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xue/sim/verilog/micron_2048Mb_ddr2/subtest.vh
Wolfgang Spraul 29e7ceda7c unzipped 2 files
2010-12-19 01:38:43 +00:00

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Systemverilog
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/****************************************************************************************
*
* File Name: subtest.vh
*
* Description: Micron SDRAM DDR2 (Double Data Rate 2)
* This file is included by tb.v
*
* Disclaimer This software code and all associated documentation, comments or other
* of Warranty: information (collectively "Software") is provided "AS IS" without
* warranty of any kind. MICRON TECHNOLOGY, INC. ("MTI") EXPRESSLY
* DISCLAIMS ALL WARRANTIES EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
* TO, NONINFRINGEMENT OF THIRD PARTY RIGHTS, AND ANY IMPLIED WARRANTIES
* OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. MTI DOES NOT
* WARRANT THAT THE SOFTWARE WILL MEET YOUR REQUIREMENTS, OR THAT THE
* OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR-FREE.
* FURTHERMORE, MTI DOES NOT MAKE ANY REPRESENTATIONS REGARDING THE USE OR
* THE RESULTS OF THE USE OF THE SOFTWARE IN TERMS OF ITS CORRECTNESS,
* ACCURACY, RELIABILITY, OR OTHERWISE. THE ENTIRE RISK ARISING OUT OF USE
* OR PERFORMANCE OF THE SOFTWARE REMAINS WITH YOU. IN NO EVENT SHALL MTI,
* ITS AFFILIATED COMPANIES OR THEIR SUPPLIERS BE LIABLE FOR ANY DIRECT,
* INDIRECT, CONSEQUENTIAL, INCIDENTAL, OR SPECIAL DAMAGES (INCLUDING,
* WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESS INTERRUPTION,
* OR LOSS OF INFORMATION) ARISING OUT OF YOUR USE OF OR INABILITY TO USE
* THE SOFTWARE, EVEN IF MTI HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGES. Because some jurisdictions prohibit the exclusion or
* limitation of liability for consequential or incidental damages, the
* above limitation may not apply to you.
*
* Copyright 2003 Micron Technology, Inc. All rights reserved.
*
****************************************************************************************/
initial begin : test
cke <= 1'b0;
cs_n <= 1'b1;
ras_n <= 1'b1;
cas_n <= 1'b1;
we_n <= 1'b1;
ba <= {BA_BITS{1'bz}};
a <= {ADDR_BITS{1'bz}};
odt <= 1'b0;
dq_en <= 1'b0;
dqs_en <= 1'b0;
cke <= 1'b1;
// POWERUP SECTION
power_up;
// INITIALIZE SECTION
precharge (0, 1); // Precharge all banks
nop (trp);
load_mode (2, 0); // Extended Mode Register (2)
nop (tmrd-1);
load_mode (3, 0); // Extended Mode Register (3)
nop (tmrd-1);
load_mode (1, 13'b0_0_0_000_0_000_1_0_0); // Extended Mode Register with DLL Enable
nop (tmrd-1);
load_mode (0, 13'b0_000_1_0_000_0_011 | (twr-1)<<9 | taa<<4); // Mode Register without DLL Reset (bl=8)
nop (tmrd-1);
precharge (0, 1); // Precharge all banks
nop (trp);
refresh;
nop (trfc-1);
refresh;
nop (trfc-1);
load_mode (0, 13'b0_000_0_0_000_0_011 | (twr-1)<<9 | taa<<4); // Mode Register without DLL Reset (bl=8)
nop (tmrd-1);
load_mode (1, 13'b0_0_0_111_0_000_1_0_0); // Extended Mode Register with OCD Default
nop (tmrd-1);
load_mode (1, 13'b0_0_0_000_0_000_1_0_0); // Extended Mode Register with OCD Exit
nop (tmrd-1);
// DLL RESET ENABLE - you will need 200 TCK before any read command.
nop (200);
// WRITE SECTION
activate (0, 0); // Activate Bank 0, Row 0
nop (trcd-1);
write (0, 4, 0, 0, 'h3210); // Write Bank 0, Col 0
nop (tccd-1);
write (0, 0, 1, 0, 'h0123); // Write Bank 0, Col 0
activate (1, 0); // Activate Bank 1, Row 0
nop (trcd-1);
write (1, 0, 1, 0, 'h4567); // Write Bank 1, Col 0
activate (2, 0); // Activate Bank 2, Row 0
nop (trcd-1);
write (2, 0, 1, 0, 'h89AB); // Write Bank 2, Col 0
activate (3, 0); // Activate Bank 3, Row 0
nop (trcd-1);
write (3, 0, 1, 0, 'hCDEF); // Write Bank 3, Col 0
nop (cl - 1 + bl/2 + twtr-1);
nop (tras);
// READ SECTION
activate (0, 0); // Activate Bank 0, Row 0
nop (trrd-1);
activate (1, 0); // Activate Bank 1, Row 0
nop (trrd-1);
activate (2, 0); // Activate Bank 2, Row 0
nop (trrd-1);
activate (3, 0); // Activate Bank 3, Row 0
read (0, 0, 1); // Read Bank 0, Col 0
nop (bl/2);
read (1, 1, 1); // Read Bank 1, Col 1
nop (bl/2);
read (2, 2, 1); // Read Bank 2, Col 2
nop (bl/2);
read (3, 3, 1); // Read Bank 3, Col 3
nop (rl + bl/2);
activate (0, 0); // Activate Bank 0, Row 0
nop (trrd-1);
activate (1, 0); // Activate Bank 1, Row 0
nop (trcd-1);
$display ("%m at time %t: Figure 22: Consecutive READ Bursts", $time);
read (0, 0, 0); // Read Bank 0, Col 0
nop (bl/2-1);
read (0, 4, 0); // Read Bank 0, Col 4
nop (rl + bl/2);
$display ("%m at time %t: Figure 23: Nonconsecutive READ Bursts", $time);
read (0, 0, 0); // Read Bank 0, Col 0
nop (bl/2);
read (0, 4, 0); // Read Bank 0, Col 4
nop (rl + bl/2);
$display ("%m at time %t: Figure 24: READ Interrupted by READ", $time);
read (0, 0, 0); // Read Bank 0, Col 0
nop (tccd-1);
read (1, 0, 0); // Read Bank 0, Col 0
nop (rl + bl/2);
$display ("%m at time %t: Figure 25 & 26: READ to PRECHARGE", $time);
read (0, 0, 0); // Read Bank 0, Col 0
nop (al + bl/2 + trtp - 2);
precharge (0, 0); // Precharge Bank 0
nop (trp-1);
activate (0, 0); // Activate Bank 0, Row 0
nop (trcd-1);
$display ("%m at time %t: Figure 27: READ to WRITE", $time);
read (0, 0, 0); // Read Bank 0, Col 0
nop (rl + bl/2 - wl);
write (0, 0, 1, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2 + twr + trp-1);
activate (0, 0); // Activate Bank 0, Row 0
nop (trcd-1);
$display ("%m at time %t: Figure 36: Nonconsecutive WRITE to WRITE", $time);
write (0, 0, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (bl/2);
write (0, 4, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2);
$display ("%m at time %t: Figure 37: Random WRITE Cycles", $time);
write (0, 0, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (bl/2-1);
write (0, 4, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2);
$display ("%m at time %t: Figure 37: Figure 38: WRITE Interrupted by WRITE", $time);
write (0, 0, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (tccd-1);
write (1, 4, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2);
$display ("%m at time %t: Figure 39: WRITE to READ", $time);
write (0, 0, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2 + twtr-1);
read_verify (0, 0, 0, 0, 'h0123); // Read Bank 0, Col 0
nop (rl + bl/2);
$display ("%m at time %t: Figure 40: WRITE to PRECHARGE", $time);
write (0, 0, 0, 0, 'h0123); // Write Bank 0, Col 0
nop (wl + bl/2 + twr-1);
precharge (0, 1); // Precharge all banks
nop (trp-1);
// odt Section
$display ("%m at time %t: Figure 60: odt Timing for Active or Fast-Exit Power-Down Mode", $time);
odt = 1'b1;
nop (1);
odt = 1'b0;
nop (tanpd);
$display ("%m at time %t: Figure 61: odt timing for Slow-Exit or Precharge Power-Down Modes", $time);
cke = 1'b0;
@(negedge ck);
odt = 1'b1;
@(negedge ck);
odt = 1'b0;
repeat(tanpd)@(negedge ck);
nop (taxpd);
$display ("%m at time %t: Figure 62 & 63: odt Transition Timings when Entering Power-Down Mode", $time);
odt = 1'b1;
nop (tanpd);
power_down (tcke);
// Self Refresh Section
nop (taxpd);
odt = 1'b0;
nop (3); // taofd
self_refresh (tcke);
nop (tdllk);
nop (tcke);
test_done;
end
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