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[/] [sdr_ctrl/] [trunk/] [verif/] [model/] [IS42VM16400K.V] - Rev 9
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/************************************************************************
*
* Copyright(c) ISSI Inc., 2010
*
* == 64M Low power SDRAM behavioral Model by ESC ==
*
* Address : 1940 Zanker Road San Jose,CA95112-4216,U.S.A.
* Tel : +1-408-969-6600, Fax : +1-408-969-7800
*
* Revision : Rev0.0 (2010.10.4)
*
* Running Options
* +S50 : Set AC timing parameter for -50(200MHz )
* +S60 : Set AC timing parameter for -60(166MHz )
* +S75 : Set AC timing parameter for -75(133MHz )
* +VERBOSE : Display internal operation status
*
************************************************************************/
`timescale 1ns / 1ps
module IS42VM16400K (dq, addr, ba, clk, cke, csb, rasb, casb, web, dqm);
parameter no_of_bank = 2;
parameter no_of_addr = 12;
parameter no_of_data = 16;
parameter no_of_col = 8;
parameter no_of_dqm = 2;
parameter mem_sizes = 1048575;
// Timing Parameters for -50 PC200
`ifdef S50
parameter tAC3 = 5.0;
parameter tHZ3 = 5.0;
parameter tAC2 = 8.0;
parameter tHZ2 = 8.0;
parameter tOH = 2.0;
parameter tMRD = 2.0;
parameter tRAS = 40.0;
parameter tRC = 55.0;
parameter tRCD = 18.0;
parameter tRFC = 60.0;
parameter tXSR = 60.0;
parameter tRP = 15.0;
parameter tRRD = 10.0;
parameter tDPLa = 5.0;
parameter tDPLm = 12.0;
parameter tDPDX = 100000.0;
`endif
// Timing Parameters for -60 PC166
`ifdef S60
parameter tAC3 = 5.5;
parameter tHZ3 = 5.5;
parameter tAC2 = 8.0;
parameter tHZ2 = 8.0;
parameter tOH = 2.5;
parameter tMRD = 2.0;
parameter tRAS = 42.0;
parameter tRC = 60.0;
parameter tRCD = 18.0;
parameter tRFC = 66.0;
parameter tXSR = 66.0;
parameter tRP = 18.0;
parameter tRRD = 12.0;
parameter tDPLa = 6.0;
parameter tDPLm = 12.0;
parameter tDPDX = 100000.0;
`endif
// Timing Parameters for -75 PC133
`ifdef S75
parameter tAC3 = 6.0;
parameter tHZ3 = 6.0;
parameter tAC2 = 8.0;
parameter tHZ2 = 8.0;
parameter tOH = 2.5;
parameter tMRD = 2.0;
parameter tRAS = 45.0;
parameter tRC = 67.5;
parameter tRCD = 22.5;
parameter tRFC = 67.5;
parameter tXSR = 67.5;
parameter tRP = 22.5;
parameter tRRD = 15.0;
parameter tDPLa = 7.5;
parameter tDPLm = 15.0;
parameter tDPDX = 100000.0;
`endif
inout [no_of_data - 1 : 0] dq;
input [no_of_addr - 1 : 0] addr;
input [no_of_bank - 1 : 0] ba;
input clk;
input cke;
input csb;
input rasb;
input casb;
input web;
input [no_of_dqm - 1 : 0] dqm;
`protect
reg [no_of_data - 1 : 0] bank0 [0 : mem_sizes];
reg [no_of_data - 1 : 0] bank1 [0 : mem_sizes];
reg [no_of_data - 1 : 0] bank2 [0 : mem_sizes];
reg [no_of_data - 1 : 0] bank3 [0 : mem_sizes];
reg [no_of_bank - 1 : 0] bank_addr [0 : 3]; // bank address Pipeline
reg [no_of_col - 1 : 0] Col_addr [0 : 3]; // Column address Pipeline
reg [3 : 0] Command [0 : 3]; // Command Operation Pipeline
reg [no_of_dqm - 1 : 0] dqm_reg0, dqm_reg1; // DQM Operation Pipeline
reg [no_of_dqm - 1 : 0] dqm_save [0 : 3]; // DQM Operation Pipeline
reg [no_of_addr - 1 : 0] B0_row_addr, B1_row_addr, B2_row_addr, B3_row_addr;
reg [no_of_addr - 1 : 0] Mode_reg;
reg [no_of_addr - 1 : 0] EMode_reg;
reg [no_of_data - 1 : 0] dq_reg, dq_dqm;
reg [no_of_col - 1 : 0] Col_temp, Burst_counter;
reg Act_b0, Act_b1, Act_b2, Act_b3; // bank Activate
reg Pc_b0, Pc_b1, Pc_b2, Pc_b3; // bank Precharge
reg [1 : 0] bank_precharge [0 : 3]; // Precharge Command
reg A10_precharge [0 : 3]; // addr[10] = 1 (All banks)
reg Auto_precharge [0 : 3]; // RW Auto Precharge (bank)
reg Read_precharge [0 : 3]; // R Auto Precharge
reg Write_precharge [0 : 3]; // W Auto Precharge
reg RW_interrupt_read [0 : 3]; // RW Interrupt Read with Auto Precharge
reg RW_interrupt_write [0 : 3]; // RW Interrupt Write with Auto Precharge
reg [1 : 0] RW_interrupt_bank; // RW Interrupt bank
integer RW_interrupt_counter [0 : 3]; // RW Interrupt Counter
integer Count_precharge [0 : 3]; // RW Auto Precharge Counter
reg Data_in_enable;
reg Data_out_enable;
reg [no_of_bank - 1 : 0] bank, Prev_bank;
reg [no_of_addr - 1 : 0] Row;
reg [no_of_col - 1 : 0] Col, Col_brst;
reg [19:0] ccc;
reg [3:0] bit;
reg [2:0] CL;
reg [8:0] BL;
reg RIW_violate;
reg Dout_Drive_Flag;
reg Pre_Dout_Drive_Flag;
reg [10:0] Count_at_Read;
reg Read_cmd_received;
reg Read_cmd_received_cke;
reg Write_cmd_received_cke;
reg state_act_pwrdn,state_pre_pwrdn,state_dpdn,state_self;
reg dpdn_check_start;
reg [10:0] Read_cmd_count;
reg [10:0] Read_cmd_count_cke;
reg [10:0] Write_cmd_count_cke;
reg [3:0] cmp_count;
// Internal system clock
reg ckeZ, Sys_clk;
// Commands Decode
wire Active_enable = ~csb & ~rasb & casb & web ;
wire Aref_enable = ~csb & ~rasb & ~casb & web & cke;
wire Sref_enable = ~csb & ~rasb & ~casb & web & ~cke;
wire Burst_term = ~csb & rasb & casb & ~web & cke;
wire Deep_pwrdn = ~csb & rasb & casb & ~web & ~cke;
wire Mode_reg_enable = ~csb & ~rasb & ~casb & ~web & ~ba[1] & ~ba[0];
wire EMode_reg_enable = ~csb & ~rasb & ~casb & ~web & ba[1] & ~ba[0];
wire Prech_enable = ~csb & ~rasb & casb & ~web ;
wire Read_enable = ~csb & rasb & ~casb & web ;
wire Write_enable = ~csb & rasb & ~casb & ~web ;
// Burst Length Decode
wire Burst_length_1 = ~Mode_reg[2] & ~Mode_reg[1] & ~Mode_reg[0];
wire Burst_length_2 = ~Mode_reg[2] & ~Mode_reg[1] & Mode_reg[0];
wire Burst_length_4 = ~Mode_reg[2] & Mode_reg[1] & ~Mode_reg[0];
wire Burst_length_8 = ~Mode_reg[2] & Mode_reg[1] & Mode_reg[0];
wire Burst_length_f = Mode_reg[2] & Mode_reg[1] & Mode_reg[0];
// CAS Latency Decode
wire Cas_latency_1 = ~Mode_reg[6] & ~Mode_reg[5] & Mode_reg[4];
wire Cas_latency_2 = ~Mode_reg[6] & Mode_reg[5] & ~Mode_reg[4];
wire Cas_latency_3 = ~Mode_reg[6] & Mode_reg[5] & Mode_reg[4];
// Write Burst Mode
wire Write_burst_mode = Mode_reg[9];
`ifdef VERBOSE
wire Debug = 1'b1; // Debug messages : 1 = On
`else
wire Debug = 1'b0; // Debug messages : 1 = On
`endif
wire dq_chk = Sys_clk & Data_in_enable; // Check setup/hold time for DQ
// CKE function
wire clk_suspend_write= (Act_b0 | Act_b1 | Act_b2 | Act_b3) & Write_cmd_received_cke;
wire clk_suspend_read = (Act_b0 | Act_b1 | Act_b2 | Act_b3) & Read_cmd_received_cke;
wire act_pwrdn = (Act_b0 | Act_b1 | Act_b2 | Act_b3) & (~Read_cmd_received_cke & ~Write_cmd_received_cke);
wire pch_pwrdn = (Pc_b0 & Pc_b1 & Pc_b2 & Pc_b3) & (~Read_cmd_received_cke | ~Write_cmd_received_cke);
assign dq = dq_reg; // DQ buffer
// Commands Operation
`define ACT 0
`define NOP 1
`define READ 2
`define WRITE 3
`define PRECH 4
`define A_REF 5
`define BST 6
`define LMR 7
// Timing Check variable
real MRD_chk;
real WR_chkm0, WR_chkm1, WR_chkm2, WR_chkm3;
real RFC_chk, RRD_chk;
real RC_chk0, RC_chk1, RC_chk2, RC_chk3 ;
real RAS_chk0, RAS_chk1, RAS_chk2, RAS_chk3 ;
real RCD_chk0, RCD_chk1, RCD_chk2, RCD_chk3 ;
real RP_chk0, RP_chk1, RP_chk2, RP_chk3 ;
real SELF_chk, DPDN_chk ;
initial begin
mem_init;
dq_reg = {no_of_data{1'bz}};
Data_in_enable = 0; Data_out_enable = 0;
Act_b0 = 1; Act_b1 = 1; Act_b2 = 1; Act_b3 = 1;
Pc_b0 = 0; Pc_b1 = 0; Pc_b2 = 0; Pc_b3 = 0;
WR_chkm0 = 0; WR_chkm1 = 0; WR_chkm2 = 0; WR_chkm3 = 0;
RW_interrupt_read[0] = 0; RW_interrupt_read[1] = 0; RW_interrupt_read[2] = 0; RW_interrupt_read[3] = 0;
RW_interrupt_write[0] = 0; RW_interrupt_write[1] = 0; RW_interrupt_write[2] = 0; RW_interrupt_write[3] = 0;
MRD_chk = 0; RFC_chk = 0; RRD_chk = 0;
RAS_chk0 = 0; RAS_chk1 = 0; RAS_chk2 = 0; RAS_chk3 = 0;
RCD_chk0 = 0; RCD_chk1 = 0; RCD_chk2 = 0; RCD_chk3 = 0;
RC_chk0 = 0; RC_chk1 = 0; RC_chk2 = 0; RC_chk3 = 0;
RP_chk0 = 0; RP_chk1 = 0; RP_chk2 = 0; RP_chk3 = 0;
SELF_chk = 0; DPDN_chk = 0;
Read_cmd_received=0;
Read_cmd_count=0;
Read_cmd_received_cke=0;
Read_cmd_count_cke=0;
Write_cmd_received_cke=0;
Write_cmd_count_cke=0;
state_act_pwrdn=0;
state_pre_pwrdn=0;
state_dpdn=0;
state_self=0;
dpdn_check_start=0;
EMode_reg=0;
Mode_reg=0;
Count_at_Read=0;
$timeformat (-9, 2, " ns", 12);
end
// System clock generator
always begin
@ (posedge clk) begin
Sys_clk = ckeZ;
ckeZ = cke;
end
@ (negedge clk) begin
Sys_clk = 1'b0;
end
end
always @ (posedge clk) begin
// CKE Exit
if (cke === 1'b1) begin
if (state_self === 1'b1) begin
state_self = 1'b0;
SELF_chk=$realtime;
if (Debug) $display ("Time = %t : OPERATION = SREFX : Self Refresh exit", $realtime);
end else if (state_dpdn == 1'b1) begin
state_dpdn = 1'b0;
DPDN_chk=$realtime;
if (Debug) $display ("Time = %t : OPERATION = DPDNX : Deep Powerdown exit", $realtime);
end else if (state_act_pwrdn == 1'b1) begin
state_act_pwrdn = 1'b0;
if (Debug) $display ("Time = %t : OPERATION = APDNX : Active Power down exit", $realtime);
end else if (state_pre_pwrdn == 1'b1) begin
state_pre_pwrdn = 1'b0;
if (Debug) $display ("Time = %t : OPERATION = PPDNX : Precharge Power down exit", $realtime);
end
end
end
always @ (Dout_Drive_Flag) begin
if(Cas_latency_2 ==1) begin
Pre_Dout_Drive_Flag <= #tHZ2 Dout_Drive_Flag;
end else if(Cas_latency_3 ==1) begin
Pre_Dout_Drive_Flag <= #tHZ3 Dout_Drive_Flag;
end
end
always @ (posedge Sys_clk) begin
// Internal Commamd Pipelined
Command[0] = Command[1];
Command[1] = Command[2];
Command[2] = Command[3];
Command[3] = `NOP;
Col_addr[0] = Col_addr[1];
Col_addr[1] = Col_addr[2];
Col_addr[2] = Col_addr[3];
Col_addr[3] = {no_of_col{1'b0}};
bank_addr[0] = bank_addr[1];
bank_addr[1] = bank_addr[2];
bank_addr[2] = bank_addr[3];
bank_addr[3] = 2'b00;
bank_precharge[0] = bank_precharge[1];
bank_precharge[1] = bank_precharge[2];
bank_precharge[2] = bank_precharge[3];
bank_precharge[3] = 2'b00;
A10_precharge[0] = A10_precharge[1];
A10_precharge[1] = A10_precharge[2];
A10_precharge[2] = A10_precharge[3];
A10_precharge[3] = 1'b0;
// dqm pipeline for Read
dqm_reg0 = dqm_reg1;
dqm_reg1 = dqm;
dqm_save[3]=dqm_save[2];
dqm_save[2]=dqm_save[1];
dqm_save[1]=dqm_save[0];
dqm_save[0]=dqm;
if (Read_cmd_received == 1'b1) begin
Read_cmd_count = Read_cmd_count + 1;
end
else begin
Read_cmd_count = 4'b0;
end
//if (Read_cmd_count == (BL+CL+1)) begin
if (Read_cmd_count == Count_at_Read+(BL+CL+1)) begin
Read_cmd_received = 1'b0;
end
// Count for CKE
if (Read_cmd_received_cke == 1'b1) begin
Read_cmd_count_cke = Read_cmd_count_cke + 1;
end
else begin
Read_cmd_count_cke = 4'b0;
end
if (Read_cmd_count_cke == (BL+CL-1)) begin
Read_cmd_received_cke = 1'b0;
end
// Count for CKE
if (Write_cmd_received_cke == 1'b1) begin
Write_cmd_count_cke = Write_cmd_count_cke + 1;
end
else begin
Write_cmd_count_cke = 4'b0;
end
if (Write_cmd_count_cke == BL) begin
Write_cmd_received_cke = 1'b0;
end
// Read or Write with Auto Precharge Counter
if (Auto_precharge[0] === 1'b1) begin
Count_precharge[0] = Count_precharge[0] + 1;
end
if (Auto_precharge[1] === 1'b1) begin
Count_precharge[1] = Count_precharge[1] + 1;
end
if (Auto_precharge[2] === 1'b1) begin
Count_precharge[2] = Count_precharge[2] + 1;
end
if (Auto_precharge[3] === 1'b1) begin
Count_precharge[3] = Count_precharge[3] + 1;
end
// Read or Write Interrupt Counter
if (RW_interrupt_write[0] === 1'b1) begin
RW_interrupt_counter[0] = RW_interrupt_counter[0] + 1;
end
if (RW_interrupt_write[1] === 1'b1) begin
RW_interrupt_counter[1] = RW_interrupt_counter[1] + 1;
end
if (RW_interrupt_write[2] === 1'b1) begin
RW_interrupt_counter[2] = RW_interrupt_counter[2] + 1;
end
if (RW_interrupt_write[3] === 1'b1) begin
RW_interrupt_counter[3] = RW_interrupt_counter[3] + 1;
end
// tMRD Counter
MRD_chk = MRD_chk + 1;
// Auto Refresh
if (Aref_enable === 1'b1) begin
if (Debug) begin
//$display ("%m : at time %t AREF : Auto Refresh", $realtime);
$display ("Time = %t : OPERATION = AREF : Auto Refresh", $realtime);
end
// DPDXN to Auto Refresh
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to AREF)", $realtime);
end
// Self exit to Auto Refresh
if ($realtime - SELF_chk < tXSR) begin
$display ("Time = %t : ERROR : tXSR violation(SREFX to AREF)", $realtime);
end
// Auto Refresh to Auto Refresh
if ($realtime - RFC_chk < tRFC) begin
//$display ("%m : at time %t ERROR: tRFC violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tRFC violation(AREF to AREF)", $realtime);
end
// Precharge to Auto Refresh
if (($realtime - RP_chk0 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE0 to AREF)", $realtime);
end
if (($realtime - RP_chk1 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE1 to AREF)", $realtime);
end
if (($realtime - RP_chk2 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE2 to AREF)", $realtime);
end
if (($realtime - RP_chk3 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE3 to AREF)", $realtime);
end
// Precharge to Refresh
if (Pc_b0 === 1'b0 || Pc_b1 === 1'b0 || Pc_b2 === 1'b0 || Pc_b3 === 1'b0) begin
//$display ("%m : at time %t ERROR: All banks must be Precharge before Auto Refresh", $realtime);
$display ("Time = %t : ERROR : All banks must be Precharged before AREF", $realtime);
end
// Load Mode Register to Auto Refresh
if (MRD_chk < tMRD) begin
//$display ("%m : at time %t ERROR: tMRD violation during Auto Refresh", $realtime);
$display ("Time = %t : ERROR : tMRD violation(MRS to AREF)", $realtime);
end
// Record Current tRFC time
RFC_chk = $realtime;
end
// Load Mode Register
if (Mode_reg_enable === 1'b1) begin
// Register Mode
Mode_reg = addr;
// Decode CAS Latency, Burst Length, Burst Type, and Write Burst Mode
if (Debug) begin
//$display ("%m : at time %t LMR : Load Mode Register", $realtime);
$display ("Time = %t : OPERATION = MRS : Load Mode Register", $realtime);
// CAS Latency
case (addr[6 : 4])
3'b010 : $display (" CAS Latency = 2");
3'b011 : $display (" CAS Latency = 3");
default : $display (" CAS Latency = Reserved");
endcase
case (addr[6 : 4])
3'b010 : CL=2;
3'b011 : CL=3;
default : CL=3;
endcase
// Burst Length
case (addr[2 : 0])
3'b000 : $display (" Burst Length = 1");
3'b001 : $display (" Burst Length = 2");
3'b010 : $display (" Burst Length = 4");
3'b011 : $display (" Burst Length = 8");
3'b111 : $display (" Burst Length = Full");
default : $display (" Burst Length = Reserved");
endcase
case (addr[2 : 0])
3'b000 : BL=1;
3'b001 : BL=2;
3'b010 : BL=4;
3'b011 : BL=8;
3'b111 : BL=512;
default : BL=4;
endcase
// Burst Type
if (addr[3] === 1'b0) begin
$display (" Burst Type = Sequential");
end else if (addr[3] === 1'b1) begin
$display (" Burst Type = Interleaved");
end else begin
$display (" Burst Type = Reserved");
end
// Write Burst Mode
if (addr[9] === 1'b0) begin
$display (" Write Burst Mode = Programmed Burst Length");
end else if (addr[9] === 1'b1) begin
$display (" Write Burst Mode = Single Location Access");
end else begin
$display (" Write Burst Mode = Reserved");
end
end
// Precharge to Load Mode Register
if (Pc_b0 === 1'b0 && Pc_b1 === 1'b0 && Pc_b2 === 1'b0 && Pc_b3 === 1'b0 ) begin
//$display ("%m : at time %t ERROR: all banks must be Precharge before Load Mode Register", $realtime);
$display ("Time = %t : ERROR : all banks must be Precharge before Load Mode Register", $realtime);
end
// Precharge to Load Mode Register
if (($realtime - RP_chk0 < tRP) || ($realtime - RP_chk1 < tRP) ||
($realtime - RP_chk2 < tRP) || ($realtime - RP_chk3 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE to MRS)", $realtime);
end
// Auto Refresh to Load Mode Register
if ($realtime - RFC_chk < tRFC) begin
//$display ("%m : at time %t ERROR: tRFC violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tRFC violation(AREF to MRS)", $realtime);
end
// Load Mode Register to Load Mode Register
if (MRD_chk < tMRD) begin
//$display ("%m : at time %t ERROR: tMRD violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tMRD violation(MRS to MRS)", $realtime);
end
// Reset MRD Counter
MRD_chk = 0;
end
// Load Extended Mode Register
if (EMode_reg_enable === 1'b1) begin
// Register Mode
EMode_reg = addr;
// Decode Driver Strength, Maximum Case Temp, Self Refresh Coverage
if (Debug) begin
//$display ("%m : at time %t LMR : Load Mode Register", $realtime);
$display ("Time = %t : OPERATION = EMRS : Load Extended Mode Register", $realtime);
// Driver Strength
case (addr[6 : 5])
2'b00 : $display (" Driver Strength = Full");
2'b01 : $display (" Driver Strength = 1/2");
2'b10 : $display (" Driver Strength = 1/4");
2'b11 : $display (" Driver Strength = 1/8");
default : $display (" Driver Strength = Reserved");
endcase
// Self Refresh Coverage
case (addr[2 : 0])
3'b000 : $display (" Self Refresh Coverage = All Banks");
3'b001 : $display (" Self Refresh Coverage = TWO Bank");
3'b010 : $display (" Self Refresh Coverage = One Bank");
3'b101 : $display (" Self Refresh Coverage = Half of one Banks");
3'b110 : $display (" Self Refresh Coverage = Quater of one Banks");
default : $display (" Self Refresh Coverage = Reserved");
endcase
end
// Precharge to Load Mode Register
if (Pc_b0 === 1'b0 && Pc_b1 === 1'b0 && Pc_b2 === 1'b0 && Pc_b3 === 1'b0) begin
//$display ("%m : at time %t ERROR: all banks must be Precharge before Load Mode Register", $realtime);
$display ("Time = %t : ERROR : all banks must be Precharge before Load Mode Register", $realtime);
end
// Precharge to Load Mode Register
if (($realtime - RP_chk0 < tRP) || ($realtime - RP_chk1 < tRP) ||
($realtime - RP_chk2 < tRP) || ($realtime - RP_chk3 < tRP)) begin
//$display ("%m : at time %t ERROR: tRP violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tRP violation(PRECHARGE to EMRS)", $realtime);
end
// Auto Refresh to Load Mode Register
if ($realtime - RFC_chk < tRFC) begin
//$display ("%m : at time %t ERROR: tRFC violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tRFC violation(AREF to EMRS)", $realtime);
end
// Load Mode Register to Load Mode Register
if (MRD_chk < tMRD) begin
//$display ("%m : at time %t ERROR: tMRD violation during Load Mode Register", $realtime);
$display ("Time = %t : ERROR : tMRD violation(MRS to EMRS)", $realtime);
end
// Reset MRD Counter
MRD_chk = 0;
end
// Active Block (Latch bank address and Row address)
if (Active_enable === 1'b1) begin
// Activate an open bank can corrupt data
if ((ba === 2'b00 && Act_b0 === 1'b1) || (ba === 2'b01 && Act_b1 === 1'b1) ||
(ba === 2'b10 && Act_b2 === 1'b1) || (ba === 2'b11 && Act_b3 === 1'b1)) begin
//$display ("%m : at time %t ERROR: bank already activated -- data can be corrupted", $realtime);
$display ("Time = %t : ERROR : bank already activated -- data could be corrupted", $realtime);
// $display ("Time = %t : Bank = %d, Act_b0 = %d, Act_b2 = %d", $realtime, ba, Act_b0, Act_b2);
end
// Activate bank 0
if (ba === 2'b00 && Pc_b0 === 1'b1) begin
// Debug Message
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 0 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = ACT : bank = 0 Row = 'h%h", $realtime, addr);
end
// Self exit to ACTIVE
if ($realtime - SELF_chk < tXSR) begin
$display ("Time = %t : ERROR : tXSR violation(SREFX to ACT0)", $realtime);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to ACT0)", $realtime);
end
// ACTIVE to ACTIVE command period
if ($realtime - RC_chk0 < tRC) begin
//$display ("%m : at time %t ERROR: tRC violation during Activate bank 0", $realtime);
$display ("Time = %t : ERROR : tRC violation (ACT0 to ACT0) ", $realtime);
end
// Precharge to Activate bank 0
if ($realtime - RP_chk0 < tRP) begin
//$display ("%m : at time %t ERROR: tRP violation during Activate bank 0", $realtime);
$display ("Time = %t : ERROR : tRP violation (PRECHARGE0 to PRECHARGE0) ", $realtime);
end
// Record variables
Act_b0 = 1'b1;
Pc_b0 = 1'b0;
B0_row_addr = addr [no_of_addr - 1 : 0];
RAS_chk0 = $realtime;
RC_chk0 = $realtime;
RCD_chk0 = $realtime;
end
// Activate bank 1
if (ba === 2'b01 && Pc_b1 === 1'b1) begin
// Debug Message
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 1 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = ACT : bank = 1 Row = 'h%h", $realtime, addr);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to ACT1)", $realtime);
end
// Self exit to ACTIVE
if ($realtime - SELF_chk < tXSR) begin
$display ("Time = %t : ERROR : tXSR violation(SREFX to ACT1)", $realtime);
end
// ACTIVE to ACTIVE command period
if ($realtime - RC_chk1 < tRC) begin
//$display ("%m : at time %t ERROR: tRC violation during Activate bank 1", $realtime);
$display ("Time = %t : ERROR : tRC violation (ACT1 to ACT1) ", $realtime);
end
// Precharge to Activate bank 1
if ($realtime - RP_chk1 < tRP) begin
//$display ("%m : at time %t ERROR: tRP violation during Activate bank 1", $realtime);
$display ("Time = %t : ERROR : tRP violation (PRECHARGE1 to PRECHARGE1) ", $realtime);
end
// Record variables
Act_b1 = 1'b1;
Pc_b1 = 1'b0;
B1_row_addr = addr [no_of_addr - 1 : 0];
RAS_chk1 = $realtime;
RC_chk1 = $realtime;
RCD_chk1 = $realtime;
end
// Activate bank 2
if (ba === 2'b10 && Pc_b2 === 1'b1) begin
// Debug Message
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 2 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = ACT : bank = 2 Row = 'h%h", $realtime, addr);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to ACT2)", $realtime);
end
// Self exit to ACTIVE
if ($realtime - SELF_chk < tXSR) begin
$display ("Time = %t : ERROR : tXSR violation(SREFX to ACT2)", $realtime);
end
// ACTIVE to ACTIVE command period
if ($realtime - RC_chk2 < tRC) begin
//$display ("%m : at time %t ERROR: tRC violation during Activate bank 2", $realtime);
$display ("Time = %t : ERROR : tRC violation (ACT2 to ACT2) ", $realtime);
end
// Precharge to Activate bank 2
if ($realtime - RP_chk2 < tRP) begin
//$display ("%m : at time %t ERROR: tRP violation during Activate bank 2", $realtime);
$display ("Time = %t : ERROR : tRP violation (PRECHARGE2 to PRECHARGE2) ", $realtime);
end
// Record variables
Act_b2 = 1'b1;
Pc_b2 = 1'b0;
B2_row_addr = addr [no_of_addr - 1 : 0];
RAS_chk2 = $realtime;
RC_chk2 = $realtime;
RCD_chk2 = $realtime;
end
// Activate bank 3
if (ba === 2'b11 && Pc_b3 === 1'b1) begin
// Debug Message
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 3 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = ACT : bank = 3 Row = 'h%h", $realtime, addr);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to ACT3)", $realtime);
end
// Self exit to ACTIVE
if ($realtime - SELF_chk < tXSR) begin
$display ("Time = %t : ERROR : tXSR violation(SREFX to ACT3)", $realtime);
end
// ACTIVE to ACTIVE command period
if ($realtime - RC_chk3 < tRC) begin
//$display ("%m : at time %t ERROR: tRC violation during Activate bank 3", $realtime);
$display ("Time = %t : ERROR : tRC violation (ACT1 to ACT3) ", $realtime);
end
// Precharge to Activate bank 3
if ($realtime - RP_chk3 < tRP) begin
//$display ("%m : at time %t ERROR: tRP violation during Activate bank 3", $realtime);
$display ("Time = %t : ERROR : tRP violation (PRECHARGE3 to PRECHARGE3) ", $realtime);
end
// Record variables
Act_b3 = 1'b1;
Pc_b3 = 1'b0;
B3_row_addr = addr [no_of_addr - 1 : 0];
RAS_chk3 = $realtime;
RC_chk3 = $realtime;
RCD_chk3 = $realtime;
end
// Active other bank to Active bank A
if ((Prev_bank != ba) && ($realtime - RRD_chk < tRRD) && (ba === 2'b00)) begin
//$display ("%m : at time %t ERROR: tRRD violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tRRD violation(ACT Others to ACT0) ", $realtime);
end
// Active other bank to Active bank B
if ((Prev_bank != ba) && ($realtime - RRD_chk < tRRD) && (ba === 2'b01)) begin
//$display ("%m : at time %t ERROR: tRRD violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tRRD violation(ACT Others to ACT1) ", $realtime);
end
// Active other bank to Active bank C
if ((Prev_bank != ba) && ($realtime - RRD_chk < tRRD) && (ba === 2'b10)) begin
//$display ("%m : at time %t ERROR: tRRD violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tRRD violation(ACT Others to ACT2) ", $realtime);
end
// Active other bank to Active bank D
if ((Prev_bank != ba) && ($realtime - RRD_chk < tRRD) && (ba === 2'b11)) begin
//$display ("%m : at time %t ERROR: tRRD violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tRRD violation(ACT Others to ACT3) ", $realtime);
end
// Auto Refresh to Activate
if ($realtime - RFC_chk < tRFC) begin
//$display ("%m : at time %t ERROR: tRFC violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tRFC violation(AREF to ACT)", $realtime);
end
// Load Mode Register to Active
if (MRD_chk < tMRD ) begin
//$display ("%m : at time %t ERROR: tMRD violation during Activate bank = %d", $realtime, ba);
$display ("Time = %t : ERROR : tMRD violation(MRS to ACT)", $realtime);
end
// Record variables for checking violation
RRD_chk = $realtime;
Prev_bank = ba;
end
// Precharge Block
if (Prech_enable == 1'b1) begin
// Load Mode Register to Precharge
if ($realtime - MRD_chk < tMRD) begin
//$display ("%m : at time %t ERROR: tMRD violaiton during Precharge", $realtime);
$display ("Time = %t : ERROR : tMRD violation(MRS to PRECHARGE)", $realtime);
end
//Precharge bank 0
if ((addr[10] === 1'b1 || (addr[10] === 1'b0 && ba === 2'b00)) && Act_b0 === 1'b1) begin
Act_b0 = 1'b0;
Pc_b0 = 1'b1;
RP_chk0 = $realtime;
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 0 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = PCHG : bank = 0 ", $realtime);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to PRECHARGE0)", $realtime);
end
// Activate to Precharge
if ($realtime - RAS_chk0 < tRAS) begin
//$display ("%m : at time %t ERROR: tRAS violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tRAS violation(ACT0 to PRECHARGE0)", $realtime);
end
// tWR violation check for write
if ($realtime - WR_chkm0 < tDPLm) begin
//$display ("%m : at time %t ERROR: tWR violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tDPL violation(LAST DATA to PRECHARGE0)", $realtime);
end
end
// Precharge bank 1
if ((addr[10] === 1'b1 || (addr[10] === 1'b0 && ba === 2'b01)) && Act_b1 === 1'b1) begin
Act_b1 = 1'b0;
Pc_b1 = 1'b1;
RP_chk1 = $realtime;
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 1 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = PCHG : bank = 1 ", $realtime);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to PRECHARGE1)", $realtime);
end
// Activate to Precharge
if ($realtime - RAS_chk1 < tRAS) begin
//$display ("%m : at time %t ERROR: tRAS violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tRAS violation(ACT1 to PRECHARGE1)", $realtime);
end
// tWR violation check for write
if ($realtime - WR_chkm1 < tDPLm) begin
//$display ("%m : at time %t ERROR: tWR violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tDPL violation(LAST DATA to PRECHARGE1)", $realtime);
end
end
// Precharge bank 2
if ((addr[10] === 1'b1 || (addr[10] === 1'b0 && ba === 2'b10)) && Act_b2 === 1'b1) begin
Act_b2 = 1'b0;
Pc_b2 = 1'b1;
RP_chk2 = $realtime;
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 2 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = PCHG : bank = 2 ", $realtime);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to PRECHARGE2)", $realtime);
end
// Activate to Precharge
if ($realtime - RAS_chk2 < tRAS) begin
//$display ("%m : at time %t ERROR: tRAS violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tRAS violation(ACT2 to PRECHARGE2)", $realtime);
end
// tWR violation check for write
if ($realtime - WR_chkm2 < tDPLm) begin
//$display ("%m : at time %t ERROR: tWR violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tDPL violation(LAST DATA to PRECHARGE2)", $realtime);
end
end
// Precharge bank 3
if ((addr[10] === 1'b1 || (addr[10] === 1'b0 && ba === 2'b11)) && Act_b3 === 1'b1) begin
Act_b3 = 1'b0;
Pc_b3 = 1'b1;
RP_chk3 = $realtime;
if (Debug) begin
//$display ("%m : at time %t ACT : bank = 3 Row = %d", $realtime, addr);
$display ("Time = %t : OPERATION = PCHG : bank = 3 ", $realtime);
end
// DPDXN to Precharge
if (($realtime - DPDN_chk < tDPDX) && (dpdn_check_start)) begin
$display ("Time = %t : ERROR : Pwrup violation(DPDX to PRECHARGE3)", $realtime);
end
// Activate to Precharge
if ($realtime - RAS_chk3 < tRAS) begin
//$display ("%m : at time %t ERROR: tRAS violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tRAS violation(ACT3 to PRECHARGE3)", $realtime);
end
// tWR violation check for write
if ($realtime - WR_chkm3 < tDPLm) begin
//$display ("%m : at time %t ERROR: tWR violation during Precharge", $realtime);
$display ("Time = %t : ERROR : tDPL violation(LAST DATA to PRECHARGE3)", $realtime);
end
end
// Terminate a Write Immediately (if same bank or all banks)
if (Data_in_enable === 1'b1 && (bank === ba || addr[10] === 1'b1)) begin
Data_in_enable = 1'b0;
end
// Precharge Command Pipeline for Read
if (Cas_latency_3 === 1'b1) begin
Command[2] = `PRECH;
bank_precharge[2] = ba;
A10_precharge[2] = addr[10];
end else if (Cas_latency_2 === 1'b1) begin
Command[1] = `PRECH;
bank_precharge[1] = ba;
A10_precharge[1] = addr[10];
end
end
// Burst terminate
if (Burst_term === 1'b1) begin
// Terminate a Write Immediately
if (Data_in_enable == 1'b1) begin
Data_in_enable = 1'b0;
end
// Terminate a Read Depend on CAS Latency
if (Cas_latency_3 === 1'b1) begin
Command[2] = `BST;
end else if (Cas_latency_2 == 1'b1) begin
Command[1] = `BST;
end
// Display debug message
if (Debug) begin
//$display ("%m : at time %t BST : Burst Terminate",$realtime);
$display ("Time = %t : OPERATION = BST : Burst Stop", $realtime);
end
end
// Read, Write, Column Latch
if (Read_enable === 1'b1) begin
Read_cmd_received = 1'b1;
Read_cmd_received_cke = 1'b1;
//Read_cmd_count = 0;
Count_at_Read = Read_cmd_count;
Read_cmd_count_cke = 0;
Write_cmd_received_cke = 1'b0;
// Check to see if bank is open (ACT)
if ((ba == 2'b00 && Pc_b0 == 1'b1) || (ba == 2'b01 && Pc_b1 == 1'b1) ||
(ba == 2'b10 && Pc_b2 == 1'b1) || (ba == 2'b11 && Pc_b3 == 1'b1)) begin
//$display("%m : at time %t ERROR: bank is not Activated for Read", $realtime);
$display ("Time = %t : ERROR : bank is not Activated for Read", $realtime);
end
// Activate to Read or Write
if ((ba == 2'b00) && ($realtime - RCD_chk0 < tRCD) ||
(ba == 2'b01) && ($realtime - RCD_chk1 < tRCD) ||
(ba == 2'b10) && ($realtime - RCD_chk2 < tRCD) ||
(ba == 2'b11) && ($realtime - RCD_chk3 < tRCD)) begin
//$display("%m : at time %t ERROR: tRCD violation during Read", $realtime);
$display ("Time = %t : ERROR : tRCD violation(ACT to READ)", $realtime);
end
// CAS Latency pipeline
if (Cas_latency_3 == 1'b1) begin
Command[2] = `READ;
Col_addr[2] = addr;
bank_addr[2] = ba;
end else if (Cas_latency_2 == 1'b1) begin
Command[1] = `READ;
Col_addr[1] = addr;
bank_addr[1] = ba;
end
// Read interrupt Write (terminate Write immediately)
if (Data_in_enable == 1'b1) begin
Data_in_enable = 1'b0;
// Interrupting a Write with Autoprecharge
if (Auto_precharge[RW_interrupt_bank] == 1'b1 && Write_precharge[RW_interrupt_bank] == 1'b1) begin
RW_interrupt_write[RW_interrupt_bank] = 1'b1;
RW_interrupt_counter[RW_interrupt_bank] = 0;
// Display debug message
if (Debug) begin
//$display ("%m : at time %t NOTE : Read interrupt Write with Autoprecharge", $realtime);
$display ("Time = %t : OPERATION = Read interrupt Write with Autoprecharge", $realtime);
end
end
end
// Read with Auto Precharge
if (addr[10] == 1'b1) begin
Auto_precharge[ba] = 1'b1;
Count_precharge[ba] = 0;
RW_interrupt_bank = ba;
Read_precharge[ba] = 1'b1;
end
end
// Write Command
if (Write_enable == 1'b1) begin
RIW_violate=1'b0;
if ((Pre_Dout_Drive_Flag == 1'b1) || (Dout_Drive_Flag == 1'b1)) begin
$display ("Time = %t : ERROR : Read and Write Data collision", $realtime);
end
else if ((Data_out_enable == 1'b1) && (&(dqm_save[1]) != 1'b1)) begin
$display ("Time = %t : ERROR : Read and Write Data collision", $realtime);
end
Write_cmd_received_cke=1'b1;
Read_cmd_received=1'b0;
Read_cmd_received_cke=1'b0;
Write_cmd_count_cke=1'b0;
// Activate to Write
if ((ba == 2'b00 && Pc_b0 == 1'b1) || (ba == 2'b01 && Pc_b1 == 1'b1) ||
(ba == 2'b10 && Pc_b2 == 1'b1) || (ba == 2'b11 && Pc_b3 == 1'b1)) begin
//$display("%m : at time %t ERROR: bank is not Activated for Write", $realtime);
$display ("Time = %t : ERROR : bank is not Activated for Write", $realtime);
end
if ((ba == 2'b00) && ($realtime - RCD_chk0 < tRCD)) begin
$display ("Time = %t : ERROR = %t, %t: tRCD violation(ACT0 to WRITE)", $realtime, RCD_chk0,$realtime-RCD_chk0);
end
if ((ba == 2'b01) && ($realtime - RCD_chk1 < tRCD)) begin
$display ("Time = %t : ERROR = %t, %t: tRCD violation(ACT1 to WRITE)", $realtime, RCD_chk1,$realtime-RCD_chk1);
end
if ((ba == 2'b10) && ($realtime - RCD_chk2 < tRCD)) begin
$display ("Time = %t : ERROR = %t, %t: tRCD violation(ACT2 to WRITE)", $realtime, RCD_chk2,$realtime-RCD_chk2);
end
if ((ba == 2'b11) && ($realtime - RCD_chk3 < tRCD)) begin
$display ("Time = %t : ERROR = %t, %t: tRCD violation(ACT3 to WRITE)", $realtime, RCD_chk3,$realtime-RCD_chk3);
end
// Latch Write command, bank, and Column
Command[0] = `WRITE;
Command[1] = `NOP;
Col_addr[0] = addr;
bank_addr[0] = ba;
// Write interrupt Write (terminate Write immediately)
if (Data_in_enable == 1'b1) begin
Data_in_enable = 1'b0;
// Interrupting a Write with Autoprecharge
if (Auto_precharge[RW_interrupt_bank] == 1'b1 && Write_precharge[RW_interrupt_bank] == 1'b1) begin
RW_interrupt_write[RW_interrupt_bank] = 1'b1;
// Display debug message
if (Debug) begin
//$display ("%m : at time %t NOTE : Read bank %d interrupt Write bank %d with Autoprecharge", $realtime, ba, RW_interrupt_bank);
$display ("Time = %t : OPERATION = Write bank %d interrupt Write bank %d with Autoprecharge", $realtime, ba, RW_interrupt_bank);
end
end
end
// Write interrupt Read (terminate Read immediately)
if (Data_out_enable == 1'b1) begin
Data_out_enable = 1'b0;
// Interrupting a Read with Autoprecharge
if (Auto_precharge[RW_interrupt_bank] == 1'b1 && Read_precharge[RW_interrupt_bank] == 1'b1) begin
RW_interrupt_read[RW_interrupt_bank] = 1'b1;
// Display debug message
if (Debug) begin
//$display ("%m : at time %t NOTE : Write bank %d interrupt Read bank %d with Autoprecharge", $realtime, ba, RW_interrupt_bank);
$display ("Time = %t : OPERATION = Write bank %d interrupt Read bank %d with Autoprecharge", $realtime, ba, RW_interrupt_bank);
end
end
end
// Write with Auto Precharge
if (addr[10] == 1'b1) begin
Auto_precharge[ba] = 1'b1;
Count_precharge[ba] = 0;
RW_interrupt_bank = ba;
Write_precharge[ba] = 1'b1;
end
end
/*
Write with Auto Precharge Calculation
The device start internal precharge when:
1. Meet minimum tRAS requirement
and 2. tWR cycle(s) after last valid data
or 3. Interrupt by a Read or Write (with or without Auto Precharge)
Note: Model is starting the internal precharge 1 cycle after they meet all the
requirement but tRP will be compensate for the time after the 1 cycle.
*/
if ((Auto_precharge[0] == 1'b1) && (Write_precharge[0] == 1'b1)) begin
if ((($realtime - RAS_chk0 >= tRAS) && // Case 1
(((Burst_length_1 == 1'b1 || Write_burst_mode == 1'b1) && Count_precharge [0] >= 1) || // Case 2
(Burst_length_2 == 1'b1 && Count_precharge [0] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge [0] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge [0] >= 8))) ||
(RW_interrupt_write[0] == 1'b1 && RW_interrupt_counter[0] >= 1)) begin // Case 3
Auto_precharge[0] = 1'b0;
Write_precharge[0] = 1'b0;
RW_interrupt_write[0] = 1'b0;
Pc_b0 = 1'b1;
Act_b0 = 1'b0;
RP_chk0 = $realtime + tDPLa;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 0", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 0", $realtime+tDPLa);
end
end
end
if ((Auto_precharge[1] == 1'b1) && (Write_precharge[1] == 1'b1)) begin
if ((($realtime - RAS_chk1 >= tRAS) && // Case 1
(((Burst_length_1 == 1'b1 || Write_burst_mode == 1'b1) && Count_precharge [1] >= 1) || // Case 2
(Burst_length_2 == 1'b1 && Count_precharge [1] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge [1] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge [1] >= 8))) ||
(RW_interrupt_write[1] == 1'b1 && RW_interrupt_counter[1] >= 1)) begin // Case 3
Auto_precharge[1] = 1'b0;
Write_precharge[1] = 1'b0;
RW_interrupt_write[1] = 1'b0;
Pc_b1 = 1'b1;
Act_b1 = 1'b0;
RP_chk1 = $realtime + tDPLa;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 1", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 1", $realtime+tDPLa);
end
end
end
if ((Auto_precharge[2] == 1'b1) && (Write_precharge[2] == 1'b1)) begin
if ((($realtime - RAS_chk2 >= tRAS) && // Case 1
(((Burst_length_1 == 1'b1 || Write_burst_mode == 1'b1) && Count_precharge [2] >= 1) || // Case 2
(Burst_length_2 == 1'b1 && Count_precharge [2] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge [2] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge [2] >= 8))) ||
(RW_interrupt_write[2] == 1'b1 && RW_interrupt_counter[2] >= 1)) begin // Case 3
Auto_precharge[2] = 1'b0;
Write_precharge[2] = 1'b0;
RW_interrupt_write[2] = 1'b0;
Pc_b2 = 1'b1;
Act_b2 = 1'b0;
RP_chk2 = $realtime + tDPLa;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 2", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 2", $realtime+tDPLa);
end
end
end
if ((Auto_precharge[3] == 1'b1) && (Write_precharge[3] == 1'b1)) begin
if ((($realtime - RAS_chk3 >= tRAS) && // Case 1
(((Burst_length_1 == 1'b1 || Write_burst_mode == 1'b1) && Count_precharge [3] >= 1) || // Case 2
(Burst_length_2 == 1'b1 && Count_precharge [3] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge [3] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge [3] >= 8))) ||
(RW_interrupt_write[3] == 1'b1 && RW_interrupt_counter[3] >= 1)) begin // Case 3
Auto_precharge[3] = 1'b0;
Write_precharge[3] = 1'b0;
RW_interrupt_write[3] = 1'b0;
Pc_b3 = 1'b1;
Act_b3 = 1'b0;
RP_chk3 = $realtime + tDPLa;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 3", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 3", $realtime+tDPLa);
end
end
end
// Read with Auto Precharge Calculation
// The device start internal precharge:
// 1. Meet minimum tRAS requirement
// and 2. CAS Latency - 1 cycles before last burst
// or 3. Interrupt by a Read or Write (with or without AutoPrecharge)
if ((Auto_precharge[0] == 1'b1) && (Read_precharge[0] == 1'b1)) begin
if ((($realtime - RAS_chk0 >= tRAS) && // Case 1
((Burst_length_1 == 1'b1 && Count_precharge[0] >= 1) || // Case 2
(Burst_length_2 == 1'b1 && Count_precharge[0] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge[0] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge[0] >= 8))) ||
(RW_interrupt_read[0] == 1'b1)) begin // Case 3
Pc_b0 = 1'b1;
Act_b0 = 1'b0;
RP_chk0 = $realtime;
Auto_precharge[0] = 1'b0;
Read_precharge[0] = 1'b0;
RW_interrupt_read[0] = 1'b0;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 0", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 0", $realtime);
end
end
end
if ((Auto_precharge[1] == 1'b1) && (Read_precharge[1] == 1'b1)) begin
if ((($realtime - RAS_chk1 >= tRAS) &&
((Burst_length_1 == 1'b1 && Count_precharge[1] >= 1) ||
(Burst_length_2 == 1'b1 && Count_precharge[1] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge[1] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge[1] >= 8))) ||
(RW_interrupt_read[1] == 1'b1)) begin
Pc_b1 = 1'b1;
Act_b1 = 1'b0;
RP_chk1 = $realtime;
Auto_precharge[1] = 1'b0;
Read_precharge[1] = 1'b0;
RW_interrupt_read[1] = 1'b0;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 1", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 1", $realtime);
end
end
end
if ((Auto_precharge[2] == 1'b1) && (Read_precharge[2] == 1'b1)) begin
if ((($realtime - RAS_chk2 >= tRAS) &&
((Burst_length_1 == 1'b1 && Count_precharge[2] >= 1) ||
(Burst_length_2 == 1'b1 && Count_precharge[2] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge[2] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge[2] >= 8))) ||
(RW_interrupt_read[2] == 1'b1)) begin
Pc_b2 = 1'b1;
Act_b2 = 1'b0;
RP_chk2 = $realtime;
Auto_precharge[2] = 1'b0;
Read_precharge[2] = 1'b0;
RW_interrupt_read[2] = 1'b0;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 2", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 2", $realtime);
end
end
end
if ((Auto_precharge[3] == 1'b1) && (Read_precharge[3] == 1'b1)) begin
if ((($realtime - RAS_chk3 >= tRAS) &&
((Burst_length_1 == 1'b1 && Count_precharge[3] >= 1) ||
(Burst_length_2 == 1'b1 && Count_precharge[3] >= 2) ||
(Burst_length_4 == 1'b1 && Count_precharge[3] >= 4) ||
(Burst_length_8 == 1'b1 && Count_precharge[3] >= 8))) ||
(RW_interrupt_read[3] == 1'b1)) begin
Pc_b3 = 1'b1;
Act_b3 = 1'b0;
RP_chk3 = $realtime;
Auto_precharge[3] = 1'b0;
Read_precharge[3] = 1'b0;
RW_interrupt_read[3] = 1'b0;
if (Debug) begin
//$display ("%m : at time %t NOTE : Start Internal Auto Precharge for bank 3", $realtime);
$display ("Time = %t : OPERATION = Start Internal Auto Precharge for bank 3", $realtime);
end
end
end
// CKE Function
if (cke === 1'b0) begin
if (Sref_enable === 1'b1) begin
state_self = 1'b1;
if (Debug) begin
$display ("Time = %t : OPERATION = SREF : Self Refresh", $realtime);
if (EMode_reg[2:0]==3'b000) $display (" Refresh Full Bank");
if (EMode_reg[2:0]==3'b001) begin
$display (" Refresh Only TWO Bank");
abbank_init;
end
if (EMode_reg[2:0]==3'b010) begin
$display (" Refresh Only One Bank(BANK A)");
bbank_init;
end
if (EMode_reg[2:0]==3'b101) begin
$display (" Refresh Only half of one Bank(BANK A, A10=0)");
half_init;
end
if (EMode_reg[2:0]==3'b110) begin
$display (" Refresh Only Quarter of one Bank(BANK A, A10=0)");
quat_init;
end
end
// Precharge to Auto Refresh
if (($realtime - RP_chk0 < tRP) || ($realtime - RP_chk1 < tRP) ||
($realtime - RP_chk2 < tRP) || ($realtime - RP_chk3 < tRP))
$display ("Time = %t : ERROR : tRP violation(PRECHARGE to SREF)", $realtime);
// Precharge to Refresh
if (Pc_b0 === 1'b0 || Pc_b1 === 1'b0 || Pc_b2 === 1'b0 || Pc_b3 === 1'b0)
$display ("Time = %t : ERROR : All banks must be Precharged before SREF", $realtime);
// Load Mode Register to Self Refresh
if (MRD_chk < tMRD)
$display ("Time = %t : ERROR : tMRD violation(MRS to SREF)", $realtime);
end else if (Deep_pwrdn == 1'b1) begin
state_dpdn = 1'b1;
dpdn_check_start = 1'b1;
Act_b0 = 0; Act_b1 = 0; Act_b2 = 0; Act_b3 = 0;
Pc_b0 = 1; Pc_b1 = 1; Pc_b2 = 1; Pc_b3 = 1;
mem_init;
if (Debug) $display ("Time = %t : OPERATION = DPDN : Deep Powerdown", $realtime);
// Precharge to Auto Refresh
if (($realtime - RP_chk0 < tRP) || ($realtime - RP_chk1 < tRP) ||
($realtime - RP_chk2 < tRP) || ($realtime - RP_chk3 < tRP))
$display ("Time = %t : ERROR : tRP violation(PRECHARGE to DPDN)", $realtime);
// Precharge to Refresh
if (Pc_b0 === 1'b0 || Pc_b1 === 1'b0 || Pc_b2 === 1'b0 || Pc_b3 === 1'b0)
$display ("Time = %t : ERROR : All banks must be Precharged before DPDN", $realtime);
end else if (act_pwrdn == 1'b1) begin
state_act_pwrdn = 1'b1;
if (Debug) $display ("Time = %t : OPERATION = APDN : Active Power down", $realtime);
end else if (pch_pwrdn == 1'b1) begin
state_pre_pwrdn = 1'b1;
if (Debug) $display ("Time = %t : OPERATION = PPDN : Precharge Power down", $realtime);
end else if (clk_suspend_write == 1'b1) begin
if (Debug) $display ("Time = %t : OPERATION = CKSW : Clock Suspend during Write", $realtime);
end else if (clk_suspend_read == 1'b1) begin
if (Debug) $display ("Time = %t : OPERATION = CKSR : Clock Suspend during Read", $realtime);
end
end
// Internal Precharge or Bst
if (Command[0] == `PRECH) begin // Precharge terminate a read with same bank or all banks
if (bank_precharge[0] == bank || A10_precharge[0] == 1'b1) begin
if (Data_out_enable == 1'b1) begin
Data_out_enable = 1'b0;
end
end
end else if (Command[0] == `BST) begin // BST terminate a read to current bank
if (Data_out_enable == 1'b1) begin
Data_out_enable = 1'b0;
end
end
if (Data_out_enable == 1'b0) begin
dq_reg <= #tOH {no_of_data{1'bz}};
Dout_Drive_Flag <= #tOH 1'b0;
end
// Detect Read or Write command
if (Command[0] == `READ) begin
bank = bank_addr[0];
Col = Col_addr[0];
Col_brst = Col_addr[0];
case (bank_addr[0])
2'b00 : Row = B0_row_addr;
2'b01 : Row = B1_row_addr;
2'b10 : Row = B2_row_addr;
2'b11 : Row = B3_row_addr;
endcase
Burst_counter = 0;
Data_in_enable = 1'b0;
Data_out_enable = 1'b1;
end else if (Command[0] == `WRITE) begin
bank = bank_addr[0];
Col = Col_addr[0];
Col_brst = Col_addr[0];
case (bank_addr[0])
2'b00 : Row = B0_row_addr;
2'b01 : Row = B1_row_addr;
2'b10 : Row = B2_row_addr;
2'b11 : Row = B3_row_addr;
endcase
Burst_counter = 0;
Data_in_enable = 1'b1;
Data_out_enable = 1'b0;
end
// DQ buffer (Driver/Receiver)
if (Data_in_enable == 1'b1) begin // Writing Data to Memory
// Array buffer
case (bank)
2'b00 : dq_dqm = bank0 [{Row, Col}];
2'b01 : dq_dqm = bank1 [{Row, Col}];
2'b10 : dq_dqm = bank2 [{Row, Col}];
2'b11 : dq_dqm = bank3 [{Row, Col}];
endcase
// dqm operation
if (dqm[0] == 1'b0) begin
dq_dqm [ 7 : 0] = dq [ 7 : 0 ] & dq [ 7 : 0 ];
end
if (dqm[1] == 1'b0) begin
dq_dqm [15 : 8] = dq [15 : 8] & dq [15 : 8];
end
// Write to memory
case (bank)
2'b00 : bank0 [{Row, Col}] = dq_dqm;
2'b01 : bank1 [{Row, Col}] = dq_dqm;
2'b10 : bank2 [{Row, Col}] = dq_dqm;
2'b11 : bank3 [{Row, Col}] = dq_dqm;
endcase
// Display debug message
if (dqm !== 2'b11) begin
// Record tWR for manual precharge
if (bank == 2'b00) WR_chkm0 = $realtime;
if (bank == 2'b01) WR_chkm1 = $realtime;
if (bank == 2'b10) WR_chkm2 = $realtime;
if (bank == 2'b11) WR_chkm3 = $realtime;
if (Debug) begin
//$display("%m : at time %t WRITE: bank = %d Row = %d, Col = %d, Data = %d", $realtime, bank, Row, Col, dq_dqm);
$display ("Time = %t : OPERATION = WRITE : bank = %d Row = 'h%h, Col = 'h%h, Data = 'h%h", $realtime, bank, Row, Col, dq_dqm);
end
end else begin
if (Debug) begin
//$display("%m : at time %t WRITE: bank = %d Row = %d, Col = %d, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
$display ("Time = %t : OPERATION = WRITE : bank = %d Row = 'h%h, Col = 'h%h, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
end
end
// Advance burst counter subroutine
if(Cas_latency_2 == 1) begin
#tHZ2 Burst_decode;
end else if(Cas_latency_3 == 1) begin
#tHZ3 Burst_decode;
end
end else if (Data_out_enable == 1'b1) begin // Reading Data from Memory
// Array buffer
case (bank)
2'b00 : dq_dqm = bank0[{Row, Col}];
2'b01 : dq_dqm = bank1[{Row, Col}];
2'b10 : dq_dqm = bank2[{Row, Col}];
2'b11 : dq_dqm = bank3[{Row, Col}];
endcase
// dqm operation
if (dqm_reg0 [0] == 1'b1) begin
dq_dqm [ 7 : 0] = 8'bz;
end
if (dqm_reg0 [1] == 1'b1) begin
dq_dqm [15 : 8] = 8'bz;
end
if(Cas_latency_2 ==1) begin
// Display debug message
if ( &(dqm_reg0) != 1'b1) begin
dq_reg = #tAC2 dq_dqm;
Dout_Drive_Flag = 1'b1;
if (Debug) begin
//$display("%m : at time %t READ : bank = %d Row = %d, Col = %d, Data = %d", $realtime, bank, Row, Col, dq_reg);
$display ("Time = %t : OPERATION = READ : bank = %d Row = 'h%h, Col = 'h%h, Data = 'h%h", $realtime, bank, Row, Col, dq_reg);
end
end else begin
dq_reg = #tHZ2 {no_of_data{1'bz}};
Dout_Drive_Flag = 1'b0;
if (Debug) begin
//$display("%m : at time %t READ : bank = %d Row = %d, Col = %d, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
$display ("Time = %t : OPERATION = READ : bank = %d Row = 'h%h, Col = 'h%h, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
end
end
end else if(Cas_latency_3 ==1) begin
// Display debug message
if ( &(dqm_reg0) != 1'b1) begin
dq_reg = #tAC3 dq_dqm;
Dout_Drive_Flag = 1'b1;
if (Debug) begin
//$display("%m : at time %t READ : bank = %d Row = %d, Col = %d, Data = %d", $realtime, bank, Row, Col, dq_reg);
$display ("Time = %t : OPERATION = READ : bank = %d Row = 'h%h, Col = 'h%h, Data = 'h%h", $realtime, bank, Row, Col, dq_reg);
end
end else begin
dq_reg = #tHZ3 {no_of_data{1'bz}};
Dout_Drive_Flag = 1'b0;
if (Debug) begin
//$display("%m : at time %t READ : bank = %d Row = %d, Col = %d, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
$display ("Time = %t : OPERATION = READ : bank = %d Row = 'h%h, Col = 'h%h, Data = Hi-Z due to DQM", $realtime, bank, Row, Col);
end
end
end
// Advance burst counter subroutine
Burst_decode;
end
end
// Burst counter decode
task Burst_decode;
begin
// Advance Burst Counter
Burst_counter = Burst_counter + 1;
// Burst Type
if (Mode_reg[3] == 1'b0) begin // Sequential Burst
Col_temp = Col + 1;
end else if (Mode_reg[3] == 1'b1) begin // Interleaved Burst
Col_temp[2] = Burst_counter[2] ^ Col_brst[2];
Col_temp[1] = Burst_counter[1] ^ Col_brst[1];
Col_temp[0] = Burst_counter[0] ^ Col_brst[0];
end
// Burst Length
if (Burst_length_2) begin // Burst Length = 2
Col [0] = Col_temp [0];
end else if (Burst_length_4) begin // Burst Length = 4
Col [1 : 0] = Col_temp [1 : 0];
end else if (Burst_length_8) begin // Burst Length = 8
Col [2 : 0] = Col_temp [2 : 0];
end else begin // Burst Length = FULL
Col = Col_temp;
end
// Burst Read Single Write
if (Write_burst_mode == 1'b1) begin
Data_in_enable = 1'b0;
end
// Data Counter
if (Burst_length_1 == 1'b1) begin
if (Burst_counter >= 1) begin
Data_in_enable = 1'b0;
Data_out_enable = 1'b0;
end
end else if (Burst_length_2 == 1'b1) begin
if (Burst_counter >= 2) begin
Data_in_enable = 1'b0;
Data_out_enable = 1'b0;
end
end else if (Burst_length_4 == 1'b1) begin
if (Burst_counter >= 4) begin
Data_in_enable = 1'b0;
Data_out_enable = 1'b0;
end
end else if (Burst_length_8 == 1'b1) begin
if (Burst_counter >= 8) begin
Data_in_enable = 1'b0;
Data_out_enable = 1'b0;
end
end
end
endtask
task mem_init;
begin
for (ccc=0;ccc<'b1000_0000_0000_0000_0000;ccc=ccc+1)
begin
bank0[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
bank1[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
bank2[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
bank3[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
//bank0[ccc]=16'b1111_1111_1111_1111;
//bank1[ccc]=16'b1111_1111_1111_1111;
end
end
endtask
task abbank_init;
begin
for (ccc=0;ccc<'b1000_0000_0000_0000_0000;ccc=ccc+1)
begin
bank0[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
bank1[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
end
end
endtask
task bbank_init;
begin
for (ccc=0;ccc<'b1000_0000_0000_0000_0000;ccc=ccc+1)
begin
bank1[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
end
end
endtask
task half_init;
begin
bbank_init;
for (ccc='b0100_0000_0000_0000_0000;ccc<'b1000_0000_0000_0000_0000;ccc=ccc+1)
begin
bank0[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
end
end
endtask
task quat_init;
begin
bbank_init;
for (ccc='b0010_0000_0000_0000_0000;ccc<'b1000_0000_0000_0000_0000;ccc=ccc+1)
begin
bank0[ccc]=32'bxxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx_xxxx;
end
end
endtask
`endprotect
// Timing Parameters
specify
specparam
`ifdef S50
tAH = 1.0, // addr, ba Hold Time
tAS = 1.5, // addr, ba Setup Time
tCH = 2.5, // Clock High-Level Width
tCL = 2.5, // Clock Low-Level Width
tCK = 5.0, // Clock Cycle Time
tDH = 1.0, // Data-in Hold Time
tDS = 1.5, // Data-in Setup Time
tCKH = 1.0, // CKE Hold Time
tCKS = 1.5, // CKE Setup Time
tCMH = 1.0, // CSB, RASB, CASB, WEB, DQMB Hold Time
tCMS = 1.5; // CSB, RASB, CASB, WEB, DQMB Setup Time
`endif
`ifdef S60
tAH = 1.0, // addr, ba Hold Time
tAS = 1.5, // addr, ba Setup Time
tCH = 2.5, // Clock High-Level Width
tCL = 2.5, // Clock Low-Level Width
tCK = 6.0, // Clock Cycle Time
tDH = 1.0, // Data-in Hold Time
tDS = 1.5, // Data-in Setup Time
tCKH = 1.0, // CKE Hold Time
tCKS = 1.5, // CKE Setup Time
tCMH = 1.0, // CSB, RASB, CASB, WEB, DQMB Hold Time
tCMS = 1.5; // CSB, RASB, CASB, WEB, DQMB Setup Time
`endif
`ifdef S75
tAH = 1.0, // addr, ba Hold Time
tAS = 2.0, // addr, ba Setup Time
tCH = 2.5, // Clock High-Level Width
tCL = 2.5, // Clock Low-Level Width
tCK = 7.5, // Clock Cycle Time
tDH = 1.0, // Data-in Hold Time
tDS = 2.0, // Data-in Setup Time
tCKH = 1.0, // CKE Hold Time
tCKS = 2.0, // CKE Setup Time
tCMH = 1.0, // CSB, RASB, CASB, WEB, DQMB Hold Time
tCMS = 2.0; // CSB, RASB, CASB, WEB, DQMB Setup Time
`endif
$width (posedge clk, tCH);
$width (negedge clk, tCL);
$period (negedge clk, tCK);
$period (posedge clk, tCK);
$setuphold(posedge clk, cke, tCKS, tCKH);
$setuphold(posedge clk, csb, tCMS, tCMH);
$setuphold(posedge clk, casb, tCMS, tCMH);
$setuphold(posedge clk, rasb, tCMS, tCMH);
$setuphold(posedge clk, web, tCMS, tCMH);
$setuphold(posedge clk, addr, tAS, tAH);
$setuphold(posedge clk, ba, tAS, tAH);
$setuphold(posedge clk, dqm, tCMS, tCMH);
$setuphold(posedge dq_chk, dq, tDS, tDH);
endspecify
endmodule
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