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xue/sim/verilog/micron_mobile_ddr/2048Mb_mobile_ddr_parameters.vh

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2010-12-19 03:38:43 +02:00
/****************************************************************************************
*
* 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 2005 Micron Technology, Inc. All rights reserved.
*
*
* Revisions: baaab - 06/20/06 - tMRD was set to 2.0 ns but should be 2 * tCK. Fixed.
* Added ROW_BITS & BA_BITS for compatibility w/our system.
* Removed part size parameter.
*
****************************************************************************************/
// Parameters current with 2048Mb LPDDR SDRAM
// 04.26.10 - Based on Rev 0.7 04/09EN (DDS)
// SYMBOL UNITS DESCRIPTION
// ------ ----- -----------
`ifdef sg5 // Timing Parameters for -5 (CL = 3)
parameter tAC3_max = 4.8; // tAC ns Access window of DQ from CK/CK#
parameter tAC2_max = 6.5; // tAC ns Access window of DQ from CK/CK#
parameter tCK = 4.8; // tCK ns Nominal Clock Cycle Time
parameter tCK3_min = 4.8; // tCK ns Nominal Clock Cycle Time
parameter tCK2_min = 12.0; // tCK ns Nominal Clock Cycle Time
parameter tDQSQ = 0.40; // tDQSQ ns DQS-DQ skew, DQS to last DQ valid, per group, per access
parameter tHZ3_max = 4.8; // tHZ ns Data-out high Z window from CK/CK#
parameter tHZ2_max = 6.5; // tHZ ns Data-out high Z window from CK/CK#
parameter tRAS = 40.0; // tRAS ns Active to Precharge command time
parameter tRC = 55.0; // tRC ns Active to Active/Auto Refresh command time
parameter tRCD = 14.4; // tRCD ns Active to Read/Write command time
parameter tRP = 14.4; // tRP ns Precharge command period
parameter tRRD = 10.0; // tRRD ns Active bank a to Active bank b command time
parameter tWTR = 2.0; // tWTR tCK Internal Write-to-Read command delay
parameter tXP = 6.0; // tXP ns Exit power-down to first valid cmd Note: spec'd as 2 * tCK
parameter tWR = 14.4; // tWR ns Write recovery time
`else `ifdef sg54 // Timing Parameters for -6 (CL = 3)
parameter tAC3_max = 5.0; // tAC ns Access window of DQ from CK/CK#
parameter tAC2_max = 6.5; // tAC ns Access window of DQ from CK/CK#
parameter tCK = 5.4; // tCK ns Nominal Clock Cycle Time
parameter tCK3_min = 5.4; // tCK ns Nominal Clock Cycle Time
parameter tCK2_min = 12.0; // tCK ns Nominal Clock Cycle Time
parameter tDQSQ = 0.45; // tDQSQ ns DQS-DQ skew, DQS to last DQ valid, per group, per access
parameter tHZ3_max = 5.0; // tHZ ns Data-out high Z window from CK/CK#
parameter tHZ2_max = 6.5; // tHZ ns Data-out high Z window from CK/CK#
parameter tRAS = 41.8; // tRAS ns Active to Precharge command time
parameter tRC = 58.2; // tRC ns Active to Active/Auto Refresh command time
parameter tRCD = 16.2; // tRCD ns Active to Read/Write command time
parameter tRP = 16.2; // tRP ns Precharge command period
parameter tRRD = 10.8; // tRRD ns Active bank a to Active bank b command time
parameter tWTR = 2.0; // tWTR tCK Internal Write-to-Read command delay
parameter tXP = 6.0; // tXP ns Exit power-down to first valid cmd Note: spec'd as 2 * tCK
parameter tWR = 15.0; // tWR ns Write recovery time
`else `ifdef sg6 // Timing Parameters for -6 (CL = 3)
parameter tAC3_max = 5.5; // tAC ns Access window of DQ from CK/CK#
parameter tAC2_max = 6.5; // tAC ns Access window of DQ from CK/CK#
parameter tCK = 6.0; // tCK ns Nominal Clock Cycle Time
parameter tCK3_min = 6.0; // tCK ns Nominal Clock Cycle Time
parameter tCK2_min = 12.0; // tCK ns Nominal Clock Cycle Time
parameter tDQSQ = 0.45; // tDQSQ ns DQS-DQ skew, DQS to last DQ valid, per group, per access
parameter tHZ3_max = 5.5; // tHZ ns Data-out high Z window from CK/CK#
parameter tHZ2_max = 6.5; // tHZ ns Data-out high Z window from CK/CK#
parameter tRAS = 41.8; // tRAS ns Active to Precharge command time
parameter tRC = 60.0; // tRC ns Active to Active/Auto Refresh command time
parameter tRCD = 18.0; // tRCD ns Active to Read/Write command time
parameter tRP = 18.0; // tRP ns Precharge command period
parameter tRRD = 12.0; // tRRD ns Active bank a to Active bank b command time
parameter tWTR = 1.0; // tWTR tCK Internal Write-to-Read command delay
parameter tXP = 6.0; // tXP ns Exit power-down to first valid cmd Note: spec'd as 2 * tCK
parameter tWR = 15.0; // tWR ns Write recovery time
`else `define sg75 // Timing Parameters for -75 (CL = 3)
parameter tAC3_max = 6.0; // tAC ns Access window of DQ from CK/CK#
parameter tAC2_max = 6.5; // tAC ns Access window of DQ from CK/CK#
parameter tCK = 7.5; // tCK ns Nominal Clock Cycle Time
parameter tCK3_min = 7.5; // tCK ns Nominal Clock Cycle Time
parameter tCK2_min = 12.0; // tCK ns Nominal Clock Cycle Time
parameter tDQSQ = 0.60; // tDQSQ ns DQS-DQ skew, DQS to last DQ valid, per group, per access
parameter tHZ3_max = 6.0; // tHZ ns Data-out high Z window from CK/CK#
parameter tHZ2_max = 6.5; // tHZ ns Data-out high Z window from CK/CK#
parameter tRAS = 45.0; // tRAS ns Active to Precharge command time
parameter tRC = 67.5; // tRC ns Active to Active/Auto Refresh command time
parameter tRCD = 22.5; // tRCD ns Active to Read/Write command time
parameter tRP = 22.5; // tRP ns Precharge command period
parameter tRRD = 15.0; // tRRD ns Active bank a to Active bank b command time
parameter tWTR = 1.0; // tWTR tCK Internal Write-to-Read command delay
parameter tXP = 7.50; // tXP ns Exit power-down to first valid cmd Note: spec'd as 2 * tCK
parameter tWR = 15.0; // tWR ns Write recovery time
`endif `endif `endif
parameter tAC2_min = 2.0; // tAC ns Access window of DQ from CK/CK#
parameter tAC3_min = 2.0; // tAC ns Access window of DQ from CK/CK#
parameter tLZ = 1.0; // tLZ ns Data-out low Z window from CK/CK#
parameter tMRD = 2.0; // tMRD tCK Load Mode Register command cycle time
parameter tRFC = 72.0; // tRFC ns Refresh to Refresh Command interval time
parameter tSRC = 1.0; // tSRC tCK SRR READ command to first valid command Note: model adds CL to this value
parameter tSRR = 2.0; // tSRR tCK SRR command to SRR READ command
parameter tCH_MAX = 0.55; // Clk high level width
parameter tCH_MIN = 0.45; // Clk high level width
parameter tCL_MAX = 0.55; // Clk low level width
parameter tCL_MIN = 0.45; // Clk low level width
parameter tCKE = 1.0 ; // Minimum tCKE High/Low time (in tCK's)
parameter CL_MAX = 3 ; // Maximum CAS Latency
parameter BL_MAX = 16 ;
// Size Parameters based on Part Width
`ifdef x16
`ifdef RP
parameter ADDR_BITS = 15; // Set this parameter to control how many Address bits are used
parameter ROW_BITS = 15; // Set this parameter to control how many Row bits are used
parameter DQ_BITS = 16; // Set this parameter to control how many Data bits are used
parameter DQS_BITS = 2; // Set this parameter to control how many DQS bits are used
parameter DM_BITS = 2; // Set this parameter to control how many DM bits are used
parameter COL_BITS = 10; // Set this parameter to control how many Column bits are used
parameter BA_BITS = 2; // Set this parameter to control how many Bank bits are used
`else
parameter ADDR_BITS = 14; // Set this parameter to control how many Address bits are used
parameter ROW_BITS = 14; // Set this parameter to control how many Row bits are used
parameter DQ_BITS = 16; // Set this parameter to control how many Data bits are used
parameter DQS_BITS = 2; // Set this parameter to control how many DQS bits are used
parameter DM_BITS = 2; // Set this parameter to control how many DM bits are used
parameter COL_BITS = 11; // Set this parameter to control how many Column bits are used
parameter BA_BITS = 2; // Set this parameter to control how many Bank bits are used
`endif
`else `define x32
`ifdef RP // reduced page mode
parameter ADDR_BITS = 15; // Set this parameter to control how many Address bits are used
parameter ROW_BITS = 15; // Set this parameter to control how many Row bits are used
parameter DQ_BITS = 32; // Set this parameter to control how many Data bits are used
parameter DQS_BITS = 4; // Set this parameter to control how many DQS bits are used
parameter DM_BITS = 4; // Set this parameter to control how many DM bits are used
parameter COL_BITS = 9; // Set this parameter to control how many Column bits are used
parameter BA_BITS = 2; // Bank bits
`else
parameter ADDR_BITS = 14; // Set this parameter to control how many Address bits are used
parameter ROW_BITS = 14; // Set this parameter to control how many Row bits are used
parameter DQ_BITS = 32; // Set this parameter to control how many Data bits are used
parameter DQS_BITS = 4; // Set this parameter to control how many DQS bits are used
parameter DM_BITS = 4; // Set this parameter to control how many DM bits are used
parameter COL_BITS = 10; // Set this parameter to control how many Column bits are used
parameter BA_BITS = 2; // Bank bits
`endif
`endif
// For use with the Multi Chip Package
`ifdef DUAL_RANK
parameter CS_BITS = 2; // Set this parameter to control how many Chip Select bits are used
parameter RANKS = 2; // Set this parameter to control how many Ranks on the mcp are used
`else
parameter CS_BITS = 2; // Set this parameter to control how many Chip Select bits are used
parameter RANKS = 1; // Set this parameter to control how many Ranks on the mcp are used
`endif
parameter full_mem_bits = BA_BITS+ADDR_BITS+COL_BITS; // Set this parameter to control how many unique addresses are used
parameter part_mem_bits = 10; // Set this parameter to control how many unique addresses are used
parameter part_size = 2048; // Set this parameter to indicate part size(1024Mb, 512Mb, 256Mb, 128Mb)