diff options
| author | Josh Blum <josh@joshknows.com> | 2012-05-30 13:36:42 -0700 |
|---|---|---|
| committer | Josh Blum <josh@joshknows.com> | 2012-05-30 13:36:42 -0700 |
| commit | 8b8a60558a1ca032cb4dee908bb7e3935ea31878 (patch) | |
| tree | accd199d0d9c7bb218a6c959798fb8aa842edc15 | |
| parent | 3cf4977c020929597c9603262576dcdc8553c8e2 (diff) | |
| download | uhd-8b8a60558a1ca032cb4dee908bb7e3935ea31878.tar.gz uhd-8b8a60558a1ca032cb4dee908bb7e3935ea31878.tar.bz2 uhd-8b8a60558a1ca032cb4dee908bb7e3935ea31878.zip | |
fpga: added various models from ISE
| -rw-r--r-- | usrp2/models/DCM_SP.v | 1244 | ||||
| -rw-r--r-- | usrp2/models/IBUFG.v | 59 | ||||
| -rw-r--r-- | usrp2/models/IBUFGDS.v | 87 | ||||
| -rw-r--r-- | usrp2/models/IDDR2.v | 172 | ||||
| -rw-r--r-- | usrp2/models/ODDR2.v | 157 | ||||
| -rw-r--r-- | usrp2/models/PLL_ADV.v | 2142 | ||||
| -rw-r--r-- | usrp2/models/PLL_BASE.v | 150 |
7 files changed, 4011 insertions, 0 deletions
diff --git a/usrp2/models/DCM_SP.v b/usrp2/models/DCM_SP.v new file mode 100644 index 000000000..2142fa736 --- /dev/null +++ b/usrp2/models/DCM_SP.v @@ -0,0 +1,1244 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/unisims/DCM_SP.v,v 1.9.4.3 2007/04/11 20:30:19 yanx Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 9.2i (J.36) +// \ \ Description : Xilinx Function Simulation Library Component +// / / Digital Clock Manager +// /___/ /\ Filename : DCM_SP.v +// \ \ / \ Timestamp : +// \___\/\___\ +// +// Revision: +// 02/28/06 - Initial version. +// 05/09/06 - Add clkin_ps_mkup and clkin_ps_mkup_win for phase shifting (CR 229789). +// 06/14/06 - Add clkin_ps_mkup_flag for multiple cycle delays (CR233283). +// 07/21/06 - Change range of variable phase shifting to +/- integer of 20*(Period-3ns). +// Give warning not support initial phase shifting for variable phase shifting. +// (CR 235216). +// 09/22/06 - Add lock_period and lock_fb to clkfb_div block (CR 418722). +// 12/19/06 - Add clkfb_div_en for clkfb2x divider (CR431210). +// 04/06/07 - Enable the clock out in clock low time after reset in model +// clock_divide_by_2 (CR 437471). +// End Revision + + +`timescale 1 ps / 1 ps + +module DCM_SP ( + CLK0, CLK180, CLK270, CLK2X, CLK2X180, CLK90, + CLKDV, CLKFX, CLKFX180, LOCKED, PSDONE, STATUS, + CLKFB, CLKIN, DSSEN, PSCLK, PSEN, PSINCDEC, RST); + +parameter CLKDV_DIVIDE = 2.0; +parameter integer CLKFX_DIVIDE = 1; +parameter integer CLKFX_MULTIPLY = 4; +parameter CLKIN_DIVIDE_BY_2 = "FALSE"; +parameter CLKIN_PERIOD = 10.0; // non-simulatable +parameter CLKOUT_PHASE_SHIFT = "NONE"; +parameter CLK_FEEDBACK = "1X"; +parameter DESKEW_ADJUST = "SYSTEM_SYNCHRONOUS"; // non-simulatable +parameter DFS_FREQUENCY_MODE = "LOW"; +parameter DLL_FREQUENCY_MODE = "LOW"; +parameter DSS_MODE = "NONE"; // non-simulatable +parameter DUTY_CYCLE_CORRECTION = "TRUE"; +parameter FACTORY_JF = 16'hC080; // non-simulatable +parameter integer MAXPERCLKIN = 1000000; // non-modifiable simulation parameter +parameter integer MAXPERPSCLK = 100000000; // non-modifiable simulation parameter +parameter integer PHASE_SHIFT = 0; +parameter integer SIM_CLKIN_CYCLE_JITTER = 300; // non-modifiable simulation parameter +parameter integer SIM_CLKIN_PERIOD_JITTER = 1000; // non-modifiable simulation parameter +parameter STARTUP_WAIT = "FALSE"; // non-simulatable + + +localparam PS_STEP = 25; + +input CLKFB, CLKIN, DSSEN; +input PSCLK, PSEN, PSINCDEC, RST; + +output CLK0, CLK180, CLK270, CLK2X, CLK2X180, CLK90; +output CLKDV, CLKFX, CLKFX180, LOCKED, PSDONE; +output [7:0] STATUS; + +reg CLK0, CLK180, CLK270, CLK2X, CLK2X180, CLK90; +reg CLKDV, CLKFX, CLKFX180; + +wire locked_out_out; +wire clkfb_in, clkin_in, dssen_in; +wire psclk_in, psen_in, psincdec_in, rst_in; +reg clk0_out; +reg clk2x_out, clkdv_out; +reg clkfx_out, clkfx180_en; +reg rst_flag; +reg locked_out, psdone_out, ps_overflow_out, ps_lock; +reg clkfb_div, clkfb_chk, clkfb_div_en; +integer clkdv_cnt; + +reg [1:0] clkfb_type; +reg [8:0] divide_type; +reg clkin_type; +reg [1:0] ps_type; +reg [3:0] deskew_adjust_mode; +reg dfs_mode_type; +reg dll_mode_type; +reg clk1x_type; +integer ps_in; + +reg lock_period, lock_delay, lock_clkin, lock_clkfb; +reg first_time_locked; +reg en_status; +reg ps_overflow_out_ext; +reg clkin_lost_out_ext; +reg clkfx_lost_out_ext; +reg [1:0] lock_out; +reg lock_out1_neg; +reg lock_fb, lock_ps, lock_ps_dly, lock_fb_dly, lock_fb_dly_tmp; +reg fb_delay_found; +reg clock_stopped; +reg clkin_chkin, clkfb_chkin; + +wire chk_enable, chk_rst; +wire clkin_div; +wire lock_period_pulse; +wire lock_period_dly, lock_period_dly1; + +reg clkin_ps, clkin_ps_tmp, clkin_ps_mkup, clkin_ps_mkup_win, clkin_ps_mkup_flag; +reg clkin_fb; + +time FINE_SHIFT_RANGE; +//time ps_delay, ps_delay_init, ps_delay_md, ps_delay_all, ps_max_range; +integer ps_delay, ps_delay_init, ps_delay_md, ps_delay_all, ps_max_range; +integer ps_delay_last; +integer ps_acc; +time clkin_edge; +time clkin_div_edge; +time clkin_ps_edge; +time delay_edge; +time clkin_period [2:0]; +time period; +integer period_int, period_int2, period_int3, period_ps_tmp; +time period_div; +integer period_orig_int; +time period_orig; +time period_ps; +time clkout_delay; +time fb_delay; +time period_fx, remain_fx; +time period_dv_high, period_dv_low; +time cycle_jitter, period_jitter; + +reg clkin_window, clkfb_window; +reg [2:0] rst_reg; +reg [12:0] numerator, denominator, gcd; +reg [23:0] i, n, d, p; + +reg notifier; + +initial begin + #1; + if ($realtime == 0) begin + $display ("Simulator Resolution Error : Simulator resolution is set to a value greater than 1 ps."); + $display ("In order to simulate the DCM_SP, the simulator resolution must be set to 1ps or smaller."); + $finish; + end +end + +initial begin + case (2.0) + 1.5 : divide_type = 'd3; + 2.0 : divide_type = 'd4; + 2.5 : divide_type = 'd5; + 3.0 : divide_type = 'd6; + 3.5 : divide_type = 'd7; + 4.0 : divide_type = 'd8; + 4.5 : divide_type = 'd9; + 5.0 : divide_type = 'd10; + 5.5 : divide_type = 'd11; + 6.0 : divide_type = 'd12; + 6.5 : divide_type = 'd13; + 7.0 : divide_type = 'd14; + 7.5 : divide_type = 'd15; + 8.0 : divide_type = 'd16; + 9.0 : divide_type = 'd18; + 10.0 : divide_type = 'd20; + 11.0 : divide_type = 'd22; + 12.0 : divide_type = 'd24; + 13.0 : divide_type = 'd26; + 14.0 : divide_type = 'd28; + 15.0 : divide_type = 'd30; + 16.0 : divide_type = 'd32; + default : begin + $display("Attribute Syntax Error : The attribute CLKDV_DIVIDE on DCM_SP instance %m is set to %0.1f. Legal values for this attribute are 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5, 6.0, 6.5, 7.0, 7.5, 8.0, 9.0, 10.0, 11.0, 12.0, 13.0, 14.0, 15.0, or 16.0.", CLKDV_DIVIDE); + $finish; + end + endcase + + if ((CLKFX_DIVIDE <= 0) || (32 < CLKFX_DIVIDE)) begin + $display("Attribute Syntax Error : The attribute CLKFX_DIVIDE on DCM_SP instance %m is set to %d. Legal values for this attribute are 1 ... 32.", CLKFX_DIVIDE); + $finish; + end + + if ((CLKFX_MULTIPLY <= 1) || (32 < CLKFX_MULTIPLY)) begin + $display("Attribute Syntax Error : The attribute CLKFX_MULTIPLY on DCM_SP instance %m is set to %d. Legal values for this attribute are 2 ... 32.", CLKFX_MULTIPLY); + $finish; + end + + case (CLKIN_DIVIDE_BY_2) + "false" : clkin_type = 0; + "FALSE" : clkin_type = 0; + "true" : clkin_type = 1; + "TRUE" : clkin_type = 1; + default : begin + $display("Attribute Syntax Error : The attribute CLKIN_DIVIDE_BY_2 on DCM_SP instance %m is set to %s. Legal values for this attribute are TRUE or FALSE.", CLKIN_DIVIDE_BY_2); + $finish; + end + endcase + + case (CLKOUT_PHASE_SHIFT) + "NONE" : begin + ps_in = 256; + ps_type = 0; + end + "none" : begin + ps_in = 256; + ps_type = 0; + end + "FIXED" : begin + ps_in = PHASE_SHIFT + 256; + ps_type = 1; + end + "fixed" : begin + ps_in = PHASE_SHIFT + 256; + ps_type = 1; + end + "VARIABLE" : begin + ps_in = PHASE_SHIFT + 256; + ps_type = 2; + end + "variable" : begin + ps_in = PHASE_SHIFT + 256; + ps_type = 2; + if (PHASE_SHIFT != 0) + $display("Attribute Syntax Warning : The attribute PHASE_SHIFT on DCM_SP instance %m is set to %d. The maximum variable phase shift range is only valid when initial phase shift PHASE_SHIFT is zero.", PHASE_SHIFT); + end + default : begin + $display("Attribute Syntax Error : The attribute CLKOUT_PHASE_SHIFT on DCM_SP instance %m is set to %s. Legal values for this attribute are NONE, FIXED or VARIABLE.", CLKOUT_PHASE_SHIFT); + $finish; + end + endcase + + + case (CLK_FEEDBACK) + "none" : clkfb_type = 2'b00; + "NONE" : clkfb_type = 2'b00; + "1x" : clkfb_type = 2'b01; + "1X" : clkfb_type = 2'b01; + "2x" : clkfb_type = 2'b10; + "2X" : clkfb_type = 2'b10; + default : begin + $display("Attribute Syntax Error : The attribute CLK_FEEDBACK on DCM_SP instance %m is set to %s. Legal values for this attribute are NONE, 1X or 2X.", CLK_FEEDBACK); + $finish; + end + endcase + + case (DESKEW_ADJUST) + "source_synchronous" : deskew_adjust_mode = 8; + "SOURCE_SYNCHRONOUS" : deskew_adjust_mode = 8; + "system_synchronous" : deskew_adjust_mode = 11; + "SYSTEM_SYNCHRONOUS" : deskew_adjust_mode = 11; + "0" : deskew_adjust_mode = 0; + "1" : deskew_adjust_mode = 1; + "2" : deskew_adjust_mode = 2; + "3" : deskew_adjust_mode = 3; + "4" : deskew_adjust_mode = 4; + "5" : deskew_adjust_mode = 5; + "6" : deskew_adjust_mode = 6; + "7" : deskew_adjust_mode = 7; + "8" : deskew_adjust_mode = 8; + "9" : deskew_adjust_mode = 9; + "10" : deskew_adjust_mode = 10; + "11" : deskew_adjust_mode = 11; + "12" : deskew_adjust_mode = 12; + "13" : deskew_adjust_mode = 13; + "14" : deskew_adjust_mode = 14; + "15" : deskew_adjust_mode = 15; + default : begin + $display("Attribute Syntax Error : The attribute DESKEW_ADJUST on DCM_SP instance %m is set to %s. Legal values for this attribute are SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or 0 ... 15.", DESKEW_ADJUST); + $finish; + end + endcase + + case (DFS_FREQUENCY_MODE) + "high" : dfs_mode_type = 1; + "HIGH" : dfs_mode_type = 1; + "low" : dfs_mode_type = 0; + "LOW" : dfs_mode_type = 0; + default : begin + $display("Attribute Syntax Error : The attribute DFS_FREQUENCY_MODE on DCM_SP instance %m is set to %s. Legal values for this attribute are HIGH or LOW.", DFS_FREQUENCY_MODE); + $finish; + end + endcase + + period_jitter = SIM_CLKIN_PERIOD_JITTER; + cycle_jitter = SIM_CLKIN_CYCLE_JITTER; + + case (DLL_FREQUENCY_MODE) + "high" : dll_mode_type = 1; + "HIGH" : dll_mode_type = 1; + "low" : dll_mode_type = 0; + "LOW" : dll_mode_type = 0; + default : begin + $display("Attribute Syntax Error : The attribute DLL_FREQUENCY_MODE on DCM_SP instance %m is set to %s. Legal values for this attribute are HIGH or LOW.", DLL_FREQUENCY_MODE); + $finish; + end + endcase + + if ((dll_mode_type ==1) && (clkfb_type == 2'b10)) begin + $display("Attribute Syntax Error : The attributes DLL_FREQUENCY_MODE on DCM_SP instance %m is set to %s and CLK_FEEDBACK is set to %s. CLK_FEEDBACK 2X is not supported when DLL_FREQUENCY_MODE is HIGH.", DLL_FREQUENCY_MODE, CLK_FEEDBACK); + $finish; + end + + case (DSS_MODE) + "none" : ; + "NONE" : ; + default : begin + $display("Attribute Syntax Error : The attribute DSS_MODE on DCM_SP instance %m is set to %s. Legal values for this attribute is NONE.", DSS_MODE); + $finish; + end + endcase + + case (DUTY_CYCLE_CORRECTION) + "false" : clk1x_type = 0; + "FALSE" : clk1x_type = 0; + "true" : clk1x_type = 1; + "TRUE" : clk1x_type = 1; + default : begin + $display("Attribute Syntax Error : The attribute DUTY_CYCLE_CORRECTION on DCM_SP instance %m is set to %s. Legal values for this attribute are TRUE or FALSE.", DUTY_CYCLE_CORRECTION); + $finish; + end + endcase + + if ((PHASE_SHIFT < -255) || (PHASE_SHIFT > 255)) begin + $display("Attribute Syntax Error : The attribute PHASE_SHIFT on DCM_SP instance %m is set to %d. Legal values for this attribute are -255 ... 255.", PHASE_SHIFT); + $display("Error : PHASE_SHIFT = %d is not -255 ... 255.", PHASE_SHIFT); + $finish; + end + + case (STARTUP_WAIT) + "false" : ; + "FALSE" : ; + "true" : ; + "TRUE" : ; + default : begin + $display("Attribute Syntax Error : The attribute STARTUP_WAIT on DCM_SP instance %m is set to %s. Legal values for this attribute are TRUE or FALSE.", STARTUP_WAIT); + $finish; + end + endcase +end + +// +// fx parameters +// + +initial begin + gcd = 1; + for (i = 2; i <= CLKFX_MULTIPLY; i = i + 1) begin + if (((CLKFX_MULTIPLY % i) == 0) && ((CLKFX_DIVIDE % i) == 0)) + gcd = i; + end + numerator = CLKFX_MULTIPLY / gcd; + denominator = CLKFX_DIVIDE / gcd; +end + +// +// input wire delays +// + +buf b_clkin (clkin_in, CLKIN); +buf b_clkfb (clkfb_in, CLKFB); +buf b_dssen (dssen_in, DSSEN); +buf b_psclk (psclk_in, PSCLK); +buf b_psen (psen_in, PSEN); +buf b_psincdec (psincdec_in, PSINCDEC); +buf b_rst (rst_in, RST); +buf #100 b_LOCKED (LOCKED, locked_out_out); +buf #100 b_PSDONE (PSDONE, psdone_out); +buf b_ps_overflow (STATUS[0], ps_overflow_out_ext); +buf b_clkin_lost (STATUS[1], clkin_lost_out_ext); +buf b_clkfx_lost (STATUS[2], clkfx_lost_out_ext); + +assign STATUS[7:3] = 5'b0; + +dcm_sp_clock_divide_by_2 i_clock_divide_by_2 (clkin_in, clkin_type, clkin_div, rst_in); + +dcm_sp_maximum_period_check #("CLKIN", MAXPERCLKIN) i_max_clkin (clkin_in, rst_in); +dcm_sp_maximum_period_check #("PSCLK", MAXPERPSCLK) i_max_psclk (psclk_in, rst_in); + +dcm_sp_clock_lost i_clkin_lost (clkin_in, first_time_locked, clkin_lost_out, rst_in); +dcm_sp_clock_lost i_clkfx_lost (CLKFX, first_time_locked, clkfx_lost_out, rst_in); + +always @(rst_in or en_status or clkfx_lost_out or clkin_lost_out or ps_overflow_out) + if (rst_in == 1 || en_status == 0) begin + ps_overflow_out_ext = 0; + clkin_lost_out_ext = 0; + clkfx_lost_out_ext = 0; + end + else + begin + ps_overflow_out_ext = ps_overflow_out; + clkin_lost_out_ext = clkin_lost_out; + clkfx_lost_out_ext = clkfx_lost_out; + end + +always @(posedge rst_in or posedge LOCKED) + if (rst_in == 1) + en_status <= 0; + else + en_status <= 1; + + +always @(clkin_div) + clkin_ps_tmp <= #(ps_delay_md) clkin_div; + +always @(clkin_ps_tmp or clkin_ps_mkup or clkin_ps_mkup_win) + if (clkin_ps_mkup_win) + clkin_ps = clkin_ps_mkup; + else + clkin_ps = clkin_ps_tmp; + +always @(ps_delay_last or period_int or ps_delay) begin + period_int2 = 2 * period_int; + period_int3 = 3 * period_int; + if ((ps_delay_last >= period_int && ps_delay < period_int) || + (ps_delay_last >= period_int2 && ps_delay < period_int2) || + (ps_delay_last >= period_int3 && ps_delay < period_int3)) + clkin_ps_mkup_flag = 1; + else + clkin_ps_mkup_flag = 0; +end + +always @(posedge clkin_div or negedge clkin_div) begin + if (ps_type == 2'b10) begin + if ((ps_delay_last > 0 && ps_delay <= 0 ) || clkin_ps_mkup_flag == 1) begin + if (clkin_div) begin + clkin_ps_mkup_win <= 1; + clkin_ps_mkup <= 1; + #1; + @(negedge clkin_div) begin + clkin_ps_mkup_win <= 1; + clkin_ps_mkup <= 0; + end + end + else begin + clkin_ps_mkup_win <= 0; + clkin_ps_mkup <= 0; + #1; + @(posedge clkin_div) begin + clkin_ps_mkup_win <= 1; + clkin_ps_mkup <= 1; + end + @(negedge clkin_div) begin + clkin_ps_mkup_win <= 1; + clkin_ps_mkup <= 0; + end + end + end + else begin + clkin_ps_mkup_win <= 0; + clkin_ps_mkup <= 0; + end + ps_delay_last <= ps_delay; + end +end + +always @(clkin_ps or lock_fb) + clkin_fb = clkin_ps & lock_fb; + +always @(negedge clkfb_in or posedge rst_in) + if (rst_in) + clkfb_div_en <= 0; + else + if (lock_fb_dly && lock_period && lock_fb && ~clkin_ps) + clkfb_div_en <= 1; + +always @(posedge clkfb_in or posedge rst_in) + if (rst_in) + clkfb_div <= 0; + else + if (clkfb_div_en ) + clkfb_div <= ~clkfb_div; + +always @(clkfb_in or clkfb_div ) + if (clkfb_type == 2'b10 ) + clkfb_chk = clkfb_div; + else + clkfb_chk = clkfb_in & lock_fb_dly; + +always @(posedge clkin_fb or posedge chk_rst) + if (chk_rst) + clkin_chkin <= 0; + else + clkin_chkin <= 1; + +always @(posedge clkfb_chk or posedge chk_rst) + if (chk_rst) + clkfb_chkin <= 0; + else + clkfb_chkin <= 1; + + assign chk_rst = (rst_in==1 || clock_stopped==1 ) ? 1 : 0; + assign chk_enable = (clkin_chkin == 1 && clkfb_chkin == 1 && + lock_ps ==1 && lock_fb ==1 && lock_fb_dly == 1) ? 1 : 0; + +always @(posedge clkin_div or posedge rst_in) + if (rst_in) begin + period_div <= 0; + clkin_div_edge <= 0; + end + else + if ( clkin_div ==1 ) begin + clkin_div_edge <= $time; + if (($time - clkin_div_edge) <= (1.5 * period_div)) + period_div <= $time - clkin_div_edge; + else if ((period_div == 0) && (clkin_div_edge != 0)) + period_div <= $time - clkin_div_edge; + end + +always @(posedge clkin_ps or posedge rst_in) + if (rst_in) begin + period_ps <= 0; + clkin_ps_edge <= 0; + end + else + if (clkin_ps == 1 ) begin + clkin_ps_edge <= $time; + if (($time - clkin_ps_edge) <= (1.5 * period_ps)) + period_ps <= $time - clkin_ps_edge; + else if ((period_ps == 0) && (clkin_ps_edge != 0)) + period_ps <= $time - clkin_ps_edge; + end + +always @(posedge clkin_ps) begin + lock_ps <= lock_period; + lock_ps_dly <= lock_ps; + lock_fb <= lock_ps_dly; + lock_fb_dly_tmp <= lock_fb; +end + +always @(negedge clkin_ps or posedge rst_in) + if (rst_in) + lock_fb_dly <= 1'b0; + else + lock_fb_dly <= #(period/4) lock_fb_dly_tmp; + + +always @(period or fb_delay ) + if (fb_delay == 0) + clkout_delay = 0; + else + clkout_delay = period - fb_delay; + +// +// generate master reset signal +// + +always @(posedge clkin_in) begin + rst_reg[0] <= rst_in; + rst_reg[1] <= rst_reg[0] & rst_in; + rst_reg[2] <= rst_reg[1] & rst_reg[0] & rst_in; +end + +reg rst_tmp1, rst_tmp2; +initial +begin +rst_tmp1 = 0; +rst_tmp2 = 0; +rst_flag = 0; +end + +always @(rst_in) +begin + if (rst_in) + rst_flag = 0; + + rst_tmp1 = rst_in; + if (rst_tmp1 == 0 && rst_tmp2 == 1) begin + if ((rst_reg[2] & rst_reg[1] & rst_reg[0]) == 0) begin + rst_flag = 1; + $display("Input Error : RST on instance %m must be asserted for 3 CLKIN clock cycles."); + end + end + rst_tmp2 = rst_tmp1; +end + +initial begin + CLK0 = 0; + CLK180 = 0; + CLK270 = 0; + CLK2X = 0; + CLK2X180 = 0; + CLK90 = 0; + CLKDV = 0; + CLKFX = 0; + CLKFX180 = 0; + clk0_out = 0; + clk2x_out = 0; + clkdv_out = 0; + clkdv_cnt = 0; + clkfb_window = 0; + clkfx_out = 0; + clkfx180_en = 0; + clkin_div_edge = 0; + clkin_period[0] = 0; + clkin_period[1] = 0; + clkin_period[2] = 0; + clkin_edge = 0; + clkin_ps_edge = 0; + clkin_window = 0; + clkout_delay = 0; + clock_stopped = 1; + fb_delay = 0; + fb_delay_found = 0; + lock_clkfb = 0; + lock_clkin = 0; + lock_delay = 0; + lock_fb = 0; + lock_fb_dly = 0; + lock_out = 2'b00; + lock_out1_neg = 0; + lock_period = 0; + lock_ps = 0; + lock_ps_dly = 0; + locked_out = 0; + period = 0; + period_int = 0; + period_int2 = 0; + period_int3 = 0; + period_div = 0; + period_fx = 0; + period_orig = 0; + period_orig_int = 0; + period_ps = 0; + psdone_out = 0; + ps_delay = 0; + ps_delay_md = 0; + ps_delay_init = 0; + ps_acc = 0; + ps_delay_all = 0; + ps_lock = 0; + ps_overflow_out = 0; + ps_overflow_out_ext = 0; + clkin_lost_out_ext = 0; + clkfx_lost_out_ext = 0; + rst_reg = 3'b000; + first_time_locked = 0; + en_status = 0; + clkfb_div = 0; + clkin_chkin = 0; + clkfb_chkin = 0; + clkin_ps_mkup = 0; + clkin_ps_mkup_win = 0; + clkin_ps_mkup_flag = 0; + ps_delay_last = 0; + clkin_ps_tmp = 0; +end + +// RST less than 3 cycles, lock = x + + assign locked_out_out = (rst_flag) ? 1'bx : locked_out; + +// +// detect_first_time_locked +// +always @(posedge locked_out) + if (first_time_locked == 0) + first_time_locked <= 1; + +// +// phase shift parameters +// + +always @(posedge lock_period) + ps_delay_init <= ps_in * period_orig /256; + + +always @(period) begin + period_int = period; + if (clkin_type==1) + period_ps_tmp = 2 * period; + else + period_ps_tmp = period; + + if (period_ps_tmp > 3000) + ps_max_range = 20 * (period_ps_tmp - 3000)/1000; + else + ps_max_range = 0; +end + +always @(ps_delay or rst_in or period_int or lock_period) + if ( rst_in) + ps_delay_md = 0; + else if (lock_period) begin + ps_delay_md = period_int + ps_delay % period_int; + end + +always @(posedge psclk_in or posedge rst_in or posedge lock_period_pulse) + if (rst_in) begin + ps_delay <= 0; + ps_overflow_out <= 0; + ps_acc <= 0; + end + else if (lock_period_pulse) + ps_delay <= ps_delay_init; + else + if (ps_type == 2'b10) + if (psen_in) begin + if (ps_lock == 1) + $display(" Warning : Please wait for PSDONE signal before adjusting the Phase Shift."); + else if (lock_ps) begin + if (psincdec_in == 1) begin + if (ps_acc > ps_max_range) + ps_overflow_out <= 1; + else begin + ps_delay <= ps_delay + PS_STEP; + ps_acc <= ps_acc + 1; + ps_overflow_out <= 0; + end + ps_lock <= 1; + end + else if (psincdec_in == 0) begin + if (ps_acc < -ps_max_range) + ps_overflow_out <= 1; + else begin + ps_delay <= ps_delay - PS_STEP; + ps_acc <= ps_acc - 1; + ps_overflow_out <= 0; + end + ps_lock <= 1; + end + end + end + +always @(posedge ps_lock) begin + @(posedge clkin_ps) + @(posedge psclk_in) + @(posedge psclk_in) + @(posedge psclk_in) + psdone_out <= 1; + @(posedge psclk_in) + psdone_out <= 0; + ps_lock <= 0; +end + +// +// determine clock period +// + +always @(posedge clkin_div or negedge clkin_div or posedge rst_in) + if (rst_in == 1) begin + clkin_period[0] <= 0; + clkin_period[1] <= 0; + clkin_period[2] <= 0; + clkin_edge <= 0; + end + else + if (clkin_div == 1) begin + clkin_edge <= $time; + clkin_period[2] <= clkin_period[1]; + clkin_period[1] <= clkin_period[0]; + if (clkin_edge != 0) + clkin_period[0] <= $time - clkin_edge; + end + else if (clkin_div == 0) + if (lock_period == 1) + if (100000000 < clkin_period[0]/1000) + begin + end + else if ((period_orig * 2 < clkin_period[0]) && (clock_stopped == 0)) begin + clkin_period[0] <= clkin_period[1]; + end + +always @(negedge clkin_div or posedge rst_in) + if (rst_in == 1) begin + lock_period <= 0; + clock_stopped <= 1; + end + else begin + if (lock_period == 1'b0) begin + if ((clkin_period[0] != 0) && + (clkin_period[0] - cycle_jitter <= clkin_period[1]) && + (clkin_period[1] <= clkin_period[0] + cycle_jitter) && + (clkin_period[1] - cycle_jitter <= clkin_period[2]) && + (clkin_period[2] <= clkin_period[1] + cycle_jitter)) begin + lock_period <= 1; + period_orig <= (clkin_period[0] + + clkin_period[1] + + clkin_period[2]) / 3; + period <= clkin_period[0]; + end + end + else if (lock_period == 1'b1) begin + if (100000000 < (clkin_period[0] / 1000)) begin + $display(" Warning : CLKIN stopped toggling on instance %m exceeds %d ms. Current CLKIN Period = %1.3f ns.", 100, clkin_period[0] / 1000.0); + lock_period <= 0; + @(negedge rst_reg[2]); + end + else if ((period_orig * 2 < clkin_period[0]) && clock_stopped == 1'b0) begin + clock_stopped <= 1'b1; + end + else if ((clkin_period[0] < period_orig - period_jitter) || + (period_orig + period_jitter < clkin_period[0])) begin + $display(" Warning : Input Clock Period Jitter on instance %m exceeds %1.3f ns. Locked CLKIN Period = %1.3f. Current CLKIN Period = %1.3f.", period_jitter / 1000.0, period_orig / 1000.0, clkin_period[0] / 1000.0); + lock_period <= 0; + @(negedge rst_reg[2]); + end + else if ((clkin_period[0] < clkin_period[1] - cycle_jitter) || + (clkin_period[1] + cycle_jitter < clkin_period[0])) begin + $display(" Warning : Input Clock Cycle-Cycle Jitter on instance %m exceeds %1.3f ns. Previous CLKIN Period = %1.3f. Current CLKIN Period = %1.3f.", cycle_jitter / 1000.0, clkin_period[1] / 1000.0, clkin_period[0] / 1000.0); + lock_period <= 0; + @(negedge rst_reg[2]); + end + else begin + period <= clkin_period[0]; + clock_stopped <= 1'b0; + end + end +end + + assign #1 lock_period_dly1 = lock_period; + assign #(period/2) lock_period_dly = lock_period_dly1; + assign lock_period_pulse = (lock_period_dly1==1 && lock_period_dly==0) ? 1 : 0; + +// +// determine clock delay +// + +//always @(posedge lock_period or posedge rst_in) +always @(posedge lock_ps_dly or posedge rst_in) + if (rst_in) begin + fb_delay <= 0; + fb_delay_found <= 0; + end + else begin + if (lock_period && clkfb_type != 2'b00) begin + if (clkfb_type == 2'b01) begin + @(posedge CLK0 or rst_in) + delay_edge = $time; + end + else if (clkfb_type == 2'b10) begin + @(posedge CLK2X or rst_in) + delay_edge = $time; + end + @(posedge clkfb_in or rst_in) begin + fb_delay <= ($time - delay_edge) % period_orig; + fb_delay_found <= 1; + end + end + end + +// +// determine feedback lock +// + +always @(posedge clkfb_chk or posedge rst_in) + if (rst_in) + clkfb_window <= 0; + else begin + clkfb_window <= 1; + #cycle_jitter clkfb_window <= 0; + end + +always @(posedge clkin_fb or posedge rst_in) + if (rst_in) + clkin_window <= 0; + else begin + clkin_window <= 1; + #cycle_jitter clkin_window <= 0; + end + +always @(posedge clkin_fb or posedge rst_in) + if (rst_in) + lock_clkin <= 0; + else begin + #1 + if ((clkfb_window && fb_delay_found) || (clkin_lost_out == 1'b1 && lock_out[0]==1'b1)) + lock_clkin <= 1; + else + if (chk_enable==1) + lock_clkin <= 0; + end + +always @(posedge clkfb_chk or posedge rst_in) + if (rst_in) + lock_clkfb <= 0; + else begin + #1 + if ((clkin_window && fb_delay_found) || (clkin_lost_out == 1'b1 && lock_out[0]==1'b1)) + lock_clkfb <= 1; + else + if (chk_enable ==1) + lock_clkfb <= 0; + end + +always @(negedge clkin_fb or posedge rst_in) + if (rst_in) + lock_delay <= 0; + else + lock_delay <= lock_clkin || lock_clkfb; + +// +// generate lock signal +// + +always @(posedge clkin_ps or posedge rst_in) + if (rst_in) begin + lock_out <= 2'b0; + locked_out <=0; + end + else begin + if (clkfb_type == 2'b00) + lock_out[0] <= lock_period; + else + lock_out[0] <= lock_period & lock_delay & lock_fb; + lock_out[1] <= lock_out[0]; + locked_out <= lock_out[1]; + end + +always @(negedge clkin_ps or posedge rst_in) + if (rst_in) + lock_out1_neg <= 0; + else + lock_out1_neg <= lock_out[1]; + + +// +// generate the clk1x_out +// + +always @(posedge clkin_ps or negedge clkin_ps or posedge rst_in) + if (rst_in) + clk0_out <= 0; + else + if (clkin_ps ==1) + if (clk1x_type==1 && lock_out[0]) begin + clk0_out <= 1; + #(period / 2) + clk0_out <= 0; + end + else + clk0_out <= 1; + else + if (clkin_ps == 0 && ((clk1x_type && lock_out[0]) == 0 || (lock_out[0]== 1 && lock_out[1]== 0))) + clk0_out <= 0; + +// +// generate the clk2x_out +// + +always @(posedge clkin_ps or posedge rst_in) + if (rst_in) + clk2x_out <= 0; + else begin + clk2x_out <= 1; + #(period / 4) + clk2x_out <= 0; + #(period / 4) + clk2x_out <= 1; + #(period / 4) + clk2x_out <= 0; + end + +// +// generate the clkdv_out +// + +always @(posedge clkin_ps or negedge clkin_ps or posedge rst_in) + if (rst_in) begin + clkdv_out <= 1'b0; + clkdv_cnt <= 0; + end + else + if (lock_out1_neg) begin + if (clkdv_cnt >= divide_type -1) + clkdv_cnt <= 0; + else + clkdv_cnt <= clkdv_cnt + 1; + + if (clkdv_cnt < divide_type /2) + clkdv_out <= 1'b1; + else + if ( (divide_type[0] == 1'b1) && dll_mode_type == 1'b0) + clkdv_out <= #(period/4) 1'b0; + else + clkdv_out <= 1'b0; + end + + +// +// generate fx output signal +// + +always @(lock_period or period or denominator or numerator) begin + if (lock_period == 1'b1) begin + period_fx = (period * denominator) / (numerator * 2); + remain_fx = (period * denominator) % (numerator * 2); + end +end + +always @(posedge clkin_ps or posedge clkin_lost_out or posedge rst_in ) + if (rst_in == 1) + clkfx_out = 1'b0; + else if (clkin_lost_out == 1'b1 ) begin + if (locked_out == 1) + @(negedge rst_reg[2]); + end + else + if (lock_out[1] == 1) begin + clkfx_out = 1'b1; + for (p = 0; p < (numerator * 2 - 1); p = p + 1) begin + #(period_fx); + if (p < remain_fx) + #1; + clkfx_out = !clkfx_out; + end + if (period_fx > (period / 2)) begin + #(period_fx - (period / 2)); + end + end + +// +// generate all output signal +// + +always @(rst_in) +if (rst_in) begin + assign CLK0 = 0; + assign CLK90 = 0; + assign CLK180 = 0; + assign CLK270 = 0; + assign CLK2X = 0; + assign CLK2X180 =0; + assign CLKDV = 0; + assign CLKFX = 0; + assign CLKFX180 = 0; +end +else begin + deassign CLK0; + deassign CLK90; + deassign CLK180; + deassign CLK270; + deassign CLK2X; + deassign CLK2X180; + deassign CLKDV; + deassign CLKFX; + deassign CLKFX180; +end + +always @(clk0_out) begin + CLK0 <= #(clkout_delay) clk0_out && (clkfb_type != 2'b00); + CLK90 <= #(clkout_delay + period / 4) clk0_out && !dll_mode_type && (clkfb_type != 2'b00); + CLK180 <= #(clkout_delay) ~clk0_out && (clkfb_type != 2'b00); + CLK270 <= #(clkout_delay + period / 4) ~clk0_out && !dll_mode_type && (clkfb_type != 2'b00); + end + +always @(clk2x_out) begin + CLK2X <= #(clkout_delay) clk2x_out && !dll_mode_type && (clkfb_type != 2'b00); + CLK2X180 <= #(clkout_delay) ~clk2x_out && !dll_mode_type && (clkfb_type != 2'b00); +end + +always @(clkdv_out) + CLKDV <= #(clkout_delay) clkdv_out && (clkfb_type != 2'b00); + +always @(clkfx_out ) + CLKFX <= #(clkout_delay) clkfx_out; + +always @( clkfx_out or first_time_locked or locked_out) + if ( ~first_time_locked) + CLKFX180 = 0; + else + CLKFX180 <= #(clkout_delay) ~clkfx_out; + + +endmodule + +////////////////////////////////////////////////////// + +module dcm_sp_clock_divide_by_2 (clock, clock_type, clock_out, rst); +input clock; +input clock_type; +input rst; +output clock_out; + +reg clock_out; +reg clock_div2; +reg [2:0] rst_reg; +wire clk_src; + +initial begin + clock_out = 1'b0; + clock_div2 = 1'b0; +end + +always @(posedge clock) + clock_div2 <= ~clock_div2; + +always @(posedge clock) begin + rst_reg[0] <= rst; + rst_reg[1] <= rst_reg[0] & rst; + rst_reg[2] <= rst_reg[1] & rst_reg[0] & rst; +end + +assign clk_src = (clock_type) ? clock_div2 : clock; + +always @(clk_src or rst or rst_reg) + if (rst == 1'b0) + clock_out = clk_src; + else if (rst == 1'b1) begin + clock_out = 1'b0; + @(negedge rst_reg[2]); + if (clk_src == 1'b1) + @(negedge clk_src); + end + + +endmodule + +module dcm_sp_maximum_period_check (clock, rst); +parameter clock_name = ""; +parameter maximum_period = 0; +input clock; +input rst; + +time clock_edge; +time clock_period; + +initial begin + clock_edge = 0; + clock_period = 0; +end + +always @(posedge clock) begin + clock_edge <= $time; +// clock_period <= $time - clock_edge; + clock_period = $time - clock_edge; + if (clock_period > maximum_period ) begin + if (rst == 0) + $display(" Warning : Input clock period of %1.3f ns, on the %s port of instance %m exceeds allowed value of %1.3f ns at time %1.3f ns.", clock_period/1000.0, clock_name, maximum_period/1000.0, $time/1000.0); + end +end +endmodule + +module dcm_sp_clock_lost (clock, enable, lost, rst); +input clock; +input enable; +input rst; +output lost; + +time clock_edge; +reg [63:0] period; +reg clock_low, clock_high; +reg clock_posedge, clock_negedge; +reg lost_r, lost_f, lost; +reg clock_second_pos, clock_second_neg; + +initial begin + clock_edge = 0; + clock_high = 0; + clock_low = 0; + lost_r = 0; + lost_f = 0; + period = 0; + clock_posedge = 0; + clock_negedge = 0; + clock_second_pos = 0; + clock_second_neg = 0; +end + +always @(posedge clock or posedge rst) + if (rst==1) + period <= 0; + else begin + clock_edge <= $time; + if (period != 0 && (($time - clock_edge) <= (1.5 * period))) + period <= $time - clock_edge; + else if (period != 0 && (($time - clock_edge) > (1.5 * period))) + period <= 0; + else if ((period == 0) && (clock_edge != 0) && clock_second_pos == 1) + period <= $time - clock_edge; + end + + +always @(posedge clock or posedge rst) + if (rst) + lost_r <= 0; + else + if (enable == 1 && clock_second_pos == 1) begin + #1; + if ( period != 0) + lost_r <= 0; + #((period * 9.1) / 10) + if ((clock_low != 1'b1) && (clock_posedge != 1'b1) && rst == 0) + lost_r <= 1; + end + +always @(posedge clock or negedge clock or posedge rst) + if (rst) begin + clock_second_pos <= 0; + clock_second_neg <= 0; + end + else if (clock) + clock_second_pos <= 1; + else if (~clock) + clock_second_neg <= 1; + +always @(negedge clock or posedge rst) + if (rst==1) begin + lost_f <= 0; + end + else begin + if (enable == 1 && clock_second_neg == 1) begin + if ( period != 0) + lost_f <= 0; + #((period * 9.1) / 10) + if ((clock_high != 1'b1) && (clock_negedge != 1'b1) && rst == 0) + lost_f <= 1; + end + end + +always @( lost_r or lost_f or enable) +begin + if (enable == 1) + lost = lost_r | lost_f; + else + lost = 0; +end + + +always @(posedge clock or negedge clock or posedge rst) + if (rst==1) begin + clock_low <= 1'b0; + clock_high <= 1'b0; + clock_posedge <= 1'b0; + clock_negedge <= 1'b0; + end + else begin + if (clock ==1) begin + clock_low <= 1'b0; + clock_high <= 1'b1; + clock_posedge <= 1'b0; + clock_negedge <= 1'b1; + end + else if (clock == 0) begin + clock_low <= 1'b1; + clock_high <= 1'b0; + clock_posedge <= 1'b1; + clock_negedge <= 1'b0; + end +end + + +endmodule diff --git a/usrp2/models/IBUFG.v b/usrp2/models/IBUFG.v new file mode 100644 index 000000000..c21cc1dc8 --- /dev/null +++ b/usrp2/models/IBUFG.v @@ -0,0 +1,59 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/unisims/IBUFG.v,v 1.7 2007/05/23 21:43:34 patrickp Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Functional Simulation Library Component +// / / Input Clock Buffer +// /___/ /\ Filename : IBUFG.v +// \ \ / \ Timestamp : Thu Mar 25 16:42:24 PST 2004 +// \___\/\___\ +// +// Revision: +// 03/23/04 - Initial version. +// 05/23/07 - Changed timescale to 1 ps / 1 ps. + +`timescale 1 ps / 1 ps + + +module IBUFG (O, I); + + parameter CAPACITANCE = "DONT_CARE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IOSTANDARD = "DEFAULT"; + + output O; + input I; + + buf B1 (O, I); + + initial begin + + case (CAPACITANCE) + + "LOW", "NORMAL", "DONT_CARE" : ; + default : begin + $display("Attribute Syntax Error : The attribute CAPACITANCE on IBUFG instance %m is set to %s. Legal values for this attribute are DONT_CARE, LOW or NORMAL.", CAPACITANCE); + $finish; + end + + endcase + + + case (IBUF_DELAY_VALUE) + + "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16" : ; + default : begin + $display("Attribute Syntax Error : The attribute IBUF_DELAY_VALUE on IBUFG instance %m is set to %s. Legal values for this attribute are 0, 1, 2, ... or 16.", IBUF_DELAY_VALUE); + $finish; + end + + endcase + + end // initial begin + +endmodule diff --git a/usrp2/models/IBUFGDS.v b/usrp2/models/IBUFGDS.v new file mode 100644 index 000000000..01c108c8d --- /dev/null +++ b/usrp2/models/IBUFGDS.v @@ -0,0 +1,87 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/unisims/IBUFGDS.v,v 1.8 2007/07/26 23:22:55 fphillip Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Functional Simulation Library Component +// / / Differential Signaling Input Clock Buffer +// /___/ /\ Filename : IBUFGDS.v +// \ \ / \ Timestamp : Thu Mar 25 16:42:24 PST 2004 +// \___\/\___\ +// +// Revision: +// 03/23/04 - Initial version. +// 05/23/07 - Changed timescale to 1 ps / 1 ps. +// 07/26/07 - Add else to handle x case for o_out (CR 424214). +// End Revision + + +`timescale 1 ps / 1 ps + + +module IBUFGDS (O, I, IB); + + parameter CAPACITANCE = "DONT_CARE"; + parameter DIFF_TERM = "FALSE"; + parameter IBUF_DELAY_VALUE = "0"; + parameter IOSTANDARD = "DEFAULT"; + + output O; + input I, IB; + + reg o_out; + + buf b_0 (O, o_out); + + initial begin + + case (CAPACITANCE) + + "LOW", "NORMAL", "DONT_CARE" : ; + default : begin + $display("Attribute Syntax Error : The attribute CAPACITANCE on IBUFGDS instance %m is set to %s. Legal values for this attribute are DONT_CARE, LOW or NORMAL.", CAPACITANCE); + $finish; + end + + endcase + + + case (DIFF_TERM) + + "TRUE", "FALSE" : ; + default : begin + $display("Attribute Syntax Error : The attribute DIFF_TERM on IBUFGDS instance %m is set to %s. Legal values for this attribute are TRUE or FALSE.", DIFF_TERM); + $finish; + end + + endcase + + + case (IBUF_DELAY_VALUE) + + "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16" : ; + default : begin + $display("Attribute Syntax Error : The attribute IBUF_DELAY_VALUE on IBUFGDS instance %m is set to %s. Legal values for this attribute are 0, 1, 2, ... or 16.", IBUF_DELAY_VALUE); + $finish; + end + + endcase + + end + + always @(I or IB) begin + if (I == 1'b1 && IB == 1'b0) + o_out <= I; + else if (I == 1'b0 && IB == 1'b1) + o_out <= I; + else if (I == 1'bx && IB == 1'bx) + o_out <= 1'bx; + end + +endmodule + + diff --git a/usrp2/models/IDDR2.v b/usrp2/models/IDDR2.v new file mode 100644 index 000000000..727f1c568 --- /dev/null +++ b/usrp2/models/IDDR2.v @@ -0,0 +1,172 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/spartan4/IDDR2.v,v 1.1 2004/06/21 21:45:36 wloo Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Functional Simulation Library Component +// / / Dual Data Rate Input D Flip-Flop +// /___/ /\ Filename : IDDR2.v +// \ \ / \ Timestamp : Thu Mar 25 16:43:51 PST 2004 +// \___\/\___\ +// +// Revision: +// 03/23/04 - Initial version. + +`timescale 1 ps / 1 ps + +module IDDR2 (Q0, Q1, C0, C1, CE, D, R, S); + + output Q0; + output Q1; + + input C0; + input C1; + input CE; + input D; + tri0 GSR = glbl.GSR; + input R; + input S; + + parameter DDR_ALIGNMENT = "NONE"; + parameter INIT_Q0 = 1'b0; + parameter INIT_Q1 = 1'b0; + parameter SRTYPE = "SYNC"; + + reg q0_out, q1_out; + reg q0_out_int, q1_out_int; + reg q0_c1_out_int, q1_c0_out_int; + + buf buf_q0 (Q0, q0_out); + buf buf_q1 (Q1, q1_out); + + + initial begin + + if ((INIT_Q0 != 1'b0) && (INIT_Q0 != 1'b1)) begin + $display("Attribute Syntax Error : The attribute INIT_Q0 on IDDR2 instance %m is set to %d. Legal values for this attribute are 0 or 1.", INIT_Q0); + $finish; + end + + if ((INIT_Q1 != 1'b0) && (INIT_Q1 != 1'b1)) begin + $display("Attribute Syntax Error : The attribute INIT_Q0 on IDDR2 instance %m is set to %d. Legal values for this attribute are 0 or 1.", INIT_Q1); + $finish; + end + + if ((DDR_ALIGNMENT != "C1") && (DDR_ALIGNMENT != "C0") && (DDR_ALIGNMENT != "NONE")) begin + $display("Attribute Syntax Error : The attribute DDR_ALIGNMENT on IDDR2 instance %m is set to %s. Legal values for this attribute are C0, C1 or NONE.", DDR_ALIGNMENT); + $finish; + end + + if ((SRTYPE != "ASYNC") && (SRTYPE != "SYNC")) begin + $display("Attribute Syntax Error : The attribute SRTYPE on IDDR2 instance %m is set to %s. Legal values for this attribute are ASYNC or SYNC.", SRTYPE); + $finish; + end + + end // initial begin + + + always @(GSR or R or S) begin + + if (GSR == 1) begin + + assign q0_out_int = INIT_Q0; + assign q1_out_int = INIT_Q1; + assign q0_c1_out_int = INIT_Q0; + assign q1_c0_out_int = INIT_Q1; + + end + else begin + + deassign q0_out_int; + deassign q1_out_int; + deassign q0_c1_out_int; + deassign q1_c0_out_int; + + if (SRTYPE == "ASYNC") begin + if (R == 1) begin + assign q0_out_int = 0; + assign q1_out_int = 0; + assign q0_c1_out_int = 0; + assign q1_c0_out_int = 0; + end + else if (R == 0 && S == 1) begin + assign q0_out_int = 1; + assign q1_out_int = 1; + assign q0_c1_out_int = 1; + assign q1_c0_out_int = 1; + end + end // if (SRTYPE == "ASYNC") + + end // if (GSR == 1'b0) + + end // always @ (GSR or R or S) + + + always @(posedge C0) begin + if (R == 1 && SRTYPE == "SYNC") begin + q0_out_int <= 0; + q1_c0_out_int <= 0; + end + else if (R == 0 && S == 1 && SRTYPE == "SYNC") begin + q0_out_int <= 1; + q1_c0_out_int <= 1; + end + else if (CE == 1 && R == 0 && S == 0) begin + q0_out_int <= D; + q1_c0_out_int <= q1_out_int; + end + end // always @ (posedge C0) + + + always @(posedge C1) begin + if (R == 1 && SRTYPE == "SYNC") begin + q1_out_int <= 0; + q0_c1_out_int <= 0; + end + else if (R == 0 && S == 1 && SRTYPE == "SYNC") begin + q1_out_int <= 1; + q0_c1_out_int <= 1; + end + else if (CE == 1 && R == 0 && S == 0) begin + q1_out_int <= D; + q0_c1_out_int <= q0_out_int; + end + end // always @ (posedge C1) + + + always @(q0_out_int or q1_out_int or q1_c0_out_int or q0_c1_out_int) begin + + case (DDR_ALIGNMENT) + "NONE" : begin + q0_out <= q0_out_int; + q1_out <= q1_out_int; + end + "C0" : begin + q0_out <= q0_out_int; + q1_out <= q1_c0_out_int; + end + "C1" : begin + q0_out <= q0_c1_out_int; + q1_out <= q1_out_int; + end + endcase // case(DDR_ALIGNMENT) + + end // always @ (q0_out_int or q1_out_int or q1_c0_out_int or q0_c1_out_int) + + + specify + + if (C0) (C0 => Q0) = (100, 100); + if (C0) (C0 => Q1) = (100, 100); + if (C1) (C1 => Q1) = (100, 100); + if (C1) (C1 => Q0) = (100, 100); + specparam PATHPULSE$ = 0; + + endspecify + +endmodule // IDDR2 + diff --git a/usrp2/models/ODDR2.v b/usrp2/models/ODDR2.v new file mode 100644 index 000000000..67e71761d --- /dev/null +++ b/usrp2/models/ODDR2.v @@ -0,0 +1,157 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/spartan4/ODDR2.v,v 1.1 2004/06/21 21:45:36 wloo Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Functional Simulation Library Component +// / / Dual Data Rate Output D Flip-Flop +// /___/ /\ Filename : ODDR2.v +// \ \ / \ Timestamp : Thu Mar 25 16:43:52 PST 2004 +// \___\/\___\ +// +// Revision: +// 03/23/04 - Initial version. + +`timescale 1 ps / 1 ps + +module ODDR2 (Q, C0, C1, CE, D0, D1, R, S); + + output Q; + + input C0; + input C1; + input CE; + input D0; + input D1; + tri0 GSR = glbl.GSR; + input R; + input S; + + parameter DDR_ALIGNMENT = "NONE"; + parameter INIT = 1'b0; + parameter SRTYPE = "SYNC"; + + reg q_out, q_d0_c1_out_int, q_d1_c0_out_int; + + buf buf_q (Q, q_out); + + + initial begin + + if ((INIT != 1'b0) && (INIT != 1'b1)) begin + $display("Attribute Syntax Error : The attribute INIT on ODDR2 instance %m is set to %d. Legal values for this attribute are 0 or 1.", INIT); + $finish; + end + + if ((DDR_ALIGNMENT != "NONE") && (DDR_ALIGNMENT != "C0") && (DDR_ALIGNMENT != "C1")) begin + $display("Attribute Syntax Error : The attribute DDR_ALIGNMENT on ODDR2 instance %m is set to %s. Legal values for this attribute are NONE, C0 or C1.", DDR_ALIGNMENT); + $finish; + end + + if ((SRTYPE != "ASYNC") && (SRTYPE != "SYNC")) begin + $display("Attribute Syntax Error : The attribute SRTYPE on ODDR2 instance %m is set to %s. Legal values for this attribute are ASYNC or SYNC.", SRTYPE); + $finish; + end + + end // initial begin + + + always @(GSR or R or S) begin + + if (GSR == 1) begin + + assign q_out = INIT; + assign q_d0_c1_out_int = INIT; + assign q_d1_c0_out_int = INIT; + + end + else begin + + deassign q_out; + deassign q_d0_c1_out_int; + deassign q_d1_c0_out_int; + + if (SRTYPE == "ASYNC") begin + if (R == 1) begin + assign q_out = 0; + assign q_d0_c1_out_int = 0; + assign q_d1_c0_out_int = 0; + end + else if (R == 0 && S == 1) begin + assign q_out = 1; + assign q_d0_c1_out_int = 1; + assign q_d1_c0_out_int = 1; + end + end // if (SRTYPE == "ASYNC") + + end // if (GSR == 1'b0) + + end // always @ (GSR or R or S) + + + always @(posedge C0) begin + + if (R == 1 && SRTYPE == "SYNC") begin + q_out <= 0; + q_d1_c0_out_int <= 0; + end + else if (R == 0 && S == 1 && SRTYPE == "SYNC") begin + q_out <= 1; + q_d1_c0_out_int <= 1; + end + else if (CE == 1 && R == 0 && S == 0) begin + + if (DDR_ALIGNMENT == "C1") + q_out <= q_d0_c1_out_int; + else begin + q_out <= D0; + + if (DDR_ALIGNMENT == "C0") + q_d1_c0_out_int <= D1; + end + + end // if (CE == 1 && R == 0 && S == 0) + + end // always @ (posedge C0) + + + always @(posedge C1) begin + + if (R == 1 && SRTYPE == "SYNC") begin + q_out <= 0; + q_d0_c1_out_int <= 0; + end + else if (R == 0 && S == 1 && SRTYPE == "SYNC") begin + q_out <= 1; + q_d0_c1_out_int <= 1; + end + else if (CE == 1 && R == 0 && S == 0) begin + + if (DDR_ALIGNMENT == "C0") + q_out <= q_d1_c0_out_int; + else begin + q_out <= D1; + + if (DDR_ALIGNMENT == "C1") + q_d0_c1_out_int <= D0; + end + + end // if (CE == 1 && R == 0 && S == 0) + + end // always @ (negedge c_in) + + + specify + + if (C0) (C0 => Q) = (100, 100); + if (C1) (C1 => Q) = (100, 100); + specparam PATHPULSE$ = 0; + + endspecify + +endmodule // ODDR2 + diff --git a/usrp2/models/PLL_ADV.v b/usrp2/models/PLL_ADV.v new file mode 100644 index 000000000..d6a26e541 --- /dev/null +++ b/usrp2/models/PLL_ADV.v @@ -0,0 +1,2142 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/rainier/PLL_ADV.v,v 1.43.4.1 2007/12/07 01:25:16 yanx Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Function Simulation Library Component +// / / Phase Lock Loop Clock +// /___/ /\ Filename : PLL_ADV.v +// \ \ / \ Timestamp : Thu Mar 25 16:44:07 PST 2004 +// \___\/\___\ +// +// Revision: +// 03/15/05 - Initial version. +// 10/14/05 - Add REL pin. +// 11/07/05 - Add PMCD. +// 12/02/05 - Change parameter default values. Add DRP read/write. +// 12/22/05 - CR 222805 222809 fix. +// 01/03/06 - Change RST_DEASSER_CLK value to CLKIN1 and CLKFB (BT#735). +// 01/11/06 - Remove GSR from reset logic of PLL (CR 223099). +// 01/26/06 - Add reset to locked logic (CR224502). +// 02/16/06 - Support -360 6o +360 phase shifting (CR 225765) +// 03/10/06 - Add parameter type declaration (CR 226003) +// 03/17/06 - Using assign/deassign to reset pll_locked_tmp2 and reduce +// lock time by MD (CR 224502). +// 04/19/06 - Change i to i1 and i2 in clkvco_lk. (CR230260). +// 07/17/06 - Remove i2 and first 4 clkvco_lk cycle generation (CR234931). +// 08/23/06 - Use clkout_en_tmp to generate clkout_en0; Use block statement to +// reset clock stop counter and flag. (CR422250) +// 09/19/06 - md_product update (CR 424286). +// 09/27/06 - Add error check for RESET_ON_LOSS_OF_LOCK (CR 425255). +// 11/10/06 - Keep 3 digits for real in duty cycle check function. (CR 428703). +// 01/12/07 - Add CLKOUT_DESKEW_ADJUST parameters (CR 432189). +// 03/30/07 - Fix error message for CLKSEL change in RST=0 (CR 436927). +// 04/09/07 - Enhance error message for RESET_ON_LOSS_OF_LOCK (CR 437405). +// 04/10/07 - Using assign/deassign to reset signals with # delay (CR 437660). +// 05/22/07 - Add setup check for REL (438781). +// 06/04/07 - Add wire declaration to internal signal. +// 06/8/07 - Generate clkfb_tst when GSR=0; +// - Chang VCOCLK_FREQ_MAX and VCOCLK_FREQ_MIN to parameter for simprim (BT1485). +// 06/18/07 - Improve error message for VCO (CR ). Initialize DRP mem (CR ). +// - Add CLKFBIN pulse width check (BT1476). +// 06/28/07 - Initial DRP memory (CR 434042), Error message improve (CR 438250). +// 07/11/07 - change daddr_in to 5 bits (CR 443757). +// 08/02/07 - Remove numbers from CLKOUT DESKEW_ADJUST check (CR443161). +// 08/21/07 - Not check CLKIN period when PMCD mode set (445101). +// Fix DUTY_CYCLE_MAX formula in case of divider larger than O_MAX_HT_LT (CR445945). +// Add warning if phase shift over pll ability (63 vco) (CR446037). +// 09/20/07 - Seperate fb_delay and delay_edge to handle 0 fb_delay (CR448938) +// 10/23/07 - Add warnings to initial phase shift calculation (CR448965) +// 11/01/07 - Remove zero check for CLKOUTx dly register bit15-8 (CR434042) +// 12/06/07 - Add I/O buf to simprim (CR456124) +// End Revision + + +`timescale 1 ps / 1 ps +`define PLL_LOCK_TIME 7 + + +module PLL_ADV ( + CLKFBDCM, + CLKFBOUT, + CLKOUT0, + CLKOUT1, + CLKOUT2, + CLKOUT3, + CLKOUT4, + CLKOUT5, + CLKOUTDCM0, + CLKOUTDCM1, + CLKOUTDCM2, + CLKOUTDCM3, + CLKOUTDCM4, + CLKOUTDCM5, + DO, + DRDY, + LOCKED, + CLKFBIN, + CLKIN1, + CLKIN2, + CLKINSEL, + DADDR, + DCLK, + DEN, + DI, + DWE, + REL, + RST +); + +parameter BANDWIDTH = "OPTIMIZED"; +parameter CLKFBOUT_DESKEW_ADJUST = "NONE"; +parameter CLKOUT0_DESKEW_ADJUST = "NONE"; +parameter CLKOUT1_DESKEW_ADJUST = "NONE"; +parameter CLKOUT2_DESKEW_ADJUST = "NONE"; +parameter CLKOUT3_DESKEW_ADJUST = "NONE"; +parameter CLKOUT4_DESKEW_ADJUST = "NONE"; +parameter CLKOUT5_DESKEW_ADJUST = "NONE"; +parameter integer CLKFBOUT_MULT = 1; +parameter real CLKFBOUT_PHASE = 0.0; +parameter real CLKIN1_PERIOD = 0.000; +parameter real CLKIN2_PERIOD = 0.000; +parameter integer CLKOUT0_DIVIDE = 1; +parameter real CLKOUT0_DUTY_CYCLE = 0.5; +parameter real CLKOUT0_PHASE = 0.0; +parameter integer CLKOUT1_DIVIDE = 1; +parameter real CLKOUT1_DUTY_CYCLE = 0.5; +parameter real CLKOUT1_PHASE = 0.0; +parameter integer CLKOUT2_DIVIDE = 1; +parameter real CLKOUT2_DUTY_CYCLE = 0.5; +parameter real CLKOUT2_PHASE = 0.0; +parameter integer CLKOUT3_DIVIDE = 1; +parameter real CLKOUT3_DUTY_CYCLE = 0.5; +parameter real CLKOUT3_PHASE = 0.0; +parameter integer CLKOUT4_DIVIDE = 1; +parameter real CLKOUT4_DUTY_CYCLE = 0.5; +parameter real CLKOUT4_PHASE = 0.0; +parameter integer CLKOUT5_DIVIDE = 1; +parameter real CLKOUT5_DUTY_CYCLE = 0.5; +parameter real CLKOUT5_PHASE = 0.0; +parameter COMPENSATION = "SYSTEM_SYNCHRONOUS"; +parameter integer DIVCLK_DIVIDE = 1; +parameter EN_REL = "FALSE"; +parameter PLL_PMCD_MODE = "FALSE"; +parameter real REF_JITTER = 0.100; +parameter RESET_ON_LOSS_OF_LOCK = "FALSE"; +parameter RST_DEASSERT_CLK = "CLKIN1"; + +localparam VCOCLK_FREQ_MAX = 1100; +localparam VCOCLK_FREQ_MIN = 400; + +output CLKFBDCM; +output CLKFBOUT; +output CLKOUT0; +output CLKOUT1; +output CLKOUT2; +output CLKOUT3; +output CLKOUT4; +output CLKOUT5; +output CLKOUTDCM0; +output CLKOUTDCM1; +output CLKOUTDCM2; +output CLKOUTDCM3; +output CLKOUTDCM4; +output CLKOUTDCM5; +output DRDY; +output LOCKED; +output [15:0] DO; + +input CLKFBIN; +input CLKIN1; +input CLKIN2; +input CLKINSEL; +input DCLK; +input DEN; +input DWE; +input REL; +input RST; +input [15:0] DI; +input [4:0] DADDR; + +localparam VCOCLK_FREQ_TARGET = 800; +localparam CLKIN_FREQ_MAX = 1000; +localparam CLKIN_FREQ_MIN = 1; //need check speed file, current is TBD +localparam CLKPFD_FREQ_MAX = 550; +localparam CLKPFD_FREQ_MIN = 1; //need check speed file, current is TBD +localparam M_MIN = 1; +localparam M_MAX = 74; +localparam D_MIN = 1; +localparam D_MAX = 52; +localparam O_MIN = 1; +localparam O_MAX = 128; +localparam O_MAX_HT_LT = 64; +localparam REF_CLK_JITTER_MAX = 350; +localparam REF_CLK_JITTER_SCALE = 0.1; +localparam MAX_FEEDBACK_DELAY = 10.0; +localparam MAX_FEEDBACK_DELAY_SCALE = 1.0; + +tri0 GSR = glbl.GSR; + +reg [4:0] daddr_lat; +reg valid_daddr; +reg drdy_out; +reg drp_lock, drp_lock1; +reg [15:0] dr_sram [31:0]; +reg [160:0] tmp_string; + +wire CLKFBIN, CLKIN1, CLKIN2, CLKINSEL ; +wire rst_in, RST, orig_rst_in ; +wire locked_out; +wire clkvco_lk_rst; + +reg clk0_out, clk1_out, clk2_out, clk3_out, clk4_out, clk5_out; +reg clkfb_out, clkfbm1_out; +reg clkout_en, clkout_en1, clkout_en0, clkout_en0_tmp; +integer clkout_cnt, clkin_cnt, clkin_lock_cnt; +integer clkout_en_time, locked_en_time, lock_cnt_max; +reg clkvco_lk, clkvco_free, clkvco; +reg fbclk_tmp; + +reg rst_in1, rst_unlock, rst_on_loss; +time rst_edge, rst_ht; + +reg fb_delay_found, fb_delay_found_tmp; +reg clkfb_tst; +real fb_delay_max; +time fb_delay, clkvco_delay, val_tmp, dly_tmp, fbm1_comp_delay; +time clkin_edge, delay_edge; + +real period_clkin; +integer clkin_period [4:0]; +integer period_vco, period_vco_half, period_vco_max, period_vco_min; +integer period_vco1, period_vco2, period_vco3, period_vco4; +integer period_vco5, period_vco6, period_vco7; +integer period_vco_target, period_vco_target_half; +integer period_fb, period_avg; + +real clkvco_freq_init_chk, clkfbm1pm_rl; +real tmp_real; +integer i, j, i1, i2; +integer md_product, md_product_dbl, clkin_stop_max, clkfb_stop_max; + +time pll_locked_delay, clkin_dly_t, clkfb_dly_t; +reg clkpll_dly, clkfbin_dly; +wire pll_unlock; +reg pll_locked_tmp1, pll_locked_tmp2; +reg lock_period; +reg pll_locked_tm, unlock_recover; +reg clkin_stopped_p, clkin_stopped_n; +reg clkfb_stopped_p, clkfb_stopped_n; +wire clkin_stopped, clkfb_stopped; +reg clkpll_jitter_unlock; +integer clkstop_cnt_p, clkstop_cnt_n, clkfbstop_cnt_p, clkfbstop_cnt_n; +integer clkin_jit, REF_CLK_JITTER_MAX_tmp; + +wire REL, DWE, DEN, DCLK, rel_o_mux_clk_tmp, clka1_in, clkb1_in; +wire init_trig, clkpll_tmp, clkpll, clk0in, clk1in, clk2in, clk3in, clk4in, clk5in; +wire clkfbm1in, clkfbm1ps_en; + + +reg clkout0_out; +reg clkout1_out; +reg clkout2_out; +reg clkout3_out; +reg clkout4_out; +reg clkout5_out; + +reg clka1_out, clkb1_out, clka1d2_out, clka1d4_out, clka1d8_out; +reg clkdiv_rel_rst, qrel_o_reg1, qrel_o_reg2, qrel_o_reg3, rel_o_mux_sel; +reg pmcd_mode; +reg chk_ok; + +wire rel_rst_o, rel_o_mux_clk; +wire clk0ps_en, clk1ps_en, clk2ps_en, clk3ps_en, clk4ps_en, clk5ps_en; + +reg [7:0] clkout_mux; +reg [2:0] clk0pm_sel, clk1pm_sel, clk2pm_sel, clk3pm_sel, clk4pm_sel, clk5pm_sel; +reg [2:0] clkfbm1pm_sel; +reg clk0_edge, clk1_edge, clk2_edge, clk3_edge, clk4_edge, clk5_edge; +reg clkfbm1_edge, clkind_edge; +reg clk0_nocnt, clk1_nocnt, clk2_nocnt, clk3_nocnt, clk4_nocnt, clk5_nocnt; +reg clkfbm1_nocnt, clkind_nocnt; +reg clkind_edget, clkind_nocntt; +reg [5:0] clk0_dly_cnt, clkout0_dly; +reg [5:0] clk1_dly_cnt, clkout1_dly; +reg [5:0] clk2_dly_cnt, clkout2_dly; +reg [5:0] clk3_dly_cnt, clkout3_dly; +reg [5:0] clk4_dly_cnt, clkout4_dly; +reg [5:0] clk5_dly_cnt, clkout5_dly; +reg [6:0] clk0_ht, clk0_lt; +reg [6:0] clk1_ht, clk1_lt; +reg [6:0] clk2_ht, clk2_lt; +reg [6:0] clk3_ht, clk3_lt; +reg [6:0] clk4_ht, clk4_lt; +reg [6:0] clk5_ht, clk5_lt; +reg [5:0] clkfbm1_dly_cnt, clkfbm1_dly; +reg [6:0] clkfbm1_ht, clkfbm1_lt; +reg [7:0] clkind_ht, clkind_lt; +reg [7:0] clkind_htt, clkind_ltt; +reg [7:0] clk0_ht1, clk0_cnt, clk0_div, clk0_div1; +reg [7:0] clk1_ht1, clk1_cnt, clk1_div, clk1_div1; +reg [7:0] clk2_ht1, clk2_cnt, clk2_div, clk2_div1; +reg [7:0] clk3_ht1, clk3_cnt, clk3_div, clk3_div1; +reg [7:0] clk4_ht1, clk4_cnt, clk4_div, clk4_div1; +reg [7:0] clk5_ht1, clk5_cnt, clk5_div, clk5_div1; +reg [7:0] clkfbm1_ht1, clkfbm1_cnt, clkfbm1_div, clkfbm1_div1; +reg [7:0] clkind_div; +reg [3:0] pll_cp, pll_res; +reg [1:0] pll_lfhf; +reg [1:0] pll_cpres = 2'b01; + +reg notifier; +wire [15:0] do_out, di_in; +wire clkin1_in, clkin2_in, clkfb_in, clkinsel_in, dwe_in, den_in, dclk_in; +wire [4:0] daddr_in; +wire rel_in, gsr_in, rst_input; + + assign #100 LOCKED = locked_out; + assign #100 DRDY = drdy_out; + assign #100 DO = do_out; + assign clkin1_in = CLKIN1; + assign clkin2_in = CLKIN2; + assign clkfb_in = CLKFBIN; + assign clkinsel_in = CLKINSEL; + assign rst_input = RST; + assign daddr_in = DADDR; + assign di_in = DI; + assign dwe_in = DWE; + assign den_in = DEN; + assign dclk_in = DCLK; + assign rel_in = REL; + + + +initial begin + #1; + if ($realtime == 0) begin + $display ("Simulator Resolution Error : Simulator resolution is set to a value greater than 1 ps."); + $display ("In order to simulate the PLL_ADV, the simulator resolution must be set to 1ps or smaller."); + $finish; + end +end + +initial begin + + case (COMPENSATION) + "SYSTEM_SYNCHRONOUS" : ; + "SOURCE_SYNCHRONOUS" : ; + "INTERNAL" : ; + "EXTERNAL" : ; + "DCM2PLL" : ; + "PLL2DCM" : ; + default : begin + $display("Attribute Syntax Error : The Attribute COMPENSATION on PLL_ADV instance %m is set to %s. Legal values for this attribute are SYSTEM_SYNCHRONOUS, SOURCE_SYNCHRONOUS, INTERNAL, EXTERNAL, DCM2PLL or PLL2DCM.", COMPENSATION); + $finish; + end + endcase + + case (BANDWIDTH) + "HIGH" : ; + "LOW" : ; + "OPTIMIZED" : ; + default : begin + $display("Attribute Syntax Error : The Attribute BANDWIDTH on PLL_ADV instance %m is set to %s. Legal values for this attribute are HIGH, LOW or OPTIMIZED.", BANDWIDTH); + $finish; + end + endcase + + case (CLKOUT0_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT0_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKOUT0_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKOUT1_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT1_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC .", CLKOUT1_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKOUT2_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT2_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKOUT2_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKOUT3_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT3_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKOUT3_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKOUT4_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT4_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKOUT4_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKOUT5_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKOUT5_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKOUT5_DESKEW_ADJUST); + $finish; + end + endcase + + case (CLKFBOUT_DESKEW_ADJUST) + "NONE" : ; + "PPC" : ; + default : begin + $display("Attribute Syntax Error : The Attribute CLKFBOUT_DESKEW_ADJUST on PLL_ADV instance %m is set to %s. Legal values for this attribute are NONE or PPC.", CLKFBOUT_DESKEW_ADJUST); + $finish; + end + endcase + + + case (PLL_PMCD_MODE) + "TRUE" : pmcd_mode = 1'b1; + "FALSE" : pmcd_mode = 1'b0; + default : begin + $display("Attribute Syntax Error : The Attribute PLL_PMCD_MODE on PLL_ADV instance %m is set to %s. Legal values for this attribute are FALSE or TRUE.", PLL_PMCD_MODE); + $finish; + end + endcase + + tmp_string = "CLKOUT0_DIVIDE"; + chk_ok = para_int_pmcd_chk(CLKOUT0_DIVIDE, tmp_string, 1, 128, pmcd_mode, 8); + tmp_string = "CLKOUT0_PHASE"; + chk_ok = para_real_pmcd_chk(CLKOUT0_PHASE, tmp_string, -360.0, 360.0, pmcd_mode, 0.0); + tmp_string = "CLKOUT0_DUTY_CYCLE"; + chk_ok = para_real_pmcd_chk(CLKOUT0_DUTY_CYCLE, tmp_string, 0.0, 1.0, pmcd_mode, 0.5); + + tmp_string = "CLKOUT1_DIVIDE"; + chk_ok = para_int_pmcd_chk(CLKOUT1_DIVIDE, tmp_string, 1, 128, pmcd_mode, 4); + tmp_string = "CLKOUT1_PHASE"; + chk_ok = para_real_pmcd_chk(CLKOUT1_PHASE, tmp_string, -360.0, 360.0, pmcd_mode, 0.0); + tmp_string = "CLKOUT1_DUTY_CYCLE"; + chk_ok = para_real_pmcd_chk(CLKOUT1_DUTY_CYCLE, tmp_string, 0.0, 1.0, pmcd_mode, 0.5); + + tmp_string = "CLKOUT2_DIVIDE"; + chk_ok = para_int_pmcd_chk(CLKOUT2_DIVIDE, tmp_string, 1, 128, pmcd_mode, 2); + tmp_string = "CLKOUT2_PHASE"; + chk_ok = para_real_pmcd_chk(CLKOUT2_PHASE, tmp_string, -360.0, 360.0, pmcd_mode, 0.0); + tmp_string = "CLKOUT2_DUTY_CYCLE"; + chk_ok = para_real_pmcd_chk(CLKOUT2_DUTY_CYCLE, tmp_string, 0.0, 1.0, pmcd_mode, 0.5); + + tmp_string = "CLKOUT3_DIVIDE"; + chk_ok = para_int_pmcd_chk(CLKOUT3_DIVIDE, tmp_string, 1, 128, pmcd_mode, 1); + tmp_string = "CLKOUT3_PHASE"; + chk_ok = para_real_pmcd_chk(CLKOUT3_PHASE, tmp_string, -360.0, 360.0, pmcd_mode, 0.0); + tmp_string = "CLKOUT3_DUTY_CYCLE"; + chk_ok = para_real_pmcd_chk(CLKOUT3_DUTY_CYCLE, tmp_string, 0.0, 1.0, pmcd_mode, 0.5); + + tmp_string = "CLKOUT4_DIVIDE"; + chk_ok = para_int_range_chk(CLKOUT4_DIVIDE, tmp_string, 1, 128); + tmp_string = "CLKOUT4_PHASE"; + chk_ok = para_real_range_chk(CLKOUT4_PHASE, tmp_string, -360.0, 360.0); + tmp_string = "CLKOUT4_DUTY_CYCLE"; + chk_ok = para_real_range_chk(CLKOUT4_DUTY_CYCLE, tmp_string, 0.0, 1.0); + + tmp_string = "CLKOUT5_DIVIDE"; + chk_ok = para_int_range_chk (CLKOUT5_DIVIDE, tmp_string, 1, 128); + tmp_string = "CLKOUT5_PHASE"; + chk_ok = para_real_range_chk(CLKOUT5_PHASE, tmp_string, -360.0, 360.0); + tmp_string = "CLKOUT5_DUTY_CYCLE"; + chk_ok = para_real_range_chk (CLKOUT5_DUTY_CYCLE, tmp_string, 0.0, 1.0); + + tmp_string = "CLKFBOUT_MULT"; + chk_ok = para_int_pmcd_chk(CLKFBOUT_MULT, tmp_string, 1, 74, pmcd_mode, 1); + tmp_string = "CLKFBOUT_PHASE"; + chk_ok = para_real_pmcd_chk(CLKFBOUT_PHASE, tmp_string, -360.0, 360.0, pmcd_mode, 0.0); + tmp_string = "DIVCLK_DIVIDE"; + chk_ok = para_int_range_chk (DIVCLK_DIVIDE, tmp_string, 1, 52); + + tmp_string = "REF_JITTER"; + chk_ok = para_real_range_chk (REF_JITTER, tmp_string, 0.0, 0.999); + if (((CLKIN1_PERIOD < 1.0) || (CLKIN1_PERIOD > 52.630)) && (pmcd_mode == 0)) begin + $display("Attribute Syntax Error : CLKIN1_PERIOD is not in range 1.0 ... 52.630."); + end + + if (((CLKIN2_PERIOD < 1.0) || (CLKIN2_PERIOD > 52.630)) && (pmcd_mode == 0)) begin + $display("Attribute Syntax Error : CLKIN1_PERIOD is not in range 1.0 ... 52.630."); + end + + + case (RESET_ON_LOSS_OF_LOCK) + "FALSE" : rst_on_loss = 1'b0; +// "TRUE" : if (pmcd_mode) rst_on_loss = 1'b0; else rst_on_loss = 1'b1; + default : begin + $display("Attribute Syntax Error : The Attribute RESET_ON_LOSS_OF_LOCK on PLL_ADV instance %m is set to %s. This attribute must always be set to FALSE for X_PLL_ADV to function correctly. Please correct the setting for the attribute and re-run the simulation.", RESET_ON_LOSS_OF_LOCK); + $finish; + end + endcase + + case (CLKFBOUT_MULT) + 1 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1101; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b0101; pll_res = 4'b1111; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b0101; pll_res = 4'b1111; pll_lfhf = 2'b11; end + 2 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1111; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b1111; pll_lfhf = 2'b11; end + 3 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b0111; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b0110; pll_res = 4'b0101; pll_lfhf = 2'b11; end + 4 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1101; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b0111; pll_res = 4'b1001; pll_lfhf = 2'b11; end + 5 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b0101; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1101; pll_res = 4'b1001; pll_lfhf = 2'b11; end + 6 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b0101; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b0111; pll_res = 4'b0001; pll_lfhf = 2'b11; end + 7 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1001; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0001; pll_lfhf = 2'b11; end + 8 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b1110; pll_lfhf = 2'b11; end + 9 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b0001; pll_lfhf = 2'b11; end + 10 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b0001; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b0001; pll_lfhf = 2'b11; end + 11 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b0001; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1101; pll_res = 4'b0110; pll_lfhf = 2'b11; end + 12 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b0110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b0110; pll_lfhf = 2'b11; end + 13 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b0110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b0110; pll_lfhf = 2'b11; end + 14 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b0110; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b0110; pll_lfhf = 2'b11; end + 15 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH === "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b1010; pll_lfhf = 2'b11; end + 16 : if (BANDWIDTH === "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b1010; pll_lfhf = 2'b11; end + 17 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + 18 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + 19 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + 20 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 21 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 22 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1101; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1101; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 23 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1101; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1101; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 24 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1101; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0111; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 25 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 26 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 27 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1111; pll_res = 4'b1100; pll_lfhf = 2'b11; end + 28 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 29 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 30 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0001; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1110; pll_res = 4'b1100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 31 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 32 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b1100; pll_res = 4'b0010; pll_lfhf = 2'b11; end + 33 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b1111; pll_res = 4'b1010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 34 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0111; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 35 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0111; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 36 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0111; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 37 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0110; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 38 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0110; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 39 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 40 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 41 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 42 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 43 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 44 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0100; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 45 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 46 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 47 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0101; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 48 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0101; pll_res = 4'b0010; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 49 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 50 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 51 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 52 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 53 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 54 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 55 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 56 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0011; pll_res = 4'b0100; pll_lfhf = 2'b11; end + 57 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 58 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 59 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 60 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 61 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 62 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 63 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + 64 : if (BANDWIDTH == "LOW") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "HIGH") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + else if (BANDWIDTH == "OPTIMIZED") begin pll_cp = 4'b0010; pll_res = 4'b1000; pll_lfhf = 2'b11; end + endcase + + + tmp_string = "DIVCLK_DIVIDE"; + chk_ok = para_int_range_chk (DIVCLK_DIVIDE, tmp_string, D_MIN, D_MAX); + + tmp_string = "CLKFBOUT_MULT"; + chk_ok = para_int_range_chk (CLKFBOUT_MULT, tmp_string, M_MIN, M_MAX); + + tmp_string = "CLKOUT0_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT0_DIVIDE, CLKOUT0_DUTY_CYCLE, tmp_string); + tmp_string = "CLKOUT1_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT1_DIVIDE, CLKOUT1_DUTY_CYCLE, tmp_string); + tmp_string = "CLKOUT2_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT2_DIVIDE, CLKOUT2_DUTY_CYCLE, tmp_string); + tmp_string = "CLKOUT3_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT3_DIVIDE, CLKOUT3_DUTY_CYCLE, tmp_string); + tmp_string = "CLKOUT4_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT4_DIVIDE, CLKOUT4_DUTY_CYCLE, tmp_string); + tmp_string = "CLKOUT5_DUTY_CYCLE"; + chk_ok = clkout_duty_chk (CLKOUT5_DIVIDE, CLKOUT5_DUTY_CYCLE, tmp_string); + + period_vco_max = 1000000 / VCOCLK_FREQ_MIN; + period_vco_min = 1000000 / VCOCLK_FREQ_MAX; + period_vco_target = 1000000 / VCOCLK_FREQ_TARGET; + period_vco_target_half = period_vco_target / 2; + fb_delay_max = MAX_FEEDBACK_DELAY * MAX_FEEDBACK_DELAY_SCALE; + md_product = CLKFBOUT_MULT * DIVCLK_DIVIDE; + md_product_dbl = md_product * 2; + clkout_en_time = `PLL_LOCK_TIME + 2; +// locked_en_time = md_product_dbl + clkout_en_time +2; // for DCM 3 cycle reset requirement + locked_en_time = md_product + clkout_en_time + 2; // for DCM 3 cycle reset requirement + lock_cnt_max = locked_en_time + 6; + clkfb_stop_max = 3; + clkin_stop_max = DIVCLK_DIVIDE + 1; + REF_CLK_JITTER_MAX_tmp = REF_CLK_JITTER_MAX; + + clk_out_para_cal (clk0_ht, clk0_lt, clk0_nocnt, clk0_edge, CLKOUT0_DIVIDE, CLKOUT0_DUTY_CYCLE); + clk_out_para_cal (clk1_ht, clk1_lt, clk1_nocnt, clk1_edge, CLKOUT1_DIVIDE, CLKOUT1_DUTY_CYCLE); + clk_out_para_cal (clk2_ht, clk2_lt, clk2_nocnt, clk2_edge, CLKOUT2_DIVIDE, CLKOUT2_DUTY_CYCLE); + clk_out_para_cal (clk3_ht, clk3_lt, clk3_nocnt, clk3_edge, CLKOUT3_DIVIDE, CLKOUT3_DUTY_CYCLE); + clk_out_para_cal (clk4_ht, clk4_lt, clk4_nocnt, clk4_edge, CLKOUT4_DIVIDE, CLKOUT4_DUTY_CYCLE); + clk_out_para_cal (clk5_ht, clk5_lt, clk5_nocnt, clk5_edge, CLKOUT5_DIVIDE, CLKOUT5_DUTY_CYCLE); + clk_out_para_cal (clkfbm1_ht, clkfbm1_lt, clkfbm1_nocnt, clkfbm1_edge, CLKFBOUT_MULT, 0.50); + clk_out_para_cal (clkind_ht, clkind_lt, clkind_nocnt, clkind_edge, DIVCLK_DIVIDE, 0.50); + tmp_string = "CLKOUT0_PHASE"; + clkout_dly_cal (clkout0_dly, clk0pm_sel, CLKOUT0_DIVIDE, CLKOUT0_PHASE, tmp_string); + tmp_string = "CLKOUT1_PHASE"; + clkout_dly_cal (clkout1_dly, clk1pm_sel, CLKOUT1_DIVIDE, CLKOUT1_PHASE, tmp_string); + tmp_string = "CLKOUT2_PHASE"; + clkout_dly_cal (clkout2_dly, clk2pm_sel, CLKOUT2_DIVIDE, CLKOUT2_PHASE, tmp_string); + tmp_string = "CLKOUT3_PHASE"; + clkout_dly_cal (clkout3_dly, clk3pm_sel, CLKOUT3_DIVIDE, CLKOUT3_PHASE, tmp_string); + tmp_string = "CLKOUT4_PHASE"; + clkout_dly_cal (clkout4_dly, clk4pm_sel, CLKOUT4_DIVIDE, CLKOUT4_PHASE, tmp_string); + tmp_string = "CLKOUT5_PHASE"; + clkout_dly_cal (clkout5_dly, clk5pm_sel, CLKOUT5_DIVIDE, CLKOUT5_PHASE, tmp_string); + tmp_string = "CLKFBOUT_PHASE"; + clkout_dly_cal (clkfbm1_dly, clkfbm1pm_sel, CLKFBOUT_MULT, CLKFBOUT_PHASE, tmp_string); + + clkind_div = DIVCLK_DIVIDE; + + dr_sram[5'b11100] = {8'bx, clk0_edge, clk0_nocnt, clkout0_dly[5:0]}; + dr_sram[5'b11011] = {clk0pm_sel[2:0], 1'b1, clk0_ht[5:0], clk0_lt[5:0]}; + dr_sram[5'b11010] = {8'bx, clk1_edge, clk1_nocnt, clkout1_dly[5:0]}; + dr_sram[5'b11001] = {clk1pm_sel[2:0], 1'b1, clk1_ht[5:0], clk1_lt[5:0]}; + dr_sram[5'b10111] = {8'bx, clk2_edge, clk2_nocnt, clkout2_dly[5:0]}; + dr_sram[5'b10110] = {clk2pm_sel[2:0], 1'b1, clk2_ht[5:0], clk2_lt[5:0]}; + dr_sram[5'b10101] = {8'bx, clk3_edge, clk3_nocnt, clkout3_dly[5:0]}; + dr_sram[5'b10100] = {clk3pm_sel[2:0], 1'b1, clk3_ht[5:0], clk3_lt[5:0]}; + dr_sram[5'b10011] = {8'bx, clk4_edge, clk4_nocnt, clkout4_dly[5:0]}; + dr_sram[5'b10010] = {clk4pm_sel[2:0], 1'b1, clk4_ht[5:0], clk4_lt[5:0]}; + dr_sram[5'b01111] = {8'bx, clk5_edge, clk5_nocnt, clkout5_dly[5:0]}; + dr_sram[5'b01110] = {clk5pm_sel[2:0], 1'b1, clk5_ht[5:0], clk5_lt[5:0]}; + dr_sram[5'b01101] = {8'bx, clkfbm1_edge, clkfbm1_nocnt, clkfbm1_dly[5:0]}; + dr_sram[5'b01100] = {clkfbm1pm_sel[2:0], 1'b1, clkfbm1_ht[5:0], clkfbm1_lt[5:0]}; + dr_sram[5'b00110] = {2'bx, clkind_edge, clkind_nocnt, clkind_ht[5:0], clkind_lt[5:0]}; + dr_sram[5'b00001] = {8'bx, pll_lfhf, pll_cpres, pll_cp}; + dr_sram[5'b00000] = {6'bx, pll_res, 6'bx}; + + +// **** PMCD ******* + +//*** Clocks MUX + + case (RST_DEASSERT_CLK) + "CLKIN1" : rel_o_mux_sel = 1'b1; + "CLKFBIN" : rel_o_mux_sel = 1'b0; + default : begin + $display("Attribute Syntax Error : The attribute RST_DEASSERT_CLK on PLL_ADV instance %m is set to %s. Legal values for this attribute are CLKIN1 and CLKFBIN.", RST_DEASSERT_CLK); + $finish; + end + endcase + +//*** CLKDIV_RST + case (EN_REL) + "FALSE" : clkdiv_rel_rst = 1'b0; + "TRUE" : clkdiv_rel_rst = 1'b1; + default : begin + $display("Attribute Syntax Error : The attribute EN_REL on PLL_ADV instance %m is set to %s. Legal values for this attribute are TRUE or FALSE.", EN_REL); + $finish; + end + endcase + + +end + +initial begin + rst_in1 = 0; + rst_unlock = 0; + clkin_period[0] = 0; + clkin_period[1] = 0; + clkin_period[2] = 0; + clkin_period[3] = 0; + clkin_period[4] = 0; + period_avg = 0; + period_fb = 0; + fb_delay = 0; + clkfbm1_div = 1; + clkfbm1_div1 = 0; + clkvco_delay = 0; + fbm1_comp_delay = 0; + clkfbm1pm_rl = 0; + period_vco = 0; + period_vco1 = 0; + period_vco2 = 0; + period_vco3 = 0; + period_vco4 = 0; + period_vco5 = 0; + period_vco6 = 0; + period_vco7 = 0; + period_vco_half = 0; + fb_delay_found = 0; + fb_delay_found_tmp = 0; + clkin_edge = 0; + delay_edge = 0; + clkvco_free = 0; + clkvco_lk = 0; + fbclk_tmp = 0; + clkfb_tst = 0; + clkout_cnt = 0; + clkout_en = 0; + clkout_en0 = 0; + clkout_en0_tmp = 0; + clkout_en1 = 0; + pll_locked_tmp1 = 0; + pll_locked_tmp2 = 0; + pll_locked_tm = 0; + pll_locked_delay = 0; + clkout_mux = 3'b0; + unlock_recover = 0; + clkstop_cnt_p = 0; + clkstop_cnt_n = 0; + clkpll_jitter_unlock = 0; + clkin_jit = 0; + clkin_cnt = 0; + clkin_lock_cnt = 0; + clkin_stopped_p = 0; + clkin_stopped_n = 0; + clkfb_stopped_p = 0; + clkfb_stopped_n = 0; + clkpll_dly = 0; + clkfbin_dly = 0; + clkfbstop_cnt_p = 0; + clkfbstop_cnt_n = 0; + lock_period = 0; + rst_edge = 0; + rst_ht = 0; + drdy_out = 0; + drp_lock = 0; + clkout0_out = 0; + clkout1_out = 0; + clkout2_out = 0; + clkout3_out = 0; + clkout4_out = 0; + clkout5_out = 0; + clka1_out = 1'b0; + clkb1_out = 1'b0; + clka1d2_out = 1'b0; + clka1d4_out = 1'b0; + clka1d8_out = 1'b0; + qrel_o_reg1 = 1'b0; + qrel_o_reg2 = 1'b0; + qrel_o_reg3 = 1'b0; + clk0_dly_cnt = 6'b0; + clk1_dly_cnt = 6'b0; + clk2_dly_cnt = 6'b0; + clk3_dly_cnt = 6'b0; + clk4_dly_cnt = 6'b0; + clk5_dly_cnt = 6'b0; + clkfbm1_dly_cnt = 6'b0; + clk0_cnt = 8'b0; + clk1_cnt = 8'b0; + clk2_cnt = 8'b0; + clk3_cnt = 8'b0; + clk4_cnt = 8'b0; + clk5_cnt = 8'b0; + clkfbm1_cnt = 8'b0; + clk0_out = 0; + clk1_out = 0; + clk2_out = 0; + clk3_out = 0; + clk4_out = 0; + clk5_out = 0; + clkfb_out = 0; + clkfbm1_out = 0; +end + +// PMCD function + +//*** asyn RST + always @(orig_rst_in) + if (orig_rst_in == 1'b1) begin + assign qrel_o_reg1 = 1'b1; + assign qrel_o_reg2 = 1'b1; + assign qrel_o_reg3 = 1'b1; + end + else if (orig_rst_in == 1'b0) begin + deassign qrel_o_reg1; + deassign qrel_o_reg2; + deassign qrel_o_reg3; + end + +//*** Clocks MUX + + assign rel_o_mux_clk_tmp = rel_o_mux_sel ? clkin1_in : clkfb_in; + assign rel_o_mux_clk = (pmcd_mode) ? rel_o_mux_clk_tmp : 0; + assign clka1_in = (pmcd_mode) ? clkin1_in : 0; + assign clkb1_in = (pmcd_mode) ? clkfb_in : 0; + + +//*** Rel and Rst + always @(posedge rel_o_mux_clk) + qrel_o_reg1 <= 1'b0; + + always @(negedge rel_o_mux_clk) + qrel_o_reg2 <= qrel_o_reg1; + + always @(posedge rel_in) + qrel_o_reg3 <= 1'b0; + + assign rel_rst_o = clkdiv_rel_rst ? (qrel_o_reg3 || qrel_o_reg1) : qrel_o_reg1; + +//*** CLKA + always @(clka1_in or qrel_o_reg2) + if (qrel_o_reg2 == 1'b1) + clka1_out <= 1'b0; + else if (qrel_o_reg2 == 1'b0) + clka1_out <= clka1_in; + +//*** CLKB + always @(clkb1_in or qrel_o_reg2) + if (qrel_o_reg2 == 1'b1) + clkb1_out <= 1'b0; + else if (qrel_o_reg2 == 1'b0) + clkb1_out <= clkb1_in; + + +//*** Clock divider + always @(posedge clka1_in or posedge rel_rst_o) + if (rel_rst_o == 1'b1) + clka1d2_out <= 1'b0; + else if (rel_rst_o == 1'b0) + clka1d2_out <= ~clka1d2_out; + + always @(posedge clka1d2_out or posedge rel_rst_o) + if (rel_rst_o == 1'b1) + clka1d4_out <= 1'b0; + else if (rel_rst_o == 1'b0) + clka1d4_out <= ~clka1d4_out; + + always @(posedge clka1d4_out or posedge rel_rst_o) + if (rel_rst_o == 1'b1) + clka1d8_out <= 1'b0; + else if (rel_rst_o == 1'b0) + clka1d8_out <= ~clka1d8_out; + + assign CLKOUT5 = (pmcd_mode) ? 0 : clkout5_out; + assign CLKOUT4 = (pmcd_mode) ? 0 : clkout4_out; + assign CLKOUT3 = (pmcd_mode) ? clka1_out : clkout3_out; + assign CLKOUT2 = (pmcd_mode) ? clka1d2_out : clkout2_out; + assign CLKOUT1 = (pmcd_mode) ? clka1d4_out : clkout1_out; + assign CLKOUT0 = (pmcd_mode) ? clka1d8_out : clkout0_out; + assign CLKFBOUT = (pmcd_mode) ? clkb1_out : clkfb_out; + assign CLKOUTDCM5 = (pmcd_mode) ? 0 : clkout5_out; + assign CLKOUTDCM4 = (pmcd_mode) ? 0 : clkout4_out; + assign CLKOUTDCM3 = (pmcd_mode) ? clka1_out : clkout3_out; + assign CLKOUTDCM2 = (pmcd_mode) ? clka1d2_out : clkout2_out; + assign CLKOUTDCM1 = (pmcd_mode) ? clka1d4_out : clkout1_out; + assign CLKOUTDCM0 = (pmcd_mode) ? clka1d8_out : clkout0_out; + assign CLKFBDCM = (pmcd_mode) ? clkb1_out : clkfb_out; + +// PLL function + +always @(clkinsel_in ) + if (pmcd_mode != 1) begin + if ($time >1 && rst_in != 1'b1) begin + $display("Input Error : PLL input clock can only be switched when RST=1. CLKINSEL on instance %m at time %t changed when RST low, should change at RST high.", $time); + $finish; + end + if (clkinsel_in ==1) begin + if (CLKIN1_PERIOD > (1000.0 /CLKIN_FREQ_MIN) || CLKIN1_PERIOD < (1000.0 / CLKIN_FREQ_MAX)) begin + $display (" Attribute Syntax Error : The attribute CLKIN1_PERIOD is set to %f ns and out the allowed range %f ns to %f ns.", CLKIN1_PERIOD, 1000.0/CLKIN_FREQ_MAX, 1000.0/CLKIN_FREQ_MIN); + $finish; + end + end + else if (clkinsel_in ==0) begin + if (CLKIN2_PERIOD > (1000.0 /CLKIN_FREQ_MIN) || CLKIN2_PERIOD < (1000.0 / CLKIN_FREQ_MAX)) begin + $display (" Attribute Syntax Error : The attribute CLKIN2_PERIOD is set to %f ns and out the allowed range %f ns to %f ns.", CLKIN2_PERIOD, 1000.0/CLKIN_FREQ_MAX, 1000.0/CLKIN_FREQ_MIN); + $finish; + end + end + + period_clkin = (clkinsel_in) ? CLKIN1_PERIOD : CLKIN2_PERIOD; + clkvco_freq_init_chk = 1000.0 * CLKFBOUT_MULT / (period_clkin * DIVCLK_DIVIDE); + + if (clkvco_freq_init_chk > VCOCLK_FREQ_MAX || clkvco_freq_init_chk < VCOCLK_FREQ_MIN) begin + $display (" Attribute Syntax Error : The calculation of VCO frequency=%f Mhz. This exceeds the permitted VCO frequency range of %f Mhz to %f Mhz. The VCO frequency is calculated with formula: VCO frequency = CLKFBOUT_MULT / (DIVCLK_DIVIDE * CLKIN_PERIOD). Please adjust the attributes to the permitted VCO frequency range.", clkvco_freq_init_chk, VCOCLK_FREQ_MIN, VCOCLK_FREQ_MAX); + $finish; + end +end + + assign init_trig = 1; + + + assign clkpll_tmp = (clkinsel_in) ? clkin1_in : clkin2_in; + assign clkpll = (pmcd_mode) ? 0 : clkpll_tmp; + + assign orig_rst_in = rst_input; + +always @(posedge clkpll or posedge orig_rst_in) + if (orig_rst_in) + rst_in1 <= 1; + else + rst_in1 <= orig_rst_in; + + assign rst_in = (rst_in1 || rst_unlock); + + always @(posedge pll_unlock) + if (rst_on_loss ) begin + rst_unlock <= 1'b1; + rst_unlock <= #10000 1'b0; + end + +always @(rst_input ) + if (rst_input==1) + rst_edge = $time; + else if (rst_input==0 && rst_edge > 1) begin + rst_ht = $time - rst_edge; + if (rst_ht < 10000) + $display("Input Error : RST on instance %m at time %t must be asserted at least for 10 ns.", $time); + end + +// +// DRP port read and write +// + + assign do_out = dr_sram[daddr_lat]; + +always @(posedge dclk_in or posedge gsr_in) + if (gsr_in == 1) begin + drp_lock <= 0; + end + else begin + if (den_in == 1) begin + valid_daddr = addr_is_valid(daddr_in); + if (drp_lock == 1) begin + $display(" Warning : DEN is high at PLL_ADV instance %m at time %t. Need wait for DRDY signal before next read/write operation through DRP. ", $time); + $finish; + end + else begin + drp_lock <= 1; + daddr_lat <= daddr_in; + end + + if (valid_daddr && ( daddr_in == 5'b00110 || daddr_in == 5'b00001 || daddr_in == 5'b00000 || + (daddr_in >= 5'b01100 && daddr_in <= 5'b11100 && daddr_in != 5'b10000 && + daddr_in != 5'b10001 && daddr_in != 5'b11000 ))) begin + end + else begin + $display(" Warning : Address DADDR=%b is unsupported at PLL_ADV instance %m at time %t. ", DADDR, $time); + end + + if (dwe_in == 1) begin // write process + if (rst_input == 1) begin + if (valid_daddr && ( daddr_in == 5'b00110 || daddr_in == 5'b00001 || daddr_in == 5'b00000 || + (daddr_in >= 5'b01100 && daddr_in <= 5'b11100 && daddr_in != 5'b10000 && + daddr_in != 5'b10001 && daddr_in != 5'b11000 ))) begin + dr_sram[daddr_in] <= di_in; + end + + if (daddr_in == 5'b11100) + clkout_delay_para_drp (clkout0_dly, clk0_nocnt, clk0_edge, di_in, daddr_in); + + if (daddr_in == 5'b11011) + clkout_hl_para_drp (clk0_lt, clk0_ht, clk0pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b11010) + clkout_delay_para_drp (clkout1_dly, clk1_nocnt, clk1_edge, di_in, daddr_in); + + if (daddr_in == 5'b11001) + clkout_hl_para_drp (clk1_lt, clk1_ht, clk1pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b10111) + clkout_delay_para_drp (clkout2_dly, clk2_nocnt, clk2_edge, di_in, daddr_in); + + if (daddr_in == 5'b10110) + clkout_hl_para_drp (clk2_lt, clk2_ht, clk2pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b10101) + clkout_delay_para_drp (clkout3_dly, clk3_nocnt, clk3_edge, di_in, daddr_in); + + if (daddr_in == 5'b10100) + clkout_hl_para_drp (clk3_lt, clk3_ht, clk3pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b10011) + clkout_delay_para_drp (clkout4_dly, clk4_nocnt, clk4_edge, di_in, daddr_in); + + if (daddr_in == 5'b10010) + clkout_hl_para_drp (clk4_lt, clk4_ht, clk4pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b01111) + clkout_delay_para_drp (clkout5_dly, clk5_nocnt, clk5_edge, di_in, daddr_in); + + if (daddr_in == 5'b01110) + clkout_hl_para_drp (clk5_lt, clk5_ht, clk5pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b01101) + clkout_delay_para_drp (clkfbm1_dly, clkfbm1_nocnt, clkfbm1_edge, di_in, daddr_in); + + if (daddr_in == 5'b01100) + clkout_hl_para_drp (clkfbm1_lt, clkfbm1_ht, clkfbm1pm_sel, di_in, daddr_in); + + if (daddr_in == 5'b00110) begin + clkind_lt <= di_in[5:0]; + clkind_ht <= di_in[11:6]; + if ( di_in[5:0] == 6'b0 && di_in[11:6] == 6'b0 ) + clkind_div <= 8'b10000000; + else if (di_in[5:0] == 6'b0 && di_in[11:6] != 6'b0 ) + clkind_div <= 64 + di_in[11:6]; + else if (di_in[5:0] == 6'b0 && di_in[11:6] != 6'b0 ) + clkind_div <= 64 + di_in[5:0]; + else + clkind_div <= di_in[5:0] + di_in[11:6]; + clkind_nocnt <= di_in[12]; + clkind_edge <= di_in[13]; + end + + end + else begin + $display(" Error : RST is low at PLL_ADV instance %m at time %t. RST need to be high when change X_PLL_ADV paramters through DRP. ", $time); + end + + end //DWE + + end //DEN + if ( drp_lock == 1) begin + drp_lock <= 0; + drp_lock1 <= 1; + end + if (drp_lock1 == 1) begin + drp_lock1 <= 0; + drdy_out <= 1; + end + if (drdy_out == 1) + drdy_out <= 0; +end + +function addr_is_valid; +input [6:0] daddr_funcin; +begin + addr_is_valid = 1; + for (i=0; i<=6; i=i+1) + if ( daddr_funcin[i] != 0 && daddr_funcin[i] != 1) + addr_is_valid = 0; +end +endfunction + + +// end process drp; + + +// +// determine clock period +// + + always @(posedge clkpll or posedge rst_in) + if (rst_in) + begin + clkin_period[0] <= period_vco_target; + clkin_period[1] <= period_vco_target; + clkin_period[2] <= period_vco_target; + clkin_period[3] <= period_vco_target; + clkin_period[4] <= period_vco_target; + clkin_jit <= 0; + clkin_lock_cnt <= 0; + pll_locked_tm <= 0; + lock_period <= 0; + pll_locked_tmp1 <= 0; + clkout_en0_tmp <= 0; + unlock_recover <= 0; + clkin_edge <= 0; + end + else begin + clkin_edge <= $time; + clkin_period[4] <= clkin_period[3]; + clkin_period[3] <= clkin_period[2]; + clkin_period[2] <= clkin_period[1]; + clkin_period[1] <= clkin_period[0]; + if (clkin_edge != 0 && clkin_stopped_p == 0 && clkin_stopped_n == 0) + clkin_period[0] <= $time - clkin_edge; + + if (pll_unlock == 0) + clkin_jit <= $time - clkin_edge - clkin_period[0]; + else + clkin_jit <= 0; + + if ( (clkin_lock_cnt < lock_cnt_max) && fb_delay_found && pll_unlock == 0) + clkin_lock_cnt <= clkin_lock_cnt + 1; + else if (pll_unlock == 1 && rst_on_loss ==0 && pll_locked_tmp1 ==1 ) begin + clkin_lock_cnt <= locked_en_time; + unlock_recover <= 1; + end + + if ( clkin_lock_cnt >= `PLL_LOCK_TIME && pll_unlock == 0) + pll_locked_tm <= 1; + + if ( clkin_lock_cnt == 6 ) + lock_period <= 1; + + if (clkin_lock_cnt >= clkout_en_time) begin + clkout_en0_tmp <= 1; + end + + if (clkin_lock_cnt >= locked_en_time) + pll_locked_tmp1 <= 1; + + if (unlock_recover ==1 && clkin_lock_cnt >= lock_cnt_max) + unlock_recover <= 0; + end + + always @(clkout_en0_tmp) + if (clkout_en0_tmp==0) + clkout_en0 = 0; + else + @(negedge clkpll) + clkout_en0 <= #(clkin_period[0]/2) clkout_en0_tmp; + + always @(clkout_en0) + clkout_en <= #(clkvco_delay) clkout_en0; + + always @(pll_locked_tmp1 ) + if (pll_locked_tmp1==0) + pll_locked_tmp2 = pll_locked_tmp1; + else begin + pll_locked_tmp2 <= #pll_locked_delay pll_locked_tmp1; + end + + + always @(rst_in) + if (rst_in) begin + assign pll_locked_tmp2 = 0; + assign clkout_en0 = 0; + assign clkout_en = 0; + end + else begin + deassign pll_locked_tmp2; + deassign clkout_en0; + deassign clkout_en; + end + + assign locked_out = (pll_locked_tm && pll_locked_tmp2 && ~pll_unlock && !unlock_recover) ? 1 : 0; + + + always @(clkin_period[0] or clkin_period[1] or clkin_period[2] or + clkin_period[3] or clkin_period[4] or period_avg) + if ( clkin_period[0] != period_avg) + period_avg = (clkin_period[0] + clkin_period[1] + clkin_period[2] + + clkin_period[3] + clkin_period[4])/5; + + always @(period_avg or clkind_div or clkfbm1_div) begin + period_fb = period_avg * clkind_div; + period_vco = period_fb / clkfbm1_div; + period_vco_half = period_vco /2; + pll_locked_delay = period_fb * clkfbm1_div; + clkin_dly_t = period_avg * (clkind_div + 1.25); + clkfb_dly_t = period_fb * 2.25 ; + period_vco1 = period_vco / 8; + period_vco2 = period_vco / 4; + period_vco3 = period_vco * 3/ 8; + period_vco4 = period_vco / 2; + period_vco5 = period_vco * 5 / 8; + period_vco6 = period_vco *3 / 4; + period_vco7 = period_vco * 7 / 8; + md_product = clkind_div * clkfbm1_div; + md_product_dbl = clkind_div * clkfbm1_div * 2; + end + + assign clkvco_lk_rst = ( rst_in == 1 || pll_unlock == 1 || pll_locked_tm == 0) ? 1 : 0; + + always @(clkvco_lk_rst) + if (clkvco_lk_rst) + assign clkvco_lk = 0; + else + deassign clkvco_lk; + + +// always @(posedge clkpll or posedge rst_in or posedge pll_unlock) +// if ( rst_in == 1 || pll_unlock == 1 || pll_locked_tm == 0) begin +// clkvco_lk <= 0; +// end +// else begin + always @(posedge clkpll) + if (pll_locked_tm ==1) begin + clkvco_lk <= 1; + for (i1=1; i1 < md_product_dbl; i1=i1+1) + #(period_vco_half) clkvco_lk <= ~clkvco_lk; + end + + + always @(fb_delay or period_vco or clkfbm1_dly or clkfbm1pm_rl) begin + val_tmp = period_vco * md_product; + fbm1_comp_delay = period_vco *(clkfbm1_dly + clkfbm1pm_rl ); + dly_tmp = fb_delay + fbm1_comp_delay; + if (fb_delay == 0) + clkvco_delay = 0; + else if ( dly_tmp < val_tmp) + clkvco_delay = val_tmp - dly_tmp; + else + clkvco_delay = val_tmp - dly_tmp % val_tmp ; + end + + always @(clkfbm1pm_sel) + case (clkfbm1pm_sel) + 3'b000 : clkfbm1pm_rl = 0.0; + 3'b001 : clkfbm1pm_rl = 0.125; + 3'b010 : clkfbm1pm_rl = 0.25; + 3'b011 : clkfbm1pm_rl = 0.375; + 3'b100 : clkfbm1pm_rl = 0.50; + 3'b101 : clkfbm1pm_rl = 0.625; + 3'b110 : clkfbm1pm_rl = 0.75; + 3'b111 : clkfbm1pm_rl = 0.875; + endcase + + always @(clkvco_free ) + if (pmcd_mode != 1 && pll_locked_tm == 0) + clkvco_free <= #period_vco_target_half ~clkvco_free; + + always @(clkvco_lk or clkvco_free or pll_locked_tm) + if ( pll_locked_tm) + clkvco <= #clkvco_delay clkvco_lk; + else + clkvco <= #clkvco_delay clkvco_free; + + always @(clk0_ht or clk0_lt or clk0_nocnt or init_trig) + clkout_pm_cal(clk0_ht1, clk0_div, clk0_div1, clk0_ht, clk0_lt, clk0_nocnt, clk0_edge); + + always @(clk1_ht or clk1_lt or clk1_nocnt or init_trig) + clkout_pm_cal(clk1_ht1, clk1_div, clk1_div1, clk1_ht, clk1_lt, clk1_nocnt, clk1_edge); + + always @(clk2_ht or clk2_lt or clk2_nocnt or init_trig) + clkout_pm_cal(clk2_ht1, clk2_div, clk2_div1, clk2_ht, clk2_lt, clk2_nocnt, clk2_edge); + + always @(clk3_ht or clk3_lt or clk3_nocnt or init_trig) + clkout_pm_cal(clk3_ht1, clk3_div, clk3_div1, clk3_ht, clk3_lt, clk3_nocnt, clk3_edge); + + always @(clk4_ht or clk4_lt or clk4_nocnt or init_trig) + clkout_pm_cal(clk4_ht1, clk4_div, clk4_div1, clk4_ht, clk4_lt, clk4_nocnt, clk4_edge); + + always @(clk5_ht or clk5_lt or clk5_nocnt or init_trig) + clkout_pm_cal(clk5_ht1, clk5_div, clk5_div1, clk5_ht, clk5_lt, clk5_nocnt, clk5_edge); + + always @(clkfbm1_ht or clkfbm1_lt or clkfbm1_nocnt or init_trig) + clkout_pm_cal(clkfbm1_ht1, clkfbm1_div, clkfbm1_div1, clkfbm1_ht, clkfbm1_lt, clkfbm1_nocnt, clkfbm1_edge); + + always @(rst_in) + if (rst_in) + assign clkout_mux = 8'b0; + else + deassign clkout_mux; + + always @(clkvco or clkout_en ) + if (clkout_en) begin + clkout_mux[0] <= clkvco; + clkout_mux[1] <= #(period_vco1) clkvco; + clkout_mux[2] <= #(period_vco2) clkvco; + clkout_mux[3] <= #(period_vco3) clkvco; + clkout_mux[4] <= #(period_vco4) clkvco; + clkout_mux[5] <= #(period_vco5) clkvco; + clkout_mux[6] <= #(period_vco6) clkvco; + clkout_mux[7] <= #(period_vco7) clkvco; + end + + assign clk0in = clkout_mux[clk0pm_sel]; + assign clk1in = clkout_mux[clk1pm_sel]; + assign clk2in = clkout_mux[clk2pm_sel]; + assign clk3in = clkout_mux[clk3pm_sel]; + assign clk4in = clkout_mux[clk4pm_sel]; + assign clk5in = clkout_mux[clk5pm_sel]; + assign clkfbm1in = clkout_mux[clkfbm1pm_sel]; + + assign clk0ps_en = (clk0_dly_cnt == clkout0_dly) ? clkout_en : 0; + assign clk1ps_en = (clk1_dly_cnt == clkout1_dly) ? clkout_en : 0; + assign clk2ps_en = (clk2_dly_cnt == clkout2_dly) ? clkout_en : 0; + assign clk3ps_en = (clk3_dly_cnt == clkout3_dly) ? clkout_en : 0; + assign clk4ps_en = (clk4_dly_cnt == clkout4_dly) ? clkout_en : 0; + assign clk5ps_en = (clk5_dly_cnt == clkout5_dly) ? clkout_en : 0; + assign clkfbm1ps_en = (clkfbm1_dly_cnt == clkfbm1_dly) ? clkout_en : 0; + + always @(negedge clk0in or posedge rst_in) + if (rst_in) + clk0_dly_cnt <= 6'b0; + else + if (clk0_dly_cnt < clkout0_dly && clkout_en ==1) + clk0_dly_cnt <= clk0_dly_cnt + 1; + + always @(negedge clk1in or posedge rst_in) + if (rst_in) + clk1_dly_cnt <= 6'b0; + else + if (clk1_dly_cnt < clkout1_dly && clkout_en ==1) + clk1_dly_cnt <= clk1_dly_cnt + 1; + + always @(negedge clk2in or posedge rst_in) + if (rst_in) + clk2_dly_cnt <= 6'b0; + else + if (clk2_dly_cnt < clkout2_dly && clkout_en ==1) + clk2_dly_cnt <= clk2_dly_cnt + 1; + + always @(negedge clk3in or posedge rst_in) + if (rst_in) + clk3_dly_cnt <= 6'b0; + else + if (clk3_dly_cnt < clkout3_dly && clkout_en ==1) + clk3_dly_cnt <= clk3_dly_cnt + 1; + + always @(negedge clk4in or posedge rst_in) + if (rst_in) + clk4_dly_cnt <= 6'b0; + else + if (clk4_dly_cnt < clkout4_dly && clkout_en ==1) + clk4_dly_cnt <= clk4_dly_cnt + 1; + + always @(negedge clk5in or posedge rst_in) + if (rst_in) + clk5_dly_cnt <= 6'b0; + else + if (clk5_dly_cnt < clkout5_dly && clkout_en ==1) + clk5_dly_cnt <= clk5_dly_cnt + 1; + + always @(negedge clkfbm1in or posedge rst_in) + if (rst_in) + clkfbm1_dly_cnt <= 6'b0; + else + if (clkfbm1_dly_cnt < clkfbm1_dly && clkout_en ==1) + clkfbm1_dly_cnt <= clkfbm1_dly_cnt + 1; + + always @(posedge clk0in or negedge clk0in or posedge rst_in) + if (rst_in) begin + clk0_cnt <= 8'b0; + clk0_out <= 0; + end + else if (clk0ps_en) begin + if (clk0_cnt < clk0_div1) + clk0_cnt <= clk0_cnt + 1; + else + clk0_cnt <= 8'b0; + + if (clk0_cnt < clk0_ht1) + clk0_out <= 1; + else + clk0_out <= 0; + end + else begin + clk0_cnt <= 8'b0; + clk0_out <= 0; + end + + always @(posedge clk1in or negedge clk1in or posedge rst_in) + if (rst_in) begin + clk1_cnt <= 8'b0; + clk1_out <= 0; + end + else if (clk1ps_en) begin + if (clk1_cnt < clk1_div1) + clk1_cnt <= clk1_cnt + 1; + else + clk1_cnt <= 8'b0; + + if (clk1_cnt < clk1_ht1) + clk1_out <= 1; + else + clk1_out <= 0; + end + else begin + clk1_cnt <= 8'b0; + clk1_out <= 0; + end + + always @(posedge clk2in or negedge clk2in or posedge rst_in) + if (rst_in) begin + clk2_cnt <= 8'b0; + clk2_out <= 0; + end + else if (clk2ps_en) begin + if (clk2_cnt < clk2_div1) + clk2_cnt <= clk2_cnt + 1; + else + clk2_cnt <= 8'b0; + + if (clk2_cnt < clk2_ht1) + clk2_out <= 1; + else + clk2_out <= 0; + end + else begin + clk2_cnt <= 8'b0; + clk2_out <= 0; + end + + always @(posedge clk3in or negedge clk3in or posedge rst_in) + if (rst_in) begin + clk3_cnt <= 8'b0; + clk3_out <= 0; + end + else if (clk3ps_en) begin + if (clk3_cnt < clk3_div1) + clk3_cnt <= clk3_cnt + 1; + else + clk3_cnt <= 8'b0; + + if (clk3_cnt < clk3_ht1) + clk3_out <= 1; + else + clk3_out <= 0; + end + else begin + clk3_cnt <= 8'b0; + clk3_out <= 0; + end + + + always @(posedge clk4in or negedge clk4in or posedge rst_in) + if (rst_in) begin + clk4_cnt <= 8'b0; + clk4_out <= 0; + end + else if (clk4ps_en) begin + if (clk4_cnt < clk4_div1) + clk4_cnt <= clk4_cnt + 1; + else + clk4_cnt <= 8'b0; + + if (clk4_cnt < clk4_ht1) + clk4_out <= 1; + else + clk4_out <= 0; + end + else begin + clk4_cnt <= 8'b0; + clk4_out <= 0; + end + + + always @(posedge clk5in or negedge clk5in or posedge rst_in) + if (rst_in) begin + clk5_cnt <= 8'b0; + clk5_out <= 0; + end + else if (clk5ps_en) begin + if (clk5_cnt < clk5_div1) + clk5_cnt <= clk5_cnt + 1; + else + clk5_cnt <= 8'b0; + + if (clk5_cnt < clk5_ht1) + clk5_out <= 1; + else + clk5_out <= 0; + end + else begin + clk5_cnt <= 8'b0; + clk5_out <= 0; + end + + + always @(posedge clkfbm1in or negedge clkfbm1in or posedge rst_in) + if (rst_in) begin + clkfbm1_cnt <= 8'b0; + clkfbm1_out <= 0; + end + else if (clkfbm1ps_en) begin + if (clkfbm1_cnt < clkfbm1_div1) + clkfbm1_cnt <= clkfbm1_cnt + 1; + else + clkfbm1_cnt <= 8'b0; + + if (clkfbm1_cnt < clkfbm1_ht1) + clkfbm1_out <= 1; + else + clkfbm1_out <= 0; + end + else begin + clkfbm1_cnt <= 8'b0; + clkfbm1_out <= 0; + end + + + + always @(clk0_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout0_out = clk0_out; + else + clkout0_out = clkfb_tst; + + always @(clk1_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout1_out = clk1_out; + else + clkout1_out = clkfb_tst; + + always @(clk2_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout2_out = clk2_out; + else + clkout2_out = clkfb_tst; + + always @(clk3_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout3_out = clk3_out; + else + clkout3_out = clkfb_tst; + + always @(clk4_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout4_out = clk4_out; + else + clkout4_out = clkfb_tst; + + always @(clk5_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkout5_out = clk5_out; + else + clkout5_out = clkfb_tst; + + always @(clkfbm1_out or clkfb_tst or fb_delay_found) + if (fb_delay_found == 1) + clkfb_out = clkfbm1_out; + else + clkfb_out = clkfb_tst; + +// +// determine feedback delay +// + +always @(rst_in1) + if (rst_in1) + assign clkfb_tst = 0; + else + deassign clkfb_tst; + +always @(posedge clkpll ) + if (fb_delay_found_tmp == 0 && GSR == 0 && rst_in1 == 0) begin + clkfb_tst <= 1'b1; + end + else + clkfb_tst <= 1'b0; + + +always @( posedge clkfb_tst or posedge rst_in1 ) + if (rst_in1) + delay_edge <= 0; + else + delay_edge <= $time; + +always @(posedge clkfb_in or posedge rst_in1 ) + if (rst_in1) begin + fb_delay <= 0; + fb_delay_found_tmp <= 0; + end + else + if (fb_delay_found_tmp ==0 ) begin + if ( delay_edge != 0) + fb_delay <= ($time - delay_edge); + else + fb_delay <= 0; + fb_delay_found_tmp <= 1; + end + +always @(rst_in1) + if (rst_in1) + assign fb_delay_found = 0; + else + deassign fb_delay_found; + +always @(fb_delay_found_tmp or clkvco_delay ) + fb_delay_found <= #(clkvco_delay) fb_delay_found_tmp; + + +always @(fb_delay) + if (rst_in1==0 && (fb_delay/1000.0 > fb_delay_max)) begin + $display("Warning : The feedback delay on PLL_ADV instance %m at time %t is %f ns. It is over the maximun value %f ns.", $time, fb_delay / 1000.0, fb_delay_max); + end + +// +// generate unlock signal +// + +always @(clkpll) + clkpll_dly <= #clkin_dly_t clkpll; + +always @(clkfb_in) + if (pmcd_mode != 1) + clkfbin_dly <= #clkfb_dly_t clkfb_in; + else + clkfbin_dly = 0; + +always @( posedge clkpll_dly or negedge clkpll or posedge rst_in) + if (rst_in || clkpll == 0) begin + clkstop_cnt_p = 0; + clkin_stopped_p = 0; + end + else + if (fb_delay_found && pll_locked_tmp2) begin + if (clkpll && clkpll_jitter_unlock == 0) + clkstop_cnt_p <= clkstop_cnt_p +1; + else + clkstop_cnt_p = 0; + + if (clkstop_cnt_p > clkin_stop_max) + clkin_stopped_p <= 1; + else + clkin_stopped_p = 0; + end + else begin + clkstop_cnt_p = 0; + clkin_stopped_p = 0; + end + +always @( posedge clkpll_dly or posedge clkpll or posedge rst_in) + if (rst_in || clkpll == 1) begin + clkstop_cnt_n = 0; + clkin_stopped_n = 0; + end + else + if (fb_delay_found && pll_locked_tmp2) begin + if (clkpll==0 && clkpll_jitter_unlock == 0) + clkstop_cnt_n <= clkstop_cnt_n +1; + else + clkstop_cnt_n = 0; + + if (clkstop_cnt_n > clkin_stop_max) + clkin_stopped_n <= 1; + else + clkin_stopped_n = 0; + end + else begin + clkstop_cnt_n = 0; + clkin_stopped_n = 0; + end + + +always @( posedge clkfbin_dly or negedge clkfb_in or posedge rst_in) + if (rst_in || clkfb_in == 0) begin + clkfbstop_cnt_p = 0; + clkfb_stopped_p = 0; + end + else + if (fb_delay_found && pll_locked_tmp2) begin + if (clkfb_in && clkpll_jitter_unlock == 0) + clkfbstop_cnt_p <= clkfbstop_cnt_p +1; + else + clkfbstop_cnt_p = 0; + + if (clkfbstop_cnt_p > clkfb_stop_max) + clkfb_stopped_p <= 1; + else + clkfb_stopped_p = 0; + end + else begin + clkfbstop_cnt_p = 0; + clkfb_stopped_p = 0; + end + +always @( posedge clkfbin_dly or posedge clkfb_in or posedge rst_in) + if (rst_in==1 || clkfb_in == 1) begin + clkfbstop_cnt_n = 0; + clkfb_stopped_n = 0; + end + else + if (fb_delay_found && pll_locked_tmp2) begin + if (clkfb_in==0 && clkpll_jitter_unlock == 0) + clkfbstop_cnt_n <= clkfbstop_cnt_n +1; + else + clkfbstop_cnt_n = 0; + + if (clkfbstop_cnt_n > clkfb_stop_max) + clkfb_stopped_n <= 1; + else + clkfb_stopped_n = 0; + end + else begin + clkfbstop_cnt_n = 0; + clkfb_stopped_n = 0; + end + +always @(clkin_jit or rst_in ) + if (rst_in) + clkpll_jitter_unlock = 0; + else + if ( pll_locked_tmp2 && clkfb_stopped == 0 && clkin_stopped == 0) begin + if ((clkin_jit > REF_CLK_JITTER_MAX_tmp) || (clkin_jit < -REF_CLK_JITTER_MAX_tmp)) + clkpll_jitter_unlock = 1; + else + clkpll_jitter_unlock = 0; + end + else + clkpll_jitter_unlock = 0; + + assign clkin_stopped = (clkin_stopped_p || clkin_stopped_n) ? 1 : 0; + assign clkfb_stopped = (clkfb_stopped_p ||clkfb_stopped_n) ? 1 : 0; + assign pll_unlock = (clkin_stopped || clkfb_stopped || clkpll_jitter_unlock) ? 1 : 0; + +// tasks + + +task clkout_dly_cal; +output [5:0] clkout_dly; +output [2:0] clkpm_sel; +input clkdiv; +input clk_ps; +input reg [160:0] clk_ps_name; + +integer clkdiv; +real clk_ps; +real clk_ps_rl; + +real clk_dly_rl, clk_dly_rem; +integer clkout_dly_tmp; + +begin + + if (clk_ps < 0.0) + clk_dly_rl = (360.0 + clk_ps) * clkdiv / 360.0; + else + clk_dly_rl = clk_ps * clkdiv / 360.0; + + clkout_dly_tmp = $rtoi(clk_dly_rl); + + if (clkout_dly_tmp > 63) begin + $display(" Warning : Attribute %s of PLL_ADV on instance %m is set to %f. Required phase shifting can not be reached since it is over the maximum phase shifting ability of X_PLL_ADV", clk_ps_name, clk_ps); + clkout_dly = 6'b111111; + end + else + clkout_dly = clkout_dly_tmp; + + clk_dly_rem = clk_dly_rl - clkout_dly; + + if (clk_dly_rem < 0.125) + clkpm_sel = 0; + else if (clk_dly_rem >= 0.125 && clk_dly_rem < 0.25) + clkpm_sel = 1; + else if (clk_dly_rem >= 0.25 && clk_dly_rem < 0.375) + clkpm_sel = 2; + else if (clk_dly_rem >= 0.375 && clk_dly_rem < 0.5) + clkpm_sel = 3; + else if (clk_dly_rem >= 0.5 && clk_dly_rem < 0.625) + clkpm_sel = 4; + else if (clk_dly_rem >= 0.625 && clk_dly_rem < 0.75) + clkpm_sel = 5; + else if (clk_dly_rem >= 0.75 && clk_dly_rem < 0.875) + clkpm_sel = 6; + else if (clk_dly_rem >= 0.875 ) + clkpm_sel = 7; + + if (clk_ps < 0.0) + clk_ps_rl = (clkout_dly + 0.125 * clkpm_sel)* 360.0 / clkdiv - 360.0; + else + clk_ps_rl = (clkout_dly + 0.125 * clkpm_sel) * 360.0 / clkdiv; + + if (((clk_ps_rl- clk_ps) > 0.001) || ((clk_ps_rl- clk_ps) < -0.001)) + $display(" Warning : Attribute %s of PLL_ADV on instance %m is set to %f. Real phase shifting is %f. Required phase shifting can not be reached.", clk_ps_name, clk_ps, clk_ps_rl); + +end +endtask + + +task clk_out_para_cal; +output [6:0] clk_ht; +output [6:0] clk_lt; +output clk_nocnt; +output clk_edge; +input CLKOUT_DIVIDE; +input CLKOUT_DUTY_CYCLE; + +integer CLKOUT_DIVIDE; +real CLKOUT_DUTY_CYCLE; + +real tmp_value; +integer tmp_value1; +real tmp_value2; + +begin + tmp_value = CLKOUT_DIVIDE * CLKOUT_DUTY_CYCLE; + tmp_value1 = $rtoi(tmp_value * 2) % 2; + tmp_value2 = CLKOUT_DIVIDE - tmp_value; + + + if ((tmp_value) >= O_MAX_HT_LT) begin +// clk_ht = O_MAX_HT_LT; + clk_ht = 7'b1000000; + end + else begin + if (tmp_value < 1.0) + clk_ht = 1; + else + if ( tmp_value1 != 0) + clk_ht = $rtoi(tmp_value) + 1; + else + clk_ht = $rtoi(tmp_value); + end + + if ( (CLKOUT_DIVIDE - clk_ht) >= O_MAX_HT_LT) + clk_lt = 7'b1000000; + else + clk_lt = CLKOUT_DIVIDE - clk_ht; + + clk_nocnt = (CLKOUT_DIVIDE ==1) ? 1 : 0; + if ( tmp_value < 1.0) + clk_edge = 1; + else if (tmp_value1 != 0) + clk_edge = 1; + else + clk_edge = 0; +end +endtask + + +function clkout_duty_chk; + input CLKOUT_DIVIDE; + input CLKOUT_DUTY_CYCLE; + input reg [160:0] CLKOUT_DUTY_CYCLE_N; + + integer CLKOUT_DIVIDE, step_tmp; + real CLKOUT_DUTY_CYCLE; + + real CLK_DUTY_CYCLE_MIN, CLK_DUTY_CYCLE_MAX, CLK_DUTY_CYCLE_STEP; + real CLK_DUTY_CYCLE_MIN_rnd; + reg clk_duty_tmp_int; + +begin + + if (CLKOUT_DIVIDE > O_MAX_HT_LT) begin + CLK_DUTY_CYCLE_MIN = (CLKOUT_DIVIDE - O_MAX_HT_LT)/CLKOUT_DIVIDE; + CLK_DUTY_CYCLE_MAX = (O_MAX_HT_LT + 0.5)/CLKOUT_DIVIDE; + CLK_DUTY_CYCLE_MIN_rnd = CLK_DUTY_CYCLE_MIN; + end + else begin + if (CLKOUT_DIVIDE == 1) begin + CLK_DUTY_CYCLE_MIN = 0.0; + CLK_DUTY_CYCLE_MIN_rnd = 0.0; + end + else begin + step_tmp = 1000 / CLKOUT_DIVIDE; + CLK_DUTY_CYCLE_MIN_rnd = step_tmp / 1000.0; + CLK_DUTY_CYCLE_MIN = 1.0 /CLKOUT_DIVIDE; + end + CLK_DUTY_CYCLE_MAX = 1.0; + end + + if (CLKOUT_DUTY_CYCLE > CLK_DUTY_CYCLE_MAX || CLKOUT_DUTY_CYCLE < CLK_DUTY_CYCLE_MIN_rnd) begin + $display(" Attribute Syntax Warning : %s is set to %f on instance %m and is not in the allowed range %f to %f.", CLKOUT_DUTY_CYCLE_N, CLKOUT_DUTY_CYCLE, CLK_DUTY_CYCLE_MIN, CLK_DUTY_CYCLE_MAX ); + end + + clk_duty_tmp_int = 0; + CLK_DUTY_CYCLE_STEP = 0.5 / CLKOUT_DIVIDE; + for (j = 0; j < (2 * CLKOUT_DIVIDE - CLK_DUTY_CYCLE_MIN/CLK_DUTY_CYCLE_STEP); j = j + 1) + if (((CLK_DUTY_CYCLE_MIN + CLK_DUTY_CYCLE_STEP * j) - CLKOUT_DUTY_CYCLE) > -0.001 && + ((CLK_DUTY_CYCLE_MIN + CLK_DUTY_CYCLE_STEP * j) - CLKOUT_DUTY_CYCLE) < 0.001) + clk_duty_tmp_int = 1; + + if ( clk_duty_tmp_int != 1) begin + $display(" Attribute Syntax Warning : %s is set to %f on instance %m and is not an allowed value. Allowed values are:", CLKOUT_DUTY_CYCLE_N, CLKOUT_DUTY_CYCLE); + for (j = 0; j < (2 * CLKOUT_DIVIDE - CLK_DUTY_CYCLE_MIN/CLK_DUTY_CYCLE_STEP); j = j + 1) + $display("%f", CLK_DUTY_CYCLE_MIN + CLK_DUTY_CYCLE_STEP * j); + end + + clkout_duty_chk = 1'b1; +end +endfunction + + +function para_int_pmcd_chk; + input para_in; + input reg [160:0] para_name; + input range_low; + input range_high; + input pmcd_mode; + input pmcd_value; + + integer para_in; + integer range_low; + integer range_high; + integer pmcd_value; +begin + + if (para_in < range_low || para_in > range_high) + begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %d. Legal values for this attribute are %d to %d.", para_name, para_in, range_low, range_high); + $finish; + end + else if (pmcd_mode == 1 && para_in != pmcd_value) begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %d when attribute PLL_PMCD_MODE is set to TRUE. Legal values for this attribute is %d when PLL in PMCD MODE.", para_name, para_in, pmcd_value); + $finish; + end + + para_int_pmcd_chk = 1'b1; +end +endfunction + +function para_real_pmcd_chk; + input para_in; + input reg [160:0] para_name; + input range_low; + input range_high; + input pmcd_mode; + input pmcd_value; + + real para_in; + real range_low; + real range_high; + real pmcd_value; +begin + + if (para_in < range_low || para_in > range_high) + begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %f. Legal values for this attribute are %f to %f.", para_name, para_in, range_low, range_high); + $finish; + end + else if (pmcd_mode == 1 && para_in != pmcd_value) begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %f when attribute PLL_PMCD_MODE is set to TRUE. Legal values for this attribute is %f when PLL in PMCD MODE.", para_name, para_in, pmcd_value); + $finish; + end + + para_real_pmcd_chk = 1'b0; +end +endfunction + +function para_int_range_chk; + input para_in; + input reg [160:0] para_name; + input range_low; + input range_high; + + integer para_in; + integer range_low; + integer range_high; +begin + if ( para_in < range_low || para_in > range_high) begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %d. Legal values for this attribute are %d to %d.", para_name, para_in, range_low, range_high); + $finish; + end + para_int_range_chk = 1'b1; +end +endfunction + +function para_real_range_chk; + input para_in; + input reg [160:0] para_name; + input range_low; + input range_high; + + real para_in; + real range_low; + real range_high; +begin + if ( para_in < range_low || para_in > range_high) begin + $display("Attribute Syntax Error : The Attribute %s on PLL_ADV instance %m is set to %f. Legal values for this attribute are %f to %f.", para_name, para_in, range_low, range_high); + $finish; + end + + para_real_range_chk = 1'b0; +end +endfunction + +task clkout_pm_cal; + output [7:0] clk_ht1; + output [7:0] clk_div; + output [7:0] clk_div1; + input [6:0] clk_ht; + input [6:0] clk_lt; + input clk_nocnt; + input clk_edge; + +begin + if (clk_nocnt ==1) begin + clk_div = 8'b00000001; + clk_div1 = 8'b00000001; + clk_ht1 = 8'b00000001; + end + else begin + if ( clk_edge == 1) + clk_ht1 = 2 * clk_ht -1; + else + clk_ht1 = 2 * clk_ht; + clk_div = clk_ht + clk_lt ; + clk_div1 = 2 * clk_div -1; + end +end +endtask + +task clkout_delay_para_drp; + output [5:0] clkout_dly; + output clk_nocnt; + output clk_edge; + input [15:0] di_in; + input [4:0] daddr_in; +begin + +// if (di_in[15:8] != 8'h00) begin +// $display(" Error : PLL_ADV on instance %m input DI[15:8] is set to %h and need to be set to 00h at address DADDR=%b at time %t.", di_in[15:8], daddr_in, $time); +// $finish; +// end + clkout_dly = di_in[5:0]; + clk_nocnt = di_in[6]; + clk_edge = di_in[7]; +end +endtask + +task clkout_hl_para_drp; + output [6:0] clk_lt; + output [6:0] clk_ht; + output [2:0] clkpm_sel; + input [15:0] di_in_tmp; + input [4:0] daddr_in_tmp; +begin + if (di_in_tmp[12] != 1) begin + $display(" Error : PLL_ADV on instance %m input DI is %h at address DADDR=%b at time %t. The bit 12 need to be set to 1 .", di_in_tmp, daddr_in_tmp, $time); +// $finish; + end + if ( di_in_tmp[5:0] == 6'b0) + clk_lt = 7'b1000000; + else + clk_lt = { 1'b0, di_in[5:0]}; + if (di_in_tmp[11:6] == 6'b0) + clk_ht = 7'b1000000; + else + clk_ht = { 1'b0, di_in_tmp[11:6]}; + clkpm_sel = di_in_tmp[15:13]; +end +endtask + + + +endmodule diff --git a/usrp2/models/PLL_BASE.v b/usrp2/models/PLL_BASE.v new file mode 100644 index 000000000..f2180a25a --- /dev/null +++ b/usrp2/models/PLL_BASE.v @@ -0,0 +1,150 @@ +// $Header: /devl/xcs/repo/env/Databases/CAEInterfaces/verunilibs/data/rainier/PLL_BASE.v,v 1.5 2006/03/13 21:53:44 yanx Exp $ +/////////////////////////////////////////////////////////////////////////////// +// Copyright (c) 1995/2004 Xilinx, Inc. +// All Right Reserved. +/////////////////////////////////////////////////////////////////////////////// +// ____ ____ +// / /\/ / +// /___/ \ / Vendor : Xilinx +// \ \ \/ Version : 10.1 +// \ \ Description : Xilinx Timing Simulation Library Component +// / / Phase Lock Loop Clock +// /___/ /\ Filename : PLL_BASE.v +// \ \ / \ Timestamp : +// \___\/\___\ +// +// Revision: +// 12/02/05 - Initial version. +// 02/24/06 - Add real/integer to parameter. +// End Revision + + +`timescale 1 ps / 1 ps + +module PLL_BASE ( + CLKFBOUT, + CLKOUT0, + CLKOUT1, + CLKOUT2, + CLKOUT3, + CLKOUT4, + CLKOUT5, + LOCKED, + CLKFBIN, + CLKIN, + RST + +); + +parameter BANDWIDTH = "OPTIMIZED"; +parameter integer CLKFBOUT_MULT = 1; +parameter real CLKFBOUT_PHASE = 0.0; +parameter real CLKIN_PERIOD = 0.000; +parameter integer CLKOUT0_DIVIDE = 1; +parameter real CLKOUT0_DUTY_CYCLE = 0.5; +parameter real CLKOUT0_PHASE = 0.0; +parameter integer CLKOUT1_DIVIDE = 1; +parameter real CLKOUT1_DUTY_CYCLE = 0.5; +parameter real CLKOUT1_PHASE = 0.0; +parameter integer CLKOUT2_DIVIDE = 1; +parameter real CLKOUT2_DUTY_CYCLE = 0.5; +parameter real CLKOUT2_PHASE = 0.0; +parameter integer CLKOUT3_DIVIDE = 1; +parameter real CLKOUT3_DUTY_CYCLE = 0.5; +parameter real CLKOUT3_PHASE = 0.0; +parameter integer CLKOUT4_DIVIDE = 1; +parameter real CLKOUT4_DUTY_CYCLE = 0.5; +parameter real CLKOUT4_PHASE = 0.0; +parameter integer CLKOUT5_DIVIDE = 1; +parameter real CLKOUT5_DUTY_CYCLE = 0.5; +parameter real CLKOUT5_PHASE = 0.0; +parameter COMPENSATION = "SYSTEM_SYNCHRONOUS"; +parameter integer DIVCLK_DIVIDE = 1; +parameter real REF_JITTER = 0.100; +parameter RESET_ON_LOSS_OF_LOCK = "FALSE"; + + +output CLKFBOUT; +output CLKOUT0; +output CLKOUT1; +output CLKOUT2; +output CLKOUT3; +output CLKOUT4; +output CLKOUT5; +output LOCKED; + +input CLKFBIN; +input CLKIN; +input RST; + + +wire OPEN_CLKFBDCM; +wire OPEN_CLKOUTDCM0; +wire OPEN_CLKOUTDCM1; +wire OPEN_CLKOUTDCM2; +wire OPEN_CLKOUTDCM3; +wire OPEN_CLKOUTDCM4; +wire OPEN_CLKOUTDCM5; +wire OPEN_DRDY; +wire [15:0] OPEN_DO; + +PLL_ADV pll_adv_1 ( + .CLKFBDCM (OPEN_CLKFBDCM), + .CLKFBIN (CLKFBIN), + .CLKFBOUT (CLKFBOUT), + .CLKIN1 (CLKIN), + .CLKIN2 (1'b0), + .CLKOUT0 (CLKOUT0), + .CLKOUT1 (CLKOUT1), + .CLKOUT2 (CLKOUT2), + .CLKOUT3 (CLKOUT3), + .CLKOUT4 (CLKOUT4), + .CLKOUT5 (CLKOUT5), + .CLKOUTDCM0 (OPEN_CLKOUTDCM0), + .CLKOUTDCM1 (OPEN_CLKOUTDCM1), + .CLKOUTDCM2 (OPEN_CLKOUTDCM2), + .CLKOUTDCM3 (OPEN_CLKOUTDCM3), + .CLKOUTDCM4 (OPEN_CLKOUTDCM4), + .CLKOUTDCM5 (OPEN_CLKOUTDCM5), + .DADDR (5'b0), + .DCLK (1'b0), + .DEN (1'b0), + .DI (16'b0), + .DO (OPEN_DO), + .DRDY (OPEN_DRDY), + .DWE (1'b0), + .LOCKED (LOCKED), + .CLKINSEL(1'b1), + .REL (1'b0), + .RST (RST) +); + +defparam pll_adv_1.BANDWIDTH = BANDWIDTH; +defparam pll_adv_1.CLKFBOUT_MULT = CLKFBOUT_MULT; +defparam pll_adv_1.CLKFBOUT_PHASE = CLKFBOUT_PHASE; +defparam pll_adv_1.CLKIN1_PERIOD = CLKIN_PERIOD; +defparam pll_adv_1.CLKIN2_PERIOD = 10.0; +defparam pll_adv_1.CLKOUT0_DIVIDE = CLKOUT0_DIVIDE; +defparam pll_adv_1.CLKOUT0_DUTY_CYCLE = CLKOUT0_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT0_PHASE = CLKOUT0_PHASE; +defparam pll_adv_1.CLKOUT1_DIVIDE = CLKOUT1_DIVIDE; +defparam pll_adv_1.CLKOUT1_DUTY_CYCLE = CLKOUT1_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT1_PHASE = CLKOUT1_PHASE; +defparam pll_adv_1.CLKOUT2_DIVIDE = CLKOUT2_DIVIDE; +defparam pll_adv_1.CLKOUT2_DUTY_CYCLE = CLKOUT2_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT2_PHASE = CLKOUT2_PHASE; +defparam pll_adv_1.CLKOUT3_DIVIDE = CLKOUT3_DIVIDE; +defparam pll_adv_1.CLKOUT3_DUTY_CYCLE = CLKOUT3_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT3_PHASE = CLKOUT3_PHASE; +defparam pll_adv_1.CLKOUT4_DIVIDE = CLKOUT4_DIVIDE; +defparam pll_adv_1.CLKOUT4_DUTY_CYCLE = CLKOUT4_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT4_PHASE = CLKOUT4_PHASE; +defparam pll_adv_1.CLKOUT5_DIVIDE = CLKOUT5_DIVIDE; +defparam pll_adv_1.CLKOUT5_DUTY_CYCLE = CLKOUT5_DUTY_CYCLE; +defparam pll_adv_1.CLKOUT5_PHASE = CLKOUT5_PHASE; +defparam pll_adv_1.COMPENSATION = COMPENSATION; +defparam pll_adv_1.DIVCLK_DIVIDE = DIVCLK_DIVIDE; +defparam pll_adv_1.REF_JITTER = REF_JITTER; +defparam pll_adv_1.RESET_ON_LOSS_OF_LOCK = RESET_ON_LOSS_OF_LOCK; + +endmodule |