, // active->precharge delay parameter TRCD = 15000, // active->read/write delay parameter TRFC = 105000, // ref->ref, ref->active delay parameter TRP = 15000, // precharge->command delay parameter TRTP = 7500, // read->precharge delay parameter TWR = 15000, // used to determine wr->prech parameter TWTR = 10000, // write->read delay parameter CLK_PERIOD = 3000, // Core/Mem clk period (in ps) parameter SIM_ONLY = 0, // = 1 to skip power up delay parameter DEBUG_EN = 0, // Enable debug signals/controls parameter FPGA_SPEED_GRADE = 2 // FPGA Speed Grade ) ( input clk0, input usr_clk, // jb input clk90, input clkdiv0, input rst0, input rst90, input rstdiv0, input [2:0] app_af_cmd, input [30:0] app_af_addr, input app_af_wren, input app_wdf_wren, input [APPDATA_WIDTH-1:0] app_wdf_data, input [(APPDATA_WIDTH/8)-1:0] app_wdf_mask_data, output app_af_afull, output app_wdf_afull, output rd_data_valid, output [APPDATA_WIDTH-1:0] rd_data_fifo_out, output [1:0] rd_ecc_error, output phy_init_done, output [CLK_WIDTH-1:0] ddr2_ck, output [CLK_WIDTH-1:0] ddr2_ck_n, output [ROW_WIDTH-1:0] ddr2_a, output [BANK_WIDTH-1:0] ddr2_ba, output ddr2_ras_n, output ddr2_cas_n, output ddr2_we_n, output [CS_WIDTH-1:0] ddr2_cs_n, output [CKE_WIDTH-1:0] ddr2_cke, output [ODT_WIDTH-1:0] ddr2_odt, output [DM_WIDTH-1:0] ddr2_dm, inout [DQS_WIDTH-1:0] ddr2_dqs, inout [DQS_WIDTH-1:0] ddr2_dqs_n, inout [DQ_WIDTH-1:0] ddr2_dq, // Debug signals (optional use) input dbg_idel_up_all, input dbg_idel_down_all, input dbg_idel_up_dq, input dbg_idel_down_dq, input dbg_idel_up_dqs, input dbg_idel_down_dqs, input dbg_idel_up_gate, input dbg_idel_down_gate, input [DQ_BITS-1:0] dbg_sel_idel_dq, input dbg_sel_all_idel_dq, input [DQS_BITS:0] dbg_sel_idel_dqs, input dbg_sel_all_idel_dqs, input [DQS_BITS:0] dbg_sel_idel_gate, input dbg_sel_all_idel_gate, output [3:0] dbg_calib_done, output [3:0] dbg_calib_err, output [(6*DQ_WIDTH)-1:0] dbg_calib_dq_tap_cnt, output [(6*DQS_WIDTH)-1:0] dbg_calib_dqs_tap_cnt, output [(6*DQS_WIDTH)-1:0] dbg_calib_gate_tap_cnt, output [DQS_WIDTH-1:0] dbg_calib_rd_data_sel, output [(5*DQS_WIDTH)-1:0] dbg_calib_rden_dly, output [(5*DQS_WIDTH)-1:0] dbg_calib_gate_dly ); // memory initialization/control logic ddr2_mem_if_top # ( .BANK_WIDTH (BANK_WIDTH), .CKE_WIDTH (CKE_WIDTH), .CLK_WIDTH (CLK_WIDTH), .COL_WIDTH (COL_WIDTH), .CS_BITS (CS_BITS), .CS_NUM (CS_NUM), .CS_WIDTH (CS_WIDTH), .USE_DM_PORT (USE_DM_PORT), .DM_WIDTH (DM_WIDTH), .DQ_WIDTH (DQ_WIDTH), .DQ_BITS (DQ_BITS), .DQ_PER_DQS (DQ_PER_DQS), .DQS_BITS (DQS_BITS), .DQS_WIDTH (DQS_WIDTH), .HIGH_PERFORMANCE_MODE (HIGH_PERFORMANCE_MODE), .IODELAY_GRP (IODELAY_GRP), .ODT_WIDTH (ODT_WIDTH), .ROW_WIDTH (ROW_WIDTH), .APPDATA_WIDTH (APPDATA_WIDTH), .ADDITIVE_LAT (ADDITIVE_LAT), .BURST_LEN (BURST_LEN), .BURST_TYPE (BURST_TYPE), .CAS_LAT (CAS_LAT), .ECC_ENABLE (ECC_ENABLE), .MULTI_BANK_EN (MULTI_BANK_EN), .TWO_T_TIME_EN (TWO_T_TIME_EN), .ODT_TYPE (ODT_TYPE), .DDR_TYPE (1), .REDUCE_DRV (REDUCE_DRV), .REG_ENABLE (REG_ENABLE), .TREFI_NS (TREFI_NS), .TRAS (TRAS), .TRCD (TRCD), .TRFC (TRFC), .TRP (TRP), .TRTP (TRTP), .TWR (TWR), .TWTR (TWTR), .CLK_PERIOD (CLK_PERIOD), .SIM_ONLY (SIM_ONLY), .DEBUG_EN (DEBUG_EN), .FPGA_SPEED_GRADE (FPGA_SPEED_GRADE) ) u_mem_if_top ( .clk0 (clk0), .usr_clk (usr_clk), // jb .clk90 (clk90), .clkdiv0 (clkdiv0), .rst0 (rst0), .rst90 (rst90), .rstdiv0 (rstdiv0), .app_af_cmd (app_af_cmd), .app_af_addr (app_af_addr), .app_af_wren (app_af_wren), .app_wdf_wren (app_wdf_wren), .app_wdf_data (app_wdf_data), .app_wdf_mask_data (app_wdf_mask_data), .app_af_afull (app_af_afull), .app_wdf_afull (app_wdf_afull), .rd_data_valid (rd_data_valid), .rd_data_fifo_out (rd_data_fifo_out), .rd_ecc_error (rd_ecc_error), .phy_init_done (phy_init_done), .ddr_ck (ddr2_ck), .ddr_ck_n (ddr2_ck_n), .ddr_addr (ddr2_a), .ddr_ba (ddr2_ba), .ddr_ras_n (ddr2_ras_n), .ddr_cas_n (ddr2_cas_n), .ddr_we_n (ddr2_we_n), .ddr_cs_n (ddr2_cs_n), .ddr_cke (ddr2_cke), .ddr_odt (ddr2_odt), .ddr_dm (ddr2_dm), .ddr_dqs (ddr2_dqs), .ddr_dqs_n (ddr2_dqs_n), .ddr_dq (ddr2_dq), .dbg_idel_up_all (dbg_idel_up_all), .dbg_idel_down_all (dbg_idel_down_all), .dbg_idel_up_dq (dbg_idel_up_dq), .dbg_idel_down_dq (dbg_idel_down_dq), .dbg_idel_up_dqs (dbg_idel_up_dqs), .dbg_idel_down_dqs (dbg_idel_down_dqs), .dbg_idel_up_gate (dbg_idel_up_gate), .dbg_idel_down_gate (dbg_idel_down_gate), .dbg_sel_idel_dq (dbg_sel_idel_dq), .dbg_sel_all_idel_dq (dbg_sel_all_idel_dq), .dbg_sel_idel_dqs (dbg_sel_idel_dqs), .dbg_sel_all_idel_dqs (dbg_sel_all_idel_dqs), .dbg_sel_idel_gate (dbg_sel_idel_gate), .dbg_sel_all_idel_gate (dbg_sel_all_idel_gate), .dbg_calib_done (dbg_calib_done), .dbg_calib_err (dbg_calib_err), .dbg_calib_dq_tap_cnt (dbg_calib_dq_tap_cnt), .dbg_calib_dqs_tap_cnt (dbg_calib_dqs_tap_cnt), .dbg_calib_gate_tap_cnt (dbg_calib_gate_tap_cnt), .dbg_calib_rd_data_sel (dbg_calib_rd_data_sel), .dbg_calib_rden_dly (dbg_calib_rden_dly), .dbg_calib_gate_dly (dbg_calib_gate_dly) ); endmodule
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