mor1kx-bemicrocv/ip/altera/ddr3/ddr3_p0_timing.tcl

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2016-08-04 19:22:38 +02:00
# (C) 2001-2015 Altera Corporation. All rights reserved.
# Your use of Altera Corporation's design tools, logic functions and other
# software and tools, and its AMPP partner logic functions, and any output
# files any of the foregoing (including device programming or simulation
# files), and any associated documentation or information are expressly subject
# to the terms and conditions of the Altera Program License Subscription
# Agreement, Altera MegaCore Function License Agreement, or other applicable
# license agreement, including, without limitation, that your use is for the
# sole purpose of programming logic devices manufactured by Altera and sold by
# Altera or its authorized distributors. Please refer to the applicable
# agreement for further details.
#####################################################################
#
# THIS IS AN AUTO-GENERATED FILE!
# -------------------------------
# If you modify this files, all your changes will be lost if you
# regenerate the core!
#
# FILE DESCRIPTION
# ----------------
# This file specifies the timing properties of the memory device and
# of the memory interface
package require ::quartus::ddr_timing_model
###################
# #
# TIMING SETTINGS #
# #
###################
# Interface Clock Period
set t(CK) 3.333
# Reference Clock Period
set t(refCK) 20.0
# Minimum Clock Period
set t(min_CK) 1.5
##########################
# Memory timing parameters
##########################
# A/C Setup/Hold
set t(IS) 0.34
set t(IH) 0.24
# Data Setup/Hold
set t(DS) 0.18
set t(DH) 0.165
# DQS clock edge to DQ data edge (in same group)
set t(DQSQ) [expr { 125 / 1000.0 }]
set t(QH) 0.38
set t(QH) [expr (0.5*$t(CK)-(0.5-$t(QH))*$t(min_CK))/$t(CK)]
# Convert QH into time unit so that it's consistent with DQSQ
set t(QH_time) [ expr $t(QH) * $t(CK) ]
# DQS to CK input timing
set t(DSS) 0.2
set t(DSH) 0.2
set t(DQSS) 0.25
set t(DSS) [expr $t(DSS)*$t(min_CK)/$t(CK)]
set t(DSH) [expr $t(DSH)*$t(min_CK)/$t(CK)]
set t(DQSS) [expr 0.5 - $t(DQSS)*$t(min_CK)/$t(CK)]
# DQS Width
set t(QSH) 0.4
# Write Levelling parameters
set t(WLS) [ expr 0.13 * $t(min_CK) ]
set t(WLH) [ expr 0.13 * $t(min_CK) ]
# DQS to CK timing on reads
set t(DQSCK) [expr { 255 / 1000.0 }]
# FPGA Duty Cycle Distortion
set t(DCD) 0.0
#######################
# Controller parameters
#######################
set t(RL) 7
set t(WL) 6
set t(DWIDTH_RATIO) [expr { 1 * 2 }]
set t(rd_to_wr_turnaround_oct) 2
#####################
# FPGA specifications
#####################
# Sequencer VCALIB width. Determins multicycle length
set vcalib_count_width 2
set fpga(tPLL_PSERR) 0.0
set fpga(tPLL_JITTER) 0.0
# Systematic DCD in the Write Levelling delay chains
set t(WL_DCD) [expr [get_micro_node_delay -micro WL_DCD -parameters {IO VPAD} -in_fitter]/1000.0]
# Non-systematic DC jitter in the Write Levelling delay chains
set t(WL_DCJ) [expr [get_micro_node_delay -micro WL_DC_JITTER -parameters {IO VPAD} -in_fitter]/1000.0]
# Phase shift error in the Write Levelling delay chains between DQ and DQS
set t(WL_PSE) 0.0
# Jitter in the Write Levelling delay chains
set t(WL_JITTER) [expr [get_micro_node_delay -micro WL_JITTER -parameters {IO PHY_SHORT} -in_fitter]/1000.0]
set t(WL_JITTER_DIVISION) [expr [get_micro_node_delay -micro WL_JITTER_DIVISION -parameters {IO PHY_SHORT} -in_fitter]/100.0]
###############
# SSN Info
###############
set SSN(pushout_o) [expr [get_micro_node_delay -micro SSO -parameters [list IO DQDQSABSOLUTE NONLEVELED MAX] -in_fitter]/1000.0]
set SSN(pullin_o) [expr [get_micro_node_delay -micro SSO -parameters [list IO DQDQSABSOLUTE NONLEVELED MIN] -in_fitter]/-1000.0]
set SSN(pushout_i) [expr [get_micro_node_delay -micro SSI -parameters [list IO DQDQSABSOLUTE NONLEVELED MAX] -in_fitter]/1000.0]
set SSN(pullin_i) [expr [get_micro_node_delay -micro SSI -parameters [list IO DQDQSABSOLUTE NONLEVELED MIN] -in_fitter]/-1000.0]
set SSN(rel_pushout_o) [expr [get_micro_node_delay -micro SSO -parameters [list IO DQDQSRELATIVE NONLEVELED MAX] -in_fitter]/1000.0]
set SSN(rel_pullin_o) [expr [get_micro_node_delay -micro SSO -parameters [list IO DQDQSRELATIVE NONLEVELED MIN] -in_fitter]/-1000.0]
set SSN(rel_pushout_i) [expr [get_micro_node_delay -micro SSI -parameters [list IO DQDQSRELATIVE NONLEVELED MAX] -in_fitter]/1000.0]
set SSN(rel_pullin_i) [expr [get_micro_node_delay -micro SSI -parameters [list IO DQDQSRELATIVE NONLEVELED MIN] -in_fitter]/-1000.0]
###############
# Board Effects
###############
# Intersymbol Interference
set ISI(addresscmd_setup) 0.0
set ISI(addresscmd_hold) 0.0
set ISI(DQ) 0.0
set ISI(DQS) 0.0
set ISI(READ_DQ) 0.0
set ISI(READ_DQS) 0.0
# Board skews
set board(abs_max_CK_delay) 0.6
set board(abs_max_DQS_delay) 0.6
set board(minCK_DQS_skew) -0.01
set board(maxCK_DQS_skew) 0.01
set board(tpd_inter_DIMM) 0.0
set board(intra_DQS_group_skew) 0.02
set board(inter_DQS_group_skew) 0.02
set board(DQ_DQS_skew) 0.0
set board(intra_addr_ctrl_skew) 0.02
set board(addresscmd_CK_skew) 0.0