mor1kx-bemicrocv/ip/altera/ddr3/ddr3_p0_pin_map.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 contains the traversal routines that are used by both
# ddr3_p0_pin_assignments.tcl and ddr3_p0.sdc scripts.
#
# These routines are only meant to support these two scripts.
# Trying to using them in a different context can have unexpected
# results.
set script_dir [file dirname [info script]]
source [file join $script_dir ddr3_p0_parameters.tcl]
load_package sdc_ext
proc ddr3_p0_find_all_pins { mystring } {
set allpins [get_pins -compatibility_mode $mystring ]
foreach_in_collection pin $allpins {
set pinname [ get_pin_info -name $pin ]
puts "$pinname"
}
}
proc ddr3_p0_index_in_collection { col j } {
set i 0
foreach_in_collection path $col {
if {$i == $j} {
return $path
}
set i [expr $i + 1]
}
return ""
}
proc ddr3_p0_get_clock_to_pin_name_mapping {} {
set result [list]
set clocks_collection [get_clocks]
foreach_in_collection clock $clocks_collection {
set clock_name [get_clock_info -name $clock]
set clock_target [get_clock_info -targets $clock]
set first_index [ddr3_p0_index_in_collection $clock_target 0]
set catch_exception [catch {get_pin_info -name $first_index} pin_name]
if {$catch_exception == 0} {
lappend result [list $clock_name $pin_name]
}
}
return $result
}
proc ddr3_p0_get_clock_name_from_pin_name { pin_name } {
set table [ddr3_p0_get_clock_to_pin_name_mapping]
foreach entry $table {
if {[string compare [lindex [lindex [split $entry] 1] 0] $pin_name] == 0} {
return [lindex $entry 0]
}
}
return ""
}
proc ddr3_p0_get_clock_name_from_pin_name_vseries {pin_name suffix} {
set name [ddr3_p0_get_clock_name_from_pin_name $pin_name]
if {[string compare -nocase $name ""] == 0} {
set pll_clock $pin_name
regsub {~PLL_OUTPUT_COUNTER\|divclk$} $pll_clock "" pll_clock
regsub {_phy$} $pll_clock "" pll_clock
regsub {[0-9]+$} $pll_clock "" pll_clock
set pll_clock "${pll_clock}_${suffix}"
} else {
set pll_clock $name
}
return $pll_clock
}
proc ddr3_p0_get_clock_name_from_pin_name_pre_vseries {pin_name suffix} {
set name [ddr3_p0_get_clock_name_from_pin_name $pin_name]
if {[string compare -nocase $name ""] == 0} {
set pll_clock $pin_name
regsub {upll_memphy\|auto_generated\|pll1\|clk\[[0-9]+\]$} $pll_clock "pll" pll_clock
set pll_clock "${pll_clock}_${suffix}"
} else {
set pll_clock $name
}
return $pll_clock
}
proc ddr3_p0_get_or_add_clock_vseries_from_virtual_refclk {args} {
array set opts { /
-suffix "" /
-target "" /
-period "" /
-phase 0 }
array set opts $args
set clock_name [ddr3_p0_get_clock_name_from_pin_name $opts(-target)]
if {[string compare -nocase $clock_name ""] == 0} {
set clock_name $opts(-target)
set suffix $opts(-suffix)
regsub {~PLL_OUTPUT_COUNTER\|divclk$} $clock_name "" clock_name
regsub {_phy$} $clock_name "" clock_name
regsub {[0-9]+$} $clock_name "" clock_name
set clock_name "${clock_name}_${suffix}"
set re [expr $opts(-period) * $opts(-phase)/360]
set fe [expr $opts(-period) * $opts(-phase)/360 + $opts(-period)/2]
create_clock \
-name $clock_name \
-period $opts(-period) \
-waveform [ list $re $fe ] \
$opts(-target)
}
return $clock_name
}
proc ddr3_p0_get_or_add_clock_vseries {args} {
array set opts { /
-suffix "" /
-target "" /
-source "" /
-multiply_by 1 /
-divide_by 1 /
-phase 0 }
array set opts $args
set target $opts(-target)
set clock_name [ddr3_p0_get_clock_name_from_pin_name $opts(-target)]
if {[string compare -nocase $clock_name ""] == 0} {
set clock_name $opts(-target)
set suffix $opts(-suffix)
regsub {~PLL_OUTPUT_COUNTER\|divclk$} $clock_name "" clock_name
regsub {_phy$} $clock_name "" clock_name
regsub {[0-9]+$} $clock_name "" clock_name
regsub -all {\\} $clock_name "" clock_name
set clock_name "${clock_name}_${suffix}"
set source_name "\{$opts(-source)\}"
create_generated_clock \
-name ${clock_name} \
-source ${source_name} \
-multiply_by $opts(-multiply_by) \
-divide_by $opts(-divide_by) \
-phase $opts(-phase) \
$target
}
return $clock_name
}
proc ddr3_p0_get_or_add_clock_pre_vseries {args} {
array set opts { /
-suffix "" /
-target "" /
-source "" /
-multiply_by 1 /
-divide_by 1 /
-phase 0 }
array set opts $args
set clock_name [ddr3_p0_get_clock_name_from_pin_name $opts(-target)]
if {[string compare -nocase $clock_name ""] == 0} {
set clock_name $opts(-target)
set suffix $opts(-suffix)
regsub {upll_memphy\|auto_generated\|pll1\|clk\[[0-9]+\]$} $clock_name "pll" clock_name
set clock_name "${clock_name}_${suffix}"
create_generated_clock \
-name $clock_name \
-source $opts(-source) \
-multiply_by $opts(-multiply_by) \
-divide_by $opts(-divide_by) \
-phase $opts(-phase) \
$opts(-target)
}
return $clock_name
}
proc ddr3_p0_get_source_clock_pin_name {node_name} {
set nodename ""
set nodes [get_nodes $node_name]
ddr3_p0_traverse_fanin_up_to_depth [ddr3_p0_index_in_collection $nodes 0] ddr3_p0_is_node_type_pll_clk clock results_array 10
if {[array size results_array] == 1} {
set pin_id [lindex [array names results_array] 0]
if {[string compare -nocase $pin_id ""] != 0} {
set nodename [get_node_info -name $pin_id]
}
}
return $nodename
}
proc ddr3_p0_find_all_keepers { mystring } {
set allkeepers [get_keepers $mystring ]
foreach_in_collection keeper $allkeepers {
set keepername [ get_node_info -name $keeper ]
puts "$keepername"
}
}
proc ddr3_p0_round_3dp { x } {
return [expr { round($x * 1000) / 1000.0 } ]
}
proc ddr3_p0_get_timequest_name {hier_name} {
set sta_name ""
for {set inst_start [string first ":" $hier_name]} {$inst_start != -1} {} {
incr inst_start
set inst_end [string first "|" $hier_name $inst_start]
if {$inst_end == -1} {
append sta_name [string range $hier_name $inst_start end]
set inst_start -1
} else {
append sta_name [string range $hier_name $inst_start $inst_end]
set inst_start [string first ":" $hier_name $inst_end]
}
}
return $sta_name
}
proc ddr3_p0_are_entity_names_on { } {
set entity_names_on 1
return [set_project_mode -is_show_entity]
}
proc ddr3_p0_get_core_instance_list {corename} {
set full_instance_list [ddr3_p0_get_core_full_instance_list $corename]
set instance_list [list]
foreach inst $full_instance_list {
set sta_name [ddr3_p0_get_timequest_name $inst]
if {[lsearch $instance_list [escape_brackets $sta_name]] == -1} {
lappend instance_list $sta_name
}
}
return $instance_list
}
proc ddr3_p0_get_core_full_instance_list {corename} {
set allkeepers [get_keepers * ]
set_project_mode -always_show_entity_name on
set instance_list [list]
set inst_regexp {(^.*}
append inst_regexp {:[A-Za-z0-9\.\\_\[\]\-\$():]+)\|}
append inst_regexp ${corename}
append inst_regexp {:[A-Za-z0-9\.\\_\[\]\-\$():]+\|}
append inst_regexp "${corename}_acv_hard_memphy"
append inst_regexp {:umemphy}
foreach_in_collection keeper $allkeepers {
set name [ get_node_info -name $keeper ]
if {[regexp -- $inst_regexp $name -> hier_name] == 1} {
if {[lsearch $instance_list [escape_brackets $hier_name]] == -1} {
lappend instance_list $hier_name
}
}
}
set_project_mode -always_show_entity_name qsf
if {[ llength $instance_list ] == 0} {
post_message -type error "The auto-constraining script was not able to detect any instance for core < $corename >"
post_message -type error "Verify the following:"
post_message -type error " The core < $corename > is instantiated within another component (wrapper)"
post_message -type error " The core is not the top-level of the project"
post_message -type error " The memory interface pins are exported to the top-level of the project"
post_message -type error "Alternatively, if you are no longer instantiating core < $corename >,"
post_message -type error " clean up any stale SDC_FILE references from the QSF/QIP files."
}
return $instance_list
}
proc ddr3_p0_traverse_fanin_up_to_depth { node_id match_command edge_type results_array_name depth} {
upvar 1 $results_array_name results
if {$depth < 0} {
error "Internal error: Bad timing netlist search depth"
}
set fanin_edges [get_node_info -${edge_type}_edges $node_id]
set number_of_fanin_edges [llength $fanin_edges]
for {set i 0} {$i != $number_of_fanin_edges} {incr i} {
set fanin_edge [lindex $fanin_edges $i]
set fanin_id [get_edge_info -src $fanin_edge]
if {$match_command == "" || [eval $match_command $fanin_id] != 0} {
set results($fanin_id) 1
} elseif {$depth == 0} {
} else {
ddr3_p0_traverse_fanin_up_to_depth $fanin_id $match_command $edge_type results [expr {$depth - 1}]
}
}
}
proc ddr3_p0_is_node_type_pll_inclk { node_id } {
set cell_id [get_node_info -cell $node_id]
if {$cell_id == ""} {
set result 0
} else {
set atom_type [get_cell_info -atom_type $cell_id]
if {$atom_type == "FRACTIONAL_PLL"} {
set node_name [get_node_info -name $node_id]
set fanin_edges [get_node_info -clock_edges $node_id]
if {([string match "*|refclkin" $node_name] || [string match "*|refclkin\\\[0\\\]" $node_name]) && [llength $fanin_edges] > 0} {
set result 1
} else {
set result 0
}
} elseif {$atom_type == "HPS_SDRAM_PLL"} {
set node_name [get_node_info -name $node_id]
set fanin_edges [get_node_info -clock_edges $node_id]
if {[string match "*|ref_clk" $node_name] && [llength $fanin_edges] > 0} {
set result 1
} else {
set result 0
}
} elseif {$atom_type == "PLL"} {
set node_name [get_node_info -name $node_id]
set fanin_edges [get_node_info -clock_edges $node_id]
if {([string match "*|refclk" $node_name] || [string match "*|refclk\\\[0\\\]" $node_name]) && [llength $fanin_edges] > 0} {
set result 1
} else {
set result 0
}
} else {
set result 0
}
}
return $result
}
proc ddr3_p0_is_node_type_pin { node_id } {
set node_type [get_node_info -type $node_id]
if {$node_type == "port"} {
set result 1
} else {
set result 0
}
return $result
}
proc ddr3_p0_get_input_clk_id { pll_output_node_id } {
if {[ddr3_p0_is_node_type_pll_clk $pll_output_node_id]} {
array set results_array [list]
ddr3_p0_traverse_fanin_up_to_depth $pll_output_node_id ddr3_p0_is_node_type_pll_inclk clock results_array 2
if {[array size results_array] == 1} {
# Found PLL inclk, now find the input pin
set pll_inclk_id [lindex [array names results_array] 0]
array unset results_array
# If fed by a pin, it should be fed by a dedicated input pin,
# and not a global clock network. Limit the search depth to
# prevent finding pins fed by global clock (only allow io_ibuf pins)
ddr3_p0_traverse_fanin_up_to_depth $pll_inclk_id ddr3_p0_is_node_type_pin clock results_array 5
if {[array size results_array] == 1} {
# Fed by a dedicated input pin
set pin_id [lindex [array names results_array] 0]
set result $pin_id
} else {
ddr3_p0_traverse_fanin_up_to_depth $pll_inclk_id ddr3_p0_is_node_type_pll_clk clock pll_clk_results_array 1
ddr3_p0_traverse_fanin_up_to_depth $pll_inclk_id ddr3_p0_is_node_type_pll_clk clock pll_clk_results_array2 2
if {[array size pll_clk_results_array] == 1} {
# Fed by a neighboring PLL via cascade path.
# Should be okay as long as that PLL has its input clock
# fed by a dedicated input. If there isn't, TimeQuest will give its own warning about undefined clocks.
set source_pll_clk_id [lindex [array names pll_clk_results_array] 0]
set source_pll_clk [get_node_info -name $source_pll_clk_id]
set result [ddr3_p0_get_input_clk_id $source_pll_clk_id]
if {$result != -1} {
post_message -type info "Please ensure source clock is defined for PLL with output $source_pll_clk"
} else {
# Fed from core
post_message -type critical_warning "PLL clock $source_pll_clk not driven by a dedicated clock pin. To ensure minimum jitter on memory interface clock outputs, the PLL clock source should be a dedicated PLL input clock pin. Timing analyses may not be valid."
}
} elseif {[array size pll_clk_results_array2] == 1} {
# Fed by a neighboring PLL via global clocks
# This is not ok
set source_pll_clk_id [lindex [array names pll_clk_results_array2] 0]
set source_pll_clk [get_node_info -name $source_pll_clk_id]
post_message -type critical_warning "PLL clock [get_node_info -name $pll_output_node_id] not driven by a dedicated clock pin or neighboring PLL source. To ensure minimum jitter on memory interface clock outputs, the PLL clock source should be a dedicated PLL input clock pin or an output of the neighboring PLL, and not go through a global clock network. Timing analyses may not be valid."
set result [ddr3_p0_get_input_clk_id $source_pll_clk_id]
} else {
# If you got here it's because there's a buffer between the PLL input and the PIN. Issue a warning
# but keep searching for the pin anyways, otherwise all the timing constraining scripts will
# crash
post_message -type critical_warning "PLL clock [get_node_info -name $pll_output_node_id] not driven by a dedicated clock pin or neighboring PLL source. To ensure minimum jitter on memory interface clock outputs, the PLL clock source should be a dedicated PLL input clock pin or an output of the neighboring PLL. Timing analyses may not be valid."
ddr3_p0_traverse_fanin_up_to_depth $pll_inclk_id ddr3_p0_is_node_type_pin clock results_array 20
if {[array size results_array] == 1} {
set pin_id [lindex [array names results_array] 0]
set result $pin_id
} else {
post_message -type critical_warning "Could not find PLL clock for [get_node_info -name $pll_output_node_id]"
set result -1
}
}
}
} else {
post_message -type critical_warning "Could not find PLL clock for [get_node_info -name $pll_output_node_id]"
set result -1
}
} else {
error "Internal error: ddr3_p0_get_input_clk_id only works on PLL output clocks"
}
return $result
}
proc ddr3_p0_is_node_type_pll_clk { node_id } {
set cell_id [get_node_info -cell $node_id]
if {$cell_id == ""} {
set result 0
} else {
set atom_type [get_cell_info -atom_type $cell_id]
if {$atom_type == "PLL_OUTPUT_COUNTER"} {
set node_name [get_node_info -name $node_id]
if {[string match "*|pll*~PLL_OUTPUT_COUNTER*|divclk" $node_name]} {
set result 1
} else {
set result 0
}
} elseif {$atom_type == "HPS_SDRAM_PLL"} {
set node_name [get_node_info -name $node_id]
if {[string match "*|*pll|*_clk" $node_name]} {
set result 1
} else {
set result 0
}
} elseif {$atom_type == "PLL"} {
set node_name [get_node_info -name $node_id]
if {[string match "*|pll*|divclk" $node_name]} {
set result 1
} else {
set result 0
}
} else {
set result 0
}
}
return $result
}
proc ddr3_p0_get_pll_clock { dest_id_list node_type clock_id_name search_depth} {
if {$clock_id_name != ""} {
upvar 1 $clock_id_name clock_id
}
set clock_id -1
array set clk_array [list]
foreach node_id $dest_id_list {
ddr3_p0_traverse_fanin_up_to_depth $node_id ddr3_p0_is_node_type_pll_clk clock clk_array $search_depth
}
if {[array size clk_array] == 1} {
set clock_id [lindex [array names clk_array] 0]
set clk [get_node_info -name $clock_id]
} elseif {[array size clk_array] > 1} {
puts "Found more than 1 clock driving the $node_type"
set clk ""
} else {
set clk ""
}
return $clk
}
proc ddr3_p0_get_pll_clock_name { clock_id } {
set clock_name [get_node_info -name $clock_id]
return $clock_name
}
proc ddr3_p0_get_pll_clock_name_for_acf { clock_id pll_output_wire_name } {
set clock_name [get_node_info -name $clock_id]
regexp {(.*)\|pll\d+\~PLL_OUTPUT_COUNTER} $clock_name matched clock_name
regexp {(.*)\|pll\d+_phy\~PLL_OUTPUT_COUNTER} $clock_name matched clock_name
set clock_name "$clock_name|$pll_output_wire_name"
return $clock_name
}
proc ddr3_p0_get_output_clock_id { ddio_output_pin_list pin_type msg_list_name {max_search_depth 20} } {
upvar 1 $msg_list_name msg_list
set output_clock_id -1
set output_id_list [list]
set pin_collection [get_keepers -no_duplicates $ddio_output_pin_list]
if {[get_collection_size $pin_collection] == [llength $ddio_output_pin_list]} {
foreach_in_collection id $pin_collection {
lappend output_id_list $id
}
} elseif {[get_collection_size $pin_collection] == 0} {
lappend msg_list "warning" "Could not find any $pin_type pins"
} else {
lappend msg_list "warning" "Could not find all $pin_type pins"
}
ddr3_p0_get_pll_clock $output_id_list $pin_type output_clock_id $max_search_depth
return $output_clock_id
}
proc ddr3_p0_get_output_clock_id2 { ddio_output_pin_list pin_type msg_list_name {max_search_depth 20} } {
upvar 1 $msg_list_name msg_list
set output_clock_id -1
set output_id_list [list]
set pin_collection [get_pins -no_duplicates $ddio_output_pin_list]
if {[get_collection_size $pin_collection] == [llength $ddio_output_pin_list]} {
foreach_in_collection id $pin_collection {
lappend output_id_list $id
}
} elseif {[get_collection_size $pin_collection] == 0} {
lappend msg_list "warning" "Could not find any $pin_type pins"
} else {
lappend msg_list "warning" "Could not find all $pin_type pins"
}
ddr3_p0_get_pll_clock $output_id_list $pin_type output_clock_id $max_search_depth
return $output_clock_id
}
proc ddr3_p0_is_node_type_clkbuf { node_id } {
set cell_id [get_node_info -cell $node_id]
if {$cell_id == ""} {
set result 0
} else {
set atom_type [get_cell_info -atom_type $cell_id]
if {$atom_type == "CLKBUF" || $atom_type == "PHY_CLKBUF"} {
set result 1
} else {
set result 0
}
}
return $result
}
proc ddr3_p0_get_clkbuf_clock { dest_id_list node_type clock_id_name search_depth} {
if {$clock_id_name != ""} {
upvar 1 $clock_id_name clock_id
}
set clock_id -1
array set clk_array [list]
foreach node_id $dest_id_list {
ddr3_p0_traverse_fanin_up_to_depth $node_id ddr3_p0_is_node_type_clkbuf clock clk_array $search_depth
}
if {[array size clk_array] == 1} {
set clock_id [lindex [array names clk_array] 0]
set clk [get_node_info -name $clock_id]
} elseif {[array size clk_array] > 1} {
set clk ""
} else {
set clk ""
}
return $clk
}
proc ddr3_p0_get_output_clock_clkbuf_id { ddio_output_pin_list pin_type msg_list_name {max_search_depth 20} } {
upvar 1 $msg_list_name msg_list
set output_clock_id -1
set output_id_list [list]
set pin_collection [get_keepers -no_duplicates $ddio_output_pin_list]
if {[get_collection_size $pin_collection] == [llength $ddio_output_pin_list]} {
foreach_in_collection id $pin_collection {
lappend output_id_list $id
}
} elseif {[get_collection_size $pin_collection] == 0} {
lappend msg_list "warning" "Could not find any $pin_type pins"
} else {
lappend msg_list "warning" "Could not find all $pin_type pins"
}
ddr3_p0_get_clkbuf_clock $output_id_list $pin_type output_clock_id $max_search_depth
return $output_clock_id
}
proc ddr3_p0_is_node_type_clk_phase_select { node_id } {
set cell_id [get_node_info -cell $node_id]
if {$cell_id == ""} {
set result 0
} else {
set atom_type [get_cell_info -atom_type $cell_id]
if {$atom_type == "CLK_PHASE_SELECT"} {
set result 1
} else {
set result 0
}
}
return $result
}
proc ddr3_p0_get_clk_phase_select_clock { dest_id_list node_type clock_id_name search_depth} {
if {$clock_id_name != ""} {
upvar 1 $clock_id_name clock_id
}
set clock_id -1
array set clk_array [list]
foreach node_id $dest_id_list {
ddr3_p0_traverse_fanin_up_to_depth $node_id ddr3_p0_is_node_type_clk_phase_select clock clk_array $search_depth
}
if {[array size clk_array] == 1} {
set clock_id [lindex [array names clk_array] 0]
set clk [get_node_info -name $clock_id]
} elseif {[array size clk_array] > 1} {
set clk ""
} else {
set clk ""
}
return $clk
}
proc ddr3_p0_get_output_clock_clk_phase_select_id { ddio_output_pin_list pin_type msg_list_name {max_search_depth 20} } {
upvar 1 $msg_list_name msg_list
set output_clock_id -1
set output_id_list [list]
set pin_collection [get_keepers -no_duplicates $ddio_output_pin_list]
if {[get_collection_size $pin_collection] == [llength $ddio_output_pin_list]} {
foreach_in_collection id $pin_collection {
lappend output_id_list $id
}
} elseif {[get_collection_size $pin_collection] == 0} {
lappend msg_list "warning" "Could not find any $pin_type pins"
} else {
lappend msg_list "warning" "Could not find all $pin_type pins"
}
ddr3_p0_get_clk_phase_select_clock $output_id_list $pin_type output_clock_id $max_search_depth
return $output_clock_id
}
proc post_sdc_message {msg_type msg} {
if { $::TimeQuestInfo(nameofexecutable) != "quartus_fit"} {
post_message -type $msg_type $msg
}
}
proc ddr3_p0_get_names_in_collection { col } {
set res [list]
foreach_in_collection node $col {
lappend res [ get_node_info -name $node ]
}
return $res
}
proc ddr3_p0_static_map_expand_list { FH listname pinname } {
upvar $listname local_list
puts $FH ""
puts $FH " # $pinname"
puts $FH " set pins($pinname) \[ list \]"
foreach pin $local_list($pinname) {
puts $FH " lappend pins($pinname) $pin"
}
}
proc ddr3_p0_static_map_expand_list_of_list { FH listname pinname } {
upvar $listname local_list
puts $FH ""
puts $FH " # $pinname"
puts $FH " set pins($pinname) \[ list \]"
set count_groups 0
foreach sublist $local_list($pinname) {
puts $FH ""
puts $FH " # GROUP - ${count_groups}"
puts $FH " set group_${count_groups} \[ list \]"
foreach pin $sublist {
puts $FH " lappend group_${count_groups} $pin"
}
puts $FH ""
puts $FH " lappend pins($pinname) \$group_${count_groups}"
incr count_groups
}
}
proc ddr3_p0_static_map_expand_string { FH stringname pinname } {
upvar $stringname local_string
puts $FH ""
puts $FH " # $pinname"
puts $FH " set pins($pinname) $local_string($pinname)"
}
proc ddr3_p0_format_3dp { x } {
return [format %.3f $x]
}
proc ddr3_p0_get_colours { x y } {
set fcolour [list "black"]
if {$x < 0} {
lappend fcolour "red"
} else {
lappend fcolour "blue"
}
if {$y < 0} {
lappend fcolour "red"
} else {
lappend fcolour "blue"
}
return $fcolour
}
proc min { a b } {
if { $a == "" } {
return $b
} elseif { $a < $b } {
return $a
} else {
return $b
}
}
proc max { a b } {
if { $a == "" } {
return $b
} elseif { $a > $b } {
return $a
} else {
return $b
}
}
proc ddr3_p0_max_in_collection { col attribute } {
set i 0
set max 0
foreach_in_collection path $col {
if {$i == 0} {
set max [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp > $max} {
set max $temp
}
}
set i [expr $i + 1]
}
return $max
}
proc ddr3_p0_min_in_collection { col attribute } {
set i 0
set min 0
foreach_in_collection path $col {
if {$i == 0} {
set min [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp < $min} {
set min $temp
}
}
set i [expr $i + 1]
}
return $min
}
proc ddr3_p0_min_in_collection_to_name { col attribute name } {
set i 0
set min 0
foreach_in_collection path $col {
if {[get_node_info -name [get_path_info $path -to]] == $name} {
if {$i == 0} {
set min [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp < $min} {
set min $temp
}
}
set i [expr $i + 1]
}
}
return $min
}
proc ddr3_p0_min_in_collection_from_name { col attribute name } {
set i 0
set min 0
foreach_in_collection path $col {
if {[get_node_info -name [get_path_info $path -from]] == $name} {
if {$i == 0} {
set min [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp < $min} {
set min $temp
}
}
set i [expr $i + 1]
}
}
return $min
}
proc ddr3_p0_max_in_collection_to_name { col attribute name } {
set i 0
set max 0
foreach_in_collection path $col {
if {[get_node_info -name [get_path_info $path -to]] == $name} {
if {$i == 0} {
set max [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp > $max} {
set max $temp
}
}
set i [expr $i + 1]
}
}
return $max
}
proc ddr3_p0_max_in_collection_from_name { col attribute name } {
set i 0
set max 0
foreach_in_collection path $col {
if {[get_node_info -name [get_path_info $path -from]] == $name} {
if {$i == 0} {
set max [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp > $max} {
set max $temp
}
}
set i [expr $i + 1]
}
}
return $max
}
proc ddr3_p0_min_in_collection_to_name2 { col attribute name } {
set i 0
set min 0
foreach_in_collection path $col {
if {[regexp $name [get_node_info -name [get_path_info $path -to]]]} {
if {$i == 0} {
set min [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp < $min} {
set min $temp
}
}
set i [expr $i + 1]
}
}
return $min
}
proc ddr3_p0_min_in_collection_from_name2 { col attribute name } {
set i 0
set min 0
foreach_in_collection path $col {
if {[regexp $name [get_node_info -name [get_path_info $path -from]]]} {
if {$i == 0} {
set min [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp < $min} {
set min $temp
}
}
set i [expr $i + 1]
}
}
return $min
}
proc ddr3_p0_max_in_collection_to_name2 { col attribute name } {
set i 0
set max 0
foreach_in_collection path $col {
if {[regexp $name [get_node_info -name [get_path_info $path -to]]]} {
if {$i == 0} {
set max [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp > $max} {
set max $temp
}
}
set i [expr $i + 1]
}
}
return $max
}
proc ddr3_p0_max_in_collection_from_name2 { col attribute name } {
set i 0
set max 0
foreach_in_collection path $col {
if {[regexp $name [get_node_info -name [get_path_info $path -from]]]} {
if {$i == 0} {
set max [get_path_info $path -${attribute}]
} else {
set temp [get_path_info $path -${attribute}]
if {$temp > $max} {
set max $temp
}
}
set i [expr $i + 1]
}
}
return $max
}
proc ddr3_p0_get_max_clock_path_delay_through_clock_node {from through to} {
set init 0
set max_delay 0
set paths [get_path -rise_from $through -rise_to $to]
foreach_in_collection path1 $paths {
set delay [get_path_info $path1 -arrival_time]
set clock_node [get_node_info -name [get_path_info $path1 -from]]
set paths2 [get_path -rise_from $from -rise_to $clock_node]
foreach_in_collection path2 $paths2 {
set total_delay [expr $delay + [get_path_info $path2 -arrival_time]]
if {$init == 0 || $total_delay > $max_delay} {
set init 1
set max_delay $total_delay
}
}
}
return $max_delay
}
proc ddr3_p0_get_min_clock_path_delay_through_clock_node {from through to} {
set init 0
set min_delay 0
set paths [get_path -rise_from $through -rise_to $to -min_path]
foreach_in_collection path1 $paths {
set delay [get_path_info $path1 -arrival_time]
set clock_node [get_node_info -name [get_path_info $path1 -from]]
set paths2 [get_path -rise_from $from -rise_to $clock_node -min_path]
foreach_in_collection path2 $paths2 {
set total_delay [expr $delay + [get_path_info $path2 -arrival_time]]
if {$init == 0 || $total_delay < $min_delay} {
set init 1
set min_delay $total_delay
}
}
}
return $min_delay
}
proc ddr3_p0_get_model_corner {} {
set operating_conditions [get_operating_conditions]
set return_value [list]
if {[regexp {^([0-9])_H([0-9])_([a-z]+)_([a-z0-9_\-]+)} $operating_conditions matched speedgrade transceiver model corner]} {
} elseif {[regexp {^([A-Z0-9]+)_([a-z]+)_([a-z0-9_\-]+)} $operating_conditions matched speedgrade model corner]} {
}
regsub {\-} $corner "n" corner
set return_value [list $model $corner]
return $return_value
}
proc ddr3_p0_get_min_aiot_delay {pinname} {
set atom_id [get_atom_node_by_name -name $pinname]
set sin_pin [create_pin_object -atom $atom_id]
set results [get_simulation_results -pin $sin_pin -aiot]
set rise 0
set fall 0
foreach { key value } $results {
if {$key == "Absolute Rise Delay to Far-end"} {
set rise $value
} elseif {$key == "Absolute Fall Delay to Far-end"} {
set fall $value
}
}
return [min $rise $fall]
}
proc ddr3_p0_get_rise_aiot_delay {pinname} {
set atom_id [get_atom_node_by_name -name $pinname]
set sin_pin [create_pin_object -atom $atom_id]
set results [get_simulation_results -pin $sin_pin -aiot]
set rise 0
foreach { key value } $results {
if {$key == "Absolute Rise Delay to Far-end"} {
set rise $value
}
}
return $rise
}
proc ddr3_p0_get_fall_aiot_delay {pinname} {
set atom_id [get_atom_node_by_name -name $pinname]
set sin_pin [create_pin_object -atom $atom_id]
set results [get_simulation_results -pin $sin_pin -aiot]
set fall 0
foreach { key value } $results {
if {$key == "Absolute Fall Delay to Far-end"} {
set fall $value
}
}
return $fall
}
proc ddr3_p0_get_aiot_attr {pinname attr} {
set atom_id [get_atom_node_by_name -name $pinname]
set sin_pin [create_pin_object -atom $atom_id]
set results [get_simulation_results -pin $sin_pin -aiot]
set value 0
foreach { key value } $results {
if {$key == $attr} {
return $value
}
}
return $value
}
proc ddr3_p0_get_pll_phase_shift {output_counter_name} {
load_package atoms
read_atom_netlist
set phase_shift ""
# Remove possible "|divclk" at the end of the name
regsub {\|divclk$} $output_counter_name "" output_counter_name
# Get all PLL output counters
set pll_output_counter_atoms [get_atom_nodes -type PLL_OUTPUT_COUNTER]
# Go through the output counters and find the one that matches the above and return the phase
foreach_in_collection atom $pll_output_counter_atoms {
set name [get_atom_node_info -key name -node $atom]
regsub {^[^\:]+\:} $name "" name
regsub -all {\|[^\:]+\:} $name "|" name
# If the name matches return the phase shift
if {$name == $output_counter_name} {
set phase_shift [get_atom_node_info -key TIME_PHASE_SHIFT -node $atom]
regsub { ps} $phase_shift "" phase_shift
break
}
}
return $phase_shift
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_io_standard {target_pin} {
#
# Description: Gets the I/O standard of the given memory interface pin
# This function assumes the fitter has already completed and the
# compiler report has been loaded.
#
# ----------------------------------------------------------------
# Look through the pin report
set io_std [ddr3_p0_get_fitter_report_pin_info $target_pin "I/O Standard" -1]
if {$io_std == ""} {
return "UNKNOWN"
}
set result ""
switch -exact -- $io_std {
"SSTL-2 Class I" {set result "SSTL_2_I"}
"Differential 2.5-V SSTL Class I" {set result "DIFF_SSTL_2_I"}
"SSTL-2 Class II" {set result "SSTL_2_II"}
"Differential 2.5-V SSTL Class II" {set result "DIFF_SSTL_2_II"}
"SSTL-18 Class I" {set result "SSTL_18_I"}
"Differential 1.8-V SSTL Class I" {set result "DIFF_SSTL_18_I"}
"SSTL-18 Class II" {set result "SSTL_18_II"}
"Differential 1.8-V SSTL Class II" {set result "DIFF_SSTL_18_II"}
"SSTL-15 Class I" {set result "SSTL_15_I"}
"Differential 1.5-V SSTL Class I" {set result "DIFF_SSTL_15_I"}
"SSTL-15 Class II" {set result "SSTL_15_II"}
"Differential 1.5-V SSTL Class II" {set result "DIFF_SSTL_15_II"}
"1.8-V HSTL Class I" {set result "HSTL_18_I"}
"Differential 1.8-V HSTL Class I" {set result "DIFF_HSTL_18_I"}
"1.8-V HSTL Class II" {set result "HSTL_18_II"}
"Differential 1.8-V HSTL Class II" {set result "DIFF_HSTL_18_II"}
"1.5-V HSTL Class I" {set result "HSTL_I"}
"Differential 1.5-V HSTL Class I" {set result "DIFF_HSTL"}
"1.5-V HSTL Class II" {set result "HSTL_II"}
"Differential 1.5-V HSTL Class II" {set result "DIFF_HSTL_II"}
"1.2-V HSTL Class I" {set result "SSTL_125"}
"Differential 1.2-V HSTL Class I" {set result "DIFF_SSTL_125"}
"1.2-V HSTL Class II" {set result "SSTL_125"}
"Differential 1.2-V HSTL Class II" {set result "DIFF_SSTL_125"}
"SSTL-15" {set result "SSTL_15"}
"Differential 1.5-V SSTL" {set result "DIFF_SSTL_15"}
"SSTL-135" {set result "SSTL_135"}
"Differential 1.35-V SSTL" {set result "DIFF_SSTL_135"}
"SSTL-125" {set result "SSTL_125"}
"Differential 1.25-V SSTL" {set result "DIFF_SSTL_125"}
"SSTL-12" {set result "DIFF_SSTL_125"}
"Differential 1.2-V HSUL" {set result "DIFF_HSUL_12"}
default {
post_message -type error "Found unsupported Memory I/O standard $io_std on pin $target_pin"
set result "UNKNOWN"
}
}
return $result
}
# Routine to find the termination pins
proc ddr3_p0_get_rzq_pins { instname all_rzq_pins } {
upvar $all_rzq_pins rzqpins
load_package atoms
read_atom_netlist
set rzq_pins [ list ]
set entity_names_on [ ddr3_p0_are_entity_names_on ]
# Get all termination atoms, to which rzqpin should be attached
set_project_mode -always_show_entity_name off
set instance ${instname}*
set atoms [get_atom_nodes -type TERMINATION -matching [escape_brackets $instance] ]
post_message -type info "Number of Termination Atoms are [get_collection_size $atoms]"
foreach_in_collection term_atom $atoms {
set rzq_pin ""
set atom $term_atom
set term_atom_name [get_atom_node_info -key name -node $term_atom]
post_message -type info "Found Termination Atom $term_atom_name"
set type [get_atom_node_info -key type -node $term_atom]
# Check until you traverse to an IO_PAD for the RZQ Pin
while { ![regexp IO_PAD $type ] } {
set name [get_atom_node_info -key name -node $atom]
set iterms [get_atom_iports -node $atom]
set iterm_size [llength $iterms]
# Check for Multiple Inputs
if { $iterm_size > 1 } {
post_message -type error " Multiple inputs to a node:$name attached to a Termination_Atom:$term_atom_name "
break
}
foreach iterm $iterms {
set fanin [get_atom_port_info -node $atom -type iport -port_id $iterm -key fanin]
set atom [lindex $fanin 0]
set type [get_atom_node_info -key type -node $atom]
set rzq_pin [get_atom_node_info -key name -node $atom]
}
}
lappend rzq_pins [ join $rzq_pin ]
}
set_project_mode -always_show_entity_name qsf
set rzqpins $rzq_pins
}
proc ddr3_p0_get_acv_read_offset { period dqs_phase dqs_period } {
set offset [expr abs(90/360.0*$period - $dqs_phase/360.0*$dqs_period)]
if {$offset != 0} {
set part_period [expr $dqs_phase/360.0*$dqs_period - 0.469/2.0 - 0.12]
set offset [max 0.120 $part_period]
}
return $offset
}
# (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.
proc ddr3_p0_sort_proc {a b} {
set idxs [list 1 2 0]
foreach i $idxs {
set ai [lindex $a $i]
set bi [lindex $b $i]
if {$ai > $bi} {
return 1
} elseif { $ai < $bi } {
return -1
}
}
return 0
}
proc ddr3_p0_traverse_atom_path {atom_id atom_oport_id path} {
# Return list of {atom oterm_id} pairs by tracing the atom netlist starting from the given atom_id through the given path
# Path consists of list of {atom_type fanin|fanout|end <port_type> <-optional>}
set result [list]
if {[llength $path] > 0} {
set path_point [lindex $path 0]
set atom_type [lindex $path_point 0]
set next_direction [lindex $path_point 1]
set port_type [lindex $path_point 2]
set atom_optional [lindex $path_point 3]
if {[get_atom_node_info -key type -node $atom_id] == $atom_type} {
if {$next_direction == "end"} {
if {[get_atom_port_info -key type -node $atom_id -port_id $atom_oport_id -type oport] == $port_type} {
lappend result [list $atom_id $atom_oport_id]
}
} elseif {$next_direction == "atom"} {
lappend result [list $atom_id]
} elseif {$next_direction == "fanin"} {
set atom_iport [get_atom_iport_by_type -node $atom_id -type $port_type]
if {$atom_iport != -1} {
set iport_fanin [get_atom_port_info -key fanin -node $atom_id -port_id $atom_iport -type iport]
set source_atom [lindex $iport_fanin 0]
set source_oterm [lindex $iport_fanin 1]
set result [ddr3_p0_traverse_atom_path $source_atom $source_oterm [lrange $path 1 end]]
} elseif {$atom_optional == "-optional"} {
set result [ddr3_p0_traverse_atom_path $atom_id $atom_oport_id [lrange $path 1 end]]
}
} elseif {$next_direction == "fanout"} {
set atom_oport [get_atom_oport_by_type -node $atom_id -type $port_type]
if {$atom_oport != -1} {
set oport_fanout [get_atom_port_info -key fanout -node $atom_id -port_id $atom_oport -type oport]
foreach dest $oport_fanout {
set dest_atom [lindex $dest 0]
set dest_iterm [lindex $dest 1]
set fanout_result_list [ddr3_p0_traverse_atom_path $dest_atom -1 [lrange $path 1 end]]
foreach fanout_result $fanout_result_list {
if {[lsearch $result $fanout_result] == -1} {
lappend result $fanout_result
}
}
}
}
} else {
error "Unexpected path"
}
} elseif {$atom_optional == "-optional"} {
set result [ddr3_p0_traverse_atom_path $atom_id $atom_oport_id [lrange $path 1 end]]
}
}
return $result
}
# Get the fitter name of the PLL output driving the given pin
proc ddr3_p0_traverse_to_ddio_out_pll_clock {pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set result ""
if {$pin != ""} {
set pin_id [get_atom_node_by_name -name $pin]
set pin_to_pll_path [list {IO_PAD fanin PADIN} {IO_OBUF fanin I} {PSEUDO_DIFF_OUT fanin I -optional} {DELAY_CHAIN fanin DATAIN -optional} {DELAY_CHAIN fanin DATAIN -optional} {DDIO_OUT fanin CLKHI -optional} {OUTPUT_PHASE_ALIGNMENT fanin CLK -optional} {CLKBUF fanin INCLK -optional} {PLL end CLK}]
set pll_id_list [ddr3_p0_traverse_atom_path $pin_id -1 $pin_to_pll_path]
if {[llength $pll_id_list] == 1} {
set atom_oterm_pair [lindex $pll_id_list 0]
set result [get_atom_port_info -key name -node [lindex $atom_oterm_pair 0] -port_id [lindex $atom_oterm_pair 1] -type oport]
} else {
lappend msg_list "Error: PLL clock not found for $pin"
}
}
return $result
}
proc ddr3_p0_traverse_to_leveling_delay_chain {pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set result ""
if {$pin != ""} {
set pin_id [get_atom_node_by_name -name $pin]
set pin_to_leveling_path [list {IO_PAD fanin PADIN} {IO_OBUF fanin I} {PSEUDO_DIFF_OUT fanin I -optional} {DELAY_CHAIN fanin DATAIN -optional} {DELAY_CHAIN fanin DATAIN -optional} {DDIO_OUT fanin CLK -optional} {FF fanin CLK -optional} {DDIO_OUT fanin CLKHI -optional} {CLK_PHASE_SELECT fanin CLKIN -optional} {LEVELING_DELAY_CHAIN end CLKOUT} ]
set leveling_id_list [ddr3_p0_traverse_atom_path $pin_id -1 $pin_to_leveling_path]
if {[llength $leveling_id_list] == 1} {
set atom_oterm_pair [lindex $leveling_id_list 0]
set result [get_atom_node_info -key name -node [lindex $atom_oterm_pair 0]]
} else {
lappend msg_list "Error: Leveling delay chain not found for $pin"
}
}
regsub {^[^\:]+\:} $result "" result
regsub -all {\|[^\:]+\:} $result "|" result
return $result
}
proc ddr3_p0_traverse_to_clock_phase_select {pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set result ""
if {$pin != ""} {
set pin_id [get_atom_node_by_name -name $pin]
set pin_to_cps_path [list {IO_PAD fanin PADIN} {IO_OBUF fanin I} {PSEUDO_DIFF_OUT fanin I -optional} {DELAY_CHAIN fanin DATAIN -optional} {DELAY_CHAIN fanin DATAIN -optional} {DDIO_OUT fanin CLK -optional} {FF fanin CLK -optional} {DDIO_OUT fanin CLKHI -optional} {CLK_PHASE_SELECT end CLKOUT} ]
set cps_id_list [ddr3_p0_traverse_atom_path $pin_id -1 $pin_to_cps_path]
if {[llength $cps_id_list] == 1} {
set atom_oterm_pair [lindex $cps_id_list 0]
set result [get_atom_node_info -key name -node [lindex $atom_oterm_pair 0]]
} else {
lappend msg_list "Error: Clock phase select not found for $pin"
}
}
regsub {^[^\:]+\:} $result "" result
regsub -all {\|[^\:]+\:} $result "|" result
return $result
}
proc ddr3_p0_traverse_to_clkbuf {pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set result ""
if {$pin != ""} {
set pin_id [get_atom_node_by_name -name $pin]
set pin_to_clkbuf_path [list {IO_PAD fanin PADIN} {IO_OBUF fanin I} {PSEUDO_DIFF_OUT fanin I -optional} {DELAY_CHAIN fanin DATAIN -optional} {DELAY_CHAIN fanin DATAIN -optional} {DDIO_OUT fanin CLK -optional} {FF fanin CLK -optional} {DDIO_OUT fanin CLKHI -optional} {CLKBUF end OUTCLK} ]
set clkbuf_id_list [ddr3_p0_traverse_atom_path $pin_id -1 $pin_to_clkbuf_path]
if {[llength $clkbuf_id_list] == 1} {
set atom_oterm_pair [lindex $clkbuf_id_list 0]
set result [get_atom_node_info -key name -node [lindex $atom_oterm_pair 0]]
} else {
lappend msg_list "Error: Clock buffer not found for $pin"
}
}
regsub {^[^\:]+\:} $result "" result
regsub -all {\|[^\:]+\:} $result "|" result
return $result
}
proc ddr3_p0_traverse_to_dll {dqs_pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set dqs_pin_id [get_atom_node_by_name -name $dqs_pin]
set dqs_to_dll_path [list {IO_PAD fanout PADOUT} {IO_IBUF fanout O} {DQS_DELAY_CHAIN fanin DELAYCTRLIN} {DLL end DELAYCTRLOUT}]
set dll_id_list [ddr3_p0_traverse_atom_path $dqs_pin_id -1 $dqs_to_dll_path]
set result ""
if {[llength $dll_id_list] == 1} {
set dll_atom_oterm_pair [lindex $dll_id_list 0]
set result [get_atom_node_info -key name -node [lindex $dll_atom_oterm_pair 0]]
} elseif {[llength $dll_id_list] > 1} {
lappend msg_list "Error: Found more than 1 DLL"
} else {
lappend msg_list "Error: DLL not found"
}
return $result
}
proc ddr3_p0_check_hybrid_interface { inst pins_array_name mem_if_memtype } {
upvar $pins_array_name pins
foreach q_group $pins(q_groups) {
set q_group $q_group
lappend q_groups $q_group
}
set all_dq_pins [ join [ join $q_groups ] ]
set dm_pins $pins(dm_pins)
set all_dq_dm_pins [ concat $all_dq_pins $dm_pins ]
foreach dq_dm_pin $all_dq_dm_pins {
set io_type [ddr3_p0_get_fitter_report_pin_io_type_info $dq_dm_pin]
if {[string compare -nocase "Column I/O" $io_type] == 0} {
set io_types("column") 1
} elseif {[string compare -nocase "Row I/O" $io_type] == 0} {
set io_types("row") 1
} else {
post_message -type warning "Could not determine IO type for pin $dq_dm_pin"
}
}
if {[llength [array names io_types]] == 0} {
post_message -type warning "Could not determine if memory interface $inst is implemented in hybrid mode. Assuming memory interface is implemented in non-hybrid mode"
return 0
} elseif {[llength [array names io_types]] == 1} {
return 0
} elseif {[llength [array names io_types]] == 2} {
return 1
} else {
post_message -type error "Internal Error: Found IO types [array names io_types]"
qexit -error
}
}
proc ddr3_p0_verify_flexible_timing_assumptions { inst pins_array_name mem_if_memtype } {
return 1
}
proc ddr3_p0_verify_high_performance_timing_assumptions { inst pins_array_name mem_if_memtype } {
upvar $pins_array_name pins
set num_errors 0
load_package verify_ddr
set ck_ckn_pairs [list]
set failed_assumptions [list]
if {[llength $pins(ck_pins)] > 0 && [llength $pins(ck_pins)] == [llength $pins(ckn_pins)]} {
for {set ck_index 0} {$ck_index != [llength $pins(ck_pins)]} {incr ck_index} {
lappend ck_ckn_pairs [list [lindex $pins(ck_pins) $ck_index] [lindex $pins(ckn_pins) $ck_index]]
}
} else {
incr num_errors
lappend failed_assumptions "Error: Could not locate same number of CK pins as CK# pins"
}
set read_pins_list [list]
set write_pins_list [list]
set read_clock_pairs [list]
set write_clock_pairs [list]
foreach { dqs } $pins(dqs_pins) { dqsn } $pins(dqsn_pins) { dq_list } $pins(q_groups) {
lappend read_pins_list [list $dqs $dq_list]
lappend read_clock_pairs [list $dqs $dqsn]
}
foreach { dqs } $pins(dqs_pins) { dqsn } $pins(dqsn_pins) { dm_list } $pins(dm_pins) { dq_list } $pins(q_groups) {
lappend write_pins_list [list $dqs [concat $dq_list $dm_list]]
lappend write_clock_pairs [list $dqs $dqsn]
}
set all_write_dqs_list $pins(dqs_pins)
set all_d_list $pins(all_dq_pins)
if {[llength $pins(q_groups)] == 0} {
incr num_errors
lappend failed_assumptions "Error: Could not locate DQS pins"
}
if {$num_errors == 0} {
set msg_list [list]
set dll_name [ddr3_p0_traverse_to_dll $dqs msg_list]
set clk_to_write_d [ddr3_p0_traverse_to_ddio_out_pll_clock [lindex $all_d_list 0] msg_list]
set clk_to_write_clock [ddr3_p0_traverse_to_ddio_out_pll_clock [lindex $all_write_dqs_list 0] msg_list]
set clk_to_ck_ckn [ddr3_p0_traverse_to_ddio_out_pll_clock [lindex $pins(ck_pins) 0] msg_list]
foreach msg $msg_list {
set verify_assumptions_exception 1
incr num_errors
lappend failed_assumptions $msg
}
if {$num_errors == 0} {
set verify_assumptions_exception 0
set verify_assumptions_result {0}
set verify_assumptions_exception [catch {verify_assumptions -uniphy -memory_type $mem_if_memtype \
-read_pins_list $read_pins_list -write_pins_list $write_pins_list -ck_ckn_pairs $ck_ckn_pairs \
-clk_to_write_d $clk_to_write_d -clk_to_write_clock $clk_to_write_clock -clk_to_ck_ckn $clk_to_ck_ckn \
-dll $dll_name -read_clock_pairs $read_clock_pairs -write_clock_pairs $write_clock_pairs} verify_assumptions_result]
if {$verify_assumptions_exception == 0} {
incr num_errors [lindex $verify_assumptions_result 0]
set failed_assumptions [concat $failed_assumptions [lrange $verify_assumptions_result 1 end]]
}
}
if {$verify_assumptions_exception != 0} {
lappend failed_assumptions "Error: MACRO timing assumptions could not be verified"
incr num_errors
}
}
if {$num_errors != 0} {
for {set i 0} {$i != [llength $failed_assumptions]} {incr i} {
set raw_msg [lindex $failed_assumptions $i]
if {[regexp {^\W*(Info|Extra Info|Warning|Critical Warning|Error): (.*)$} $raw_msg -- msg_type msg]} {
regsub " " $msg_type _ msg_type
if {$msg_type == "Error"} {
set msg_type "critical_warning"
}
post_message -type $msg_type $msg
} else {
post_message -type info $raw_msg
}
}
post_message -type critical_warning "Read Capture and Write timing analyses may not be valid due to violated timing model assumptions"
}
return [expr $num_errors == 0]
}
# Return a tuple of the tCCS value for a given device
proc ddr3_p0_get_tccs { mem_if_memtype dqs_list period args} {
global TimeQuestInfo
array set options [list "-write_deskew" "none" "-dll_length" 0 "-config_period" 0 "-ddr3_discrete" 0]
foreach {option value} $args {
if {[array names options -exact "$option"] != ""} {
set options($option) $value
} else {
error "ERROR: Unknown get_tccs option $option (with value $value; args are $args)"
}
}
if {$mem_if_memtype == "ddr2"} {
set options(-write_deskew) "none"
}
set speedgrade [ get_speedgrade_string ]
if { ($mem_if_memtype == "ddr3") && ($speedgrade != "2") && ($options(-write_deskew) == "dynamic") } {
set options(-write_deskew) "static"
}
if { ($mem_if_memtype == "ddr3") && ($options(-write_deskew) == "none") } {
set options(-write_deskew) "static"
}
if { ($mem_if_memtype == "ddr3") && ($speedgrade == "4") && ($options(-ddr3_discrete) == 0)} {
set options(-ddr3_discrete) 1
}
set interface_type [ddr3_p0_get_io_interface_type $dqs_list]
# The tCCS for a VHPAD interface is the same as a HPAD interface
if {$interface_type == "VHPAD"} {
set interface_type "HPAD"
}
set io_std [ddr3_p0_get_io_standard [lindex $dqs_list 0]]
set result [list 0 0]
if {$interface_type != "" && $interface_type != "UNKNOWN" && $io_std != "" && $io_std != "UNKNOWN"} {
package require ::quartus::ddr_timing_model
set tccs_params [list IO $interface_type]
if {($mem_if_memtype == "ddr3") && ($options(-ddr3_discrete) == 1)} {
lappend tccs_params NONLEVELED
} elseif {($mem_if_memtype == "ddr3") && ($options(-write_deskew) == "static")} {
if {$options(-dll_length) == 12} {
set options(-dll_length) 10
}
if {$options(-dll_length) != 0} {
lappend tccs_params STATIC_DESKEW_$options(-dll_length)
} else {
# No DLL length dependency
lappend tccs_params STATIC_DESKEW
}
} elseif {($mem_if_memtype == "ddr3") && ($options(-write_deskew) == "dynamic")} {
lappend tccs_params DYNAMIC_DESKEW
}
if {$options(-ddr3_discrete) == 0 && $options(-write_deskew) != "none"} {
set mode [ddr3_p0_get_deskew_freq_range $tccs_params $period]
if {$mode == [list]} {
post_message -type critical_warning "Memory interface with period $period and write $options(-write_deskew) deskew does not fall in a supported frequency range"
} elseif {[lindex $mode 0] != [list]} {
lappend tccs_params [lindex $mode 0]
puts $tccs_params
}
}
if {[catch {get_io_standard_node_delay -dst TCCS_LEAD -io_standard $io_std -parameters $tccs_params} tccs_lead] != 0 || $tccs_lead == "" || $tccs_lead == 0 || \
[catch {get_io_standard_node_delay -dst TCCS_LAG -io_standard $io_std -parameters $tccs_params} tccs_lag] != 0 || $tccs_lag == "" || $tccs_lag == 0 } {
set family $TimeQuestInfo(family)
error "Missing $family timing model for tCCS of $io_std $tccs_params"
} else {
return [list $tccs_lead $tccs_lag]
}
}
}
# For static deskew, get the frequency range of the given configuration
# Return triplet {mode min_freq max_freq}
proc ddr3_p0_get_deskew_freq_range {timing_params period} {
set mode [list]
# freq_range list should be sorted from low to high
if {[lindex $timing_params 2] == "STATIC_DESKEW_8" || [lindex $timing_params 2] == "STATIC_DESKEW_10"} {
# These modes have more than 2 freq ranges
set range_list [list LOW HIGH]
} else {
# Just 1 freq range
set range_list [list [list]]
}
set freq_mode [list]
foreach freq_range $range_list {
if {[catch {get_micro_node_delay -micro MIN -parameters [concat $timing_params $freq_range]} min_freq] != 0 || $min_freq == "" ||
[catch {get_micro_node_delay -micro MAX -parameters [concat $timing_params $freq_range]} max_freq] != 0 || $max_freq == ""} {
# Invalid mode
} else {
set max_freq_period [expr 1000.0 / $min_freq]
set min_freq_period [expr 1000.0 / $max_freq]
lappend freq_mode [list $freq_range $min_freq $max_freq]
if {$period >= $min_freq_period && $period <= $max_freq_period} {
set mode [lindex $freq_mode end]
break
}
}
}
if {$mode == [list] && $freq_mode != [list]} {
if {$period < $min_freq_period} {
# Fastest mode
set mode [lindex $freq_mode end]
} else {
# Slowest mode
set mode [lindex $freq_mode 0]
}
}
return $mode
}
# Return a tuple of setup,hold time for read capture
proc ddr3_p0_get_tsw { mem_if_memtype dqs_list period args} {
global TimeQuestInfo
array set options [list "-read_deskew" "none" "-dll_length" 0 "-config_period" 0 "-ddr3_discrete" 0]
foreach {option value} $args {
if {[array names options -exact "$option"] != ""} {
set options($option) $value
} else {
error "ERROR: Unknown get_tsw option $option (with value $value; args are $args)"
}
}
set interface_type [ddr3_p0_get_io_interface_type $dqs_list]
if {$interface_type == "VHPAD"} {
set interface_type "HPAD"
}
set io_std [ddr3_p0_get_io_standard [lindex $dqs_list 0]]
if {$interface_type != "" && $interface_type != "UNKNOWN" && $io_std != "" && $io_std != "UNKNOWN"} {
package require ::quartus::ddr_timing_model
set family $TimeQuestInfo(family)
set tsw_params [list IO $interface_type]
if {$options(-ddr3_discrete) == 1} {
lappend tsw_params NONLEVELED
} elseif {$options(-read_deskew) == "static"} {
if {$options(-dll_length) != 0} {
lappend tsw_params STATIC_DESKEW_$options(-dll_length)
} else {
# No DLL length dependency
lappend tsw_params STATIC_DESKEW
}
} elseif {$options(-read_deskew) == "dynamic"} {
lappend tsw_params DYNAMIC_DESKEW
}
if {[catch {get_io_standard_node_delay -dst TSU -io_standard $io_std -parameters $tsw_params} tsw_setup] != 0 || $tsw_setup == "" || $tsw_setup == 0 || \
[catch {get_io_standard_node_delay -dst TH -io_standard $io_std -parameters $tsw_params} tsw_hold] != 0 || $tsw_hold == "" || $tsw_hold == 0 } {
error "Missing $family timing model for tSW of $io_std $tsw_params"
} else {
# Derate tSW for DDR2 on VPAD in CIII Q240 parts
# The tSW for HPADs and for other interface types on C8 devices
# have a large guardband, so derating for them is not required
if {[get_part_info -package -pin_count $TimeQuestInfo(part)] == "PQFP 240"} {
if {[catch {get_io_standard_node_delay -dst TSU -io_standard $io_std -parameters [list IO $interface_type Q240_DERATING]} tsw_setup_derating] != 0 || $tsw_setup_derating == 0 || \
[catch {get_io_standard_node_delay -dst TH -io_standard $io_std -parameters [list IO $interface_type Q240_DERATING]} tsw_hold_derating] != 0 || $tsw_hold_derating == 0} {
set f "$io_std/$interface_type/$family"
switch -glob $f {
"SSTL_18*/VPAD/Cyclone III" {
set tsw_setup_derating 50
set tsw_hold_derating 135
}
"SSTL_18*/VPAD/Cyclone IV E" {
set tsw_setup_derating 50
set tsw_hold_derating 135
}
default {
set tsw_setup_derating 0
set tsw_hold_derating 0
}
}
}
incr tsw_setup $tsw_setup_derating
incr tsw_hold $tsw_hold_derating
}
return [list $tsw_setup $tsw_hold]
}
}
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_fitter_report_pin_info_from_report {target_pin info_type pin_report_id} {
#
# Description: Gets the report field for the given pin in the given report
#
# ----------------------------------------------------------------
set pin_name_column [ddr3_p0_get_report_column $pin_report_id "Name"]
set info_column [ddr3_p0_get_report_column $pin_report_id $info_type]
set result ""
if {$pin_name_column == 0 && 0} {
set row_index [get_report_panel_row_index -id $pin_report_id $target_pin]
if {$row_index != -1} {
set row [get_report_panel_row -id $pin_report_id -row $row_index]
set result [lindex $row $info_column]
}
} else {
set report_rows [get_number_of_rows -id $pin_report_id]
for {set row_index 1} {$row_index < $report_rows && $result == ""} {incr row_index} {
set row [get_report_panel_row -id $pin_report_id -row $row_index]
set pin [lindex $row $pin_name_column]
if {$pin == $target_pin} {
set result [lindex $row $info_column]
}
}
}
return $result
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_fitter_report_pin_info {target_pin info_type preferred_report_id {found_report_id_name ""}} {
#
# Description: Gets the report field for the given pin by searching through the
# input, output and bidir pin reports
#
# ----------------------------------------------------------------
if {$found_report_id_name != ""} {
upvar 1 $found_report_id_name found_report_id
}
set found_report_id -1
set result ""
if {$preferred_report_id == -1} {
set pin_report_list [list "Fitter||Resource Section||Bidir Pins" "Fitter||Resource Section||Input Pins" "Fitter||Resource Section||Output Pins"]
for {set pin_report_index 0} {$pin_report_index != [llength $pin_report_list] && $result == ""} {incr pin_report_index} {
set pin_report_id [get_report_panel_id [lindex $pin_report_list $pin_report_index]]
if {$pin_report_id != -1} {
set result [ddr3_p0_get_fitter_report_pin_info_from_report $target_pin $info_type $pin_report_id]
if {$result != ""} {
set found_report_id $pin_report_id
}
} else {
post_message -type error "ddr3_p0_pin_map.tcl: Failed to find fitter report. If report timing is run after an ECO, the user must set_global_assignment -name ECO_REGENERATE_REPORT ON in ddr3_p0.qsf and in ddr3_p0_pin_assignment.tcl files and rerun ECO and STA"
}
}
} else {
set result [ddr3_p0_get_fitter_report_pin_info_from_report $target_pin $info_type $preferred_report_id]
if {$result != ""} {
set found_report_id $preferred_report_id
}
}
return $result
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_fitter_report_pin_io_type_info {target_pin} {
#
# Description: Gets the type of IO, either column or row for
# a given pin. If none found then "" is returned.
#
# ----------------------------------------------------------------
set result ""
set pin_report_id [get_report_panel_id "Fitter||Resource Section||All Package Pins"]
if {$pin_report_id != -1} {
set pin_name_column [ddr3_p0_get_report_column $pin_report_id "Pin Name/Usage"]
set info_column [ddr3_p0_get_report_column $pin_report_id "I/O Type"]
if {$pin_name_column == 0 && 0} {
set row_index [get_report_panel_row_index -id $pin_report_id $target_pin]
if {$row_index != -1} {
set row [get_report_panel_row -id $pin_report_id -row $row_index]
set result [lindex $row $info_column]
}
} else {
set report_rows [get_number_of_rows -id $pin_report_id]
for {set row_index 1} {$row_index < $report_rows && $result == ""} {incr row_index} {
set row [get_report_panel_row -id $pin_report_id -row $row_index]
set pin [lindex $row $pin_name_column]
if {$pin == $target_pin} {
set result [lindex $row $info_column]
}
}
}
} else {
set pin_report_id [get_report_panel_id "Fitter||Resource Section||DQS Summary"]
if {$pin_report_id != -1} {
set report_rows [get_number_of_rows -id $pin_report_id]
set pin_name_column [ddr3_p0_get_report_column $pin_report_id "Name"]
set info_column [ddr3_p0_get_report_column $pin_report_id "I/O Edge"]
for {set row_index 1} {$row_index < $report_rows && $result == ""} {incr row_index} {
set row [get_report_panel_row -id $pin_report_id -row $row_index]
set pin [lindex $row $pin_name_column]
regsub -all {[ \r\t\n]+} $pin "" pin_no_whitespace
if {$pin_no_whitespace == $target_pin} {
set result [lindex $row $info_column]
}
}
if {($result == "Bottom") || ($result == "Top")} {
set result "Column I/O"
} elseif {($result == "Left") || ($result == "Right")} {
set result "Row I/O"
}
}
}
return $result
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_io_interface_type {pin_list} {
#
# Description: Gets the type of pin that the given pins are placed on
# either (HPAD, VPAD, HYBRID, "", or UNKNOWN).
# "" is returned if pin_list is empty
# UNKNOWN is returned if an error was encountered
# This function assumes the fitter has already completed and the
# compiler report has been loaded.
#
# ----------------------------------------------------------------
set preferred_report_id -1
set interface_type ""
foreach target_pin $pin_list {
set io_bank [ddr3_p0_get_fitter_report_pin_info $target_pin "I/O Bank" $preferred_report_id preferred_report_id]
if {[regexp -- {^([0-9]+)[A-Z]*} $io_bank -> io_bank_number]} {
if {$io_bank_number == 1 || $io_bank_number == 2 || $io_bank_number == 5 || $io_bank_number == 6} {
# Row I/O
if {$interface_type == ""} {
set interface_type "HPAD"
} elseif {$interface_type == "VIO"} {
set interface_type "HYBRID"
}
} elseif {$io_bank_number == 3 || $io_bank_number == 4 || $io_bank_number == 7 || $io_bank_number == 8} {
if {$interface_type == ""} {
set interface_type "VPAD"
} elseif {$interface_type == "HIO"} {
set interface_type "HYBRID"
}
} else {
post_message -type critical_warning "Unknown I/O bank $io_bank for pin $target_pin"
# Assume worst case performance (mixed HIO/VIO interface)
set interface_type "HYBRID"
}
}
}
return $interface_type
}
# ----------------------------------------------------------------
#
proc ddr3_p0_get_report_column { report_id str} {
#
# Description: Gets the report column index with the given header string
#
# ----------------------------------------------------------------
set target_col [get_report_panel_column_index -id $report_id $str]
if {$target_col == -1} {
error "Cannot find $str column"
}
return $target_col
}
proc ddr3_p0_traverse_to_dll_id {dqs_pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set dqs_pin_id [get_atom_node_by_name -name $dqs_pin]
set dqs_to_dll_path [list {IO_PAD fanout PADOUT} {IO_IBUF fanout O} {DQS_DELAY_CHAIN fanin DELAYCTRLIN} {DLL end DELAYCTRLOUT}]
set dll_id_list [ddr3_p0_traverse_atom_path $dqs_pin_id -1 $dqs_to_dll_path]
set dll_id -1
if {[llength $dll_id_list] == 1} {
set dll_atom_oterm_pair [lindex $dll_id_list 0]
set dll_id [lindex $dll_atom_oterm_pair 0]
} elseif {[llength $dll_id_list] > 1} {
lappend msg_list "Error: Found more than 1 DLL"
} else {
lappend msg_list "Error: DLL not found"
}
return $dll_id
}
proc ddr3_p0_traverse_to_dqs_delaychain_id {dqs_pin msg_list_name} {
upvar 1 $msg_list_name msg_list
set dqs_pin_id [get_atom_node_by_name -name $dqs_pin]
set dqs_to_delaychain_path [list {IO_PAD fanout PADOUT} {IO_IBUF fanout O} {DQS_DELAY_CHAIN atom}]
set delaychain_id_list [ddr3_p0_traverse_atom_path $dqs_pin_id -1 $dqs_to_delaychain_path]
set delaychain_id -1
if {[llength $delaychain_id_list] == 1} {
set delaychain_atom_oterm_pair [lindex $delaychain_id_list 0]
set delaychain_id [lindex $delaychain_atom_oterm_pair 0]
} elseif {[llength $delaychain_id_list] > 1} {
lappend msg_list "Error: Found more than 1 DQS delaychain"
} else {
lappend msg_list "Error: DQS delaychain not found"
}
return $delaychain_id
}
proc ddr3_p0_get_dqs_phase { dqs_pins } {
set dqs_phase -100
set dqs0 [lindex $dqs_pins 0]
if {$dqs0 != ""} {
set dqs_delay_chain_id [ddr3_p0_traverse_to_dqs_delaychain_id $dqs0 msg_list]
if {$dqs_delay_chain_id != -1} {
set dqs_phase [get_atom_node_info -key INT_DQS_PHASE_SHIFT -node $dqs_delay_chain_id]
}
}
set dqs_phase [expr {$dqs_phase / 100}]
if {$dqs_phase < 0} {
set dqs_phase 90
post_message -type critical_warning "Unable to determine DQS delay chain phase shift. Assuming default setting of $dqs_phase"
}
return $dqs_phase
}
proc ddr3_p0_get_dqs_period { dqs_pins } {
set dqs_period -100
set dqs0 [lindex $dqs_pins 0]
if {$dqs0 != ""} {
set dll_id [ddr3_p0_traverse_to_dll_id $dqs0 msg_list]
if {$dll_id != -1} {
set dqs_period_str [get_atom_node_info -key TIME_INPUT_FREQUENCY -node $dll_id]
if {[regexp {(.*) ps} $dqs_period_str matched dqs_period_ps] == 1} {
set dqs_period [expr $dqs_period_ps/1000.0]
} elseif {[regexp {(.*) ps} $dqs_period_str matched dqs_period_ns] == 1} {
set dqs_period $dqs_period_ns
}
}
}
if {$dqs_period < 0} {
set dqs_period 0
post_message -type critical_warning "Unable to determine DQS delay chain period. Assuming default setting of $dqs_period"
}
return $dqs_period
}
proc ddr3_p0_get_operating_conditions_number {} {
set cur_operating_condition [get_operating_conditions]
set counter 0
foreach_in_collection op [get_available_operating_conditions] {
if {[string compare $cur_operating_condition $op] == 0} {
return $counter
}
incr counter
}
return $counter
}
proc ddr3_p0_get_rzq_pins { instname all_rzq_pins } {
upvar $all_rzq_pins rzqpins
load_package atoms
read_atom_netlist
set rzq_pins [ list ]
set entity_names_on [ ddr3_p0_are_entity_names_on ]
# Get all termination atoms, to which rzqpin should be attached
set_project_mode -always_show_entity_name off
set instance ${instname}*
set atoms [get_atom_nodes -type TERMINATION -matching [escape_brackets $instance] ]
post_message -type info "Number of Termination Atoms: [get_collection_size $atoms]"
foreach_in_collection term_atom $atoms {
set rzq_pin ""
set atom $term_atom
set term_atom_name [get_atom_node_info -key name -node $term_atom]
post_message -type info "Found Termination Atom $term_atom_name"
set type [get_atom_node_info -key type -node $term_atom]
# Check until you traverse to an IO_PAD for the RZQ Pin
while { ![regexp IO_PAD $type ] } {
set name [get_atom_node_info -key name -node $atom]
set iterms [get_atom_iports -node $atom]
set iterm_size [llength $iterms]
# Check for Multiple Inputs
if { $iterm_size > 1 } {
post_message -type error " Multiple inputs to a node:$name attached to a Termination_Atom:$term_atom_name "
break
}
foreach iterm $iterms {
set fanin [get_atom_port_info -node $atom -type iport -port_id $iterm -key fanin]
set atom [lindex $fanin 0]
set type [get_atom_node_info -key type -node $atom]
set rzq_pin [get_atom_node_info -key name -node $atom]
}
}
lappend rzq_pins [ join $rzq_pin ]
}
set_project_mode -always_show_entity_name qsf
set rzqpins $rzq_pins
}
proc ddr3_p0_get_ddr_pins { instname allpins } {
# We need to make a local copy of the allpins associative array
upvar allpins pins
global ::GLOBAL_ddr3_p0_dqs_group_size
global ::GLOBAL_ddr3_p0_number_of_dqs_groups
set synthesis_flow 0
set sta_flow 0
if { $::TimeQuestInfo(nameofexecutable) == "quartus_map" } {
set synthesis_flow 1
} elseif { $::TimeQuestInfo(nameofexecutable) == "quartus_sta" } {
set sta_flow 1
}
set dqs_inst "altdq_dqs2_inst|"
set dqs_pins [ list ]
set dqsn_pins [ list ]
set q_groups [ list ]
set dqs_in_clocks [ list ]
set dqs_out_clocks [ list ]
set dqsn_out_clocks [ list ]
for { set i 0 } { $i < $::GLOBAL_ddr3_p0_number_of_dqs_groups } { incr i } {
set dqs_string ${instname}|p0|umemphy|uio_pads|dq_ddio\[$i\].ubidir_dq_dqs|${dqs_inst}obuf_os_0|o
set dqs_local_pins [ ddr3_p0_get_names_in_collection [ get_fanouts $dqs_string ] ]
set dqsn_string ${instname}|p0|umemphy|uio_pads|dq_ddio\[$i\].ubidir_dq_dqs|${dqs_inst}obuf_os_bar_0|o
set dqsn_local_pins [ ddr3_p0_get_names_in_collection [ get_fanouts $dqsn_string ] ]
set dm_string ${instname}|p0|umemphy|uio_pads|dq_ddio\[$i\].ubidir_dq_dqs|${dqs_inst}extra_output_pad_gen\[0\].obuf_1|o
set dm_local_pins [ ddr3_p0_get_names_in_collection [ get_fanouts $dm_string ] ]
set dqs_in_clock(dqs_pin) [ lindex $dqs_local_pins 0 ]
set dqs_in_clock(dqs_shifted_pin) "${instname}|p0|umemphy|uio_pads|dq_ddio[$i].ubidir_dq_dqs|${dqs_inst}dqs_delay_chain|dqsbusout"
set dqs_in_clock(div_name) "${instname}|div_clock_$i"
set dqs_in_clock(div_pin) "${instname}|p0|umemphy|uread_datapath|read_capture_clk_div2[$i]"
lappend dqs_in_clocks [ array get dqs_in_clock ]
set dqs_out_clock(dst) [ lindex $dqs_local_pins 0 ]
set dqs_out_clock(src) $dqs_string
set dqs_out_clock(dm_pin) [ lindex $dm_local_pins 0 ]
set dqsn_out_clock(dst) [ lindex $dqsn_local_pins 0 ]
set dqsn_out_clock(src) $dqsn_string
set dqsn_out_clock(dm_pin) [ lindex $dm_local_pins 0 ]
lappend dqs_out_clocks [ array get dqs_out_clock ]
lappend dqsn_out_clocks [ array get dqsn_out_clock ]
set q_group [ list ]
for { set j 0 } { $j < $::GLOBAL_ddr3_p0_dqs_group_size } { incr j } {
set index [ expr $i * $::GLOBAL_ddr3_p0_dqs_group_size + $j ]
set q_string ${instname}|p0|umemphy|uio_pads|dq_ddio\[$i\].ubidir_dq_dqs|${dqs_inst}pad_gen\[${j}\].data_out|o
set tmp_q_pins [ ddr3_p0_get_names_in_collection [ get_fanouts $q_string ] ]
lappend q_group $tmp_q_pins
}
if { [llength $dqs_local_pins] != 1} { post_sdc_message critical_warning "Could not find DQS pin number $i" }
if { [llength $dqsn_local_pins] != 1} { post_sdc_message critical_warning "Could not find DQSn pin number $i" }
if { [llength $q_group] != $::GLOBAL_ddr3_p0_dqs_group_size} {
post_sdc_message critical_warning "Could not find correct number of D pins for K pin $i. \
Found [llength $q_group] pins. Expecting ${::GLOBAL_ddr3_p0_dqs_group_size}."
}
lappend dqs_pins [ join $dqs_local_pins ]
lappend dqsn_pins [ join $dqsn_local_pins ]
lappend dm_pins [ join $dm_local_pins ]
lappend q_groups [ join $q_group ]
}
set pins(dqs_pins) $dqs_pins
set pins(dqsn_pins) $dqsn_pins
set pins(dm_pins) $dm_pins
set pins(q_groups) $q_groups
set pins(all_dq_pins) [ join [ join $q_groups ] ]
set pins(dqs_in_clocks) $dqs_in_clocks
set pins(dqs_out_clocks) $dqs_out_clocks
set pins(dqsn_out_clocks) $dqsn_out_clocks
set pins(all_dq_dm_pins) [ concat $pins(all_dq_pins) $pins(dm_pins) ]
# Other Outputs
set pins(ck_pins) [ list ]
set pins(ckn_pins) [ list ]
set pins(add_pins) [ list ]
set pins(ba_pins) [ list ]
set pins(cmd_pins) [ list ]
set pins(reset_pins) [ list ]
set patterns [ list ]
lappend patterns ck_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|clock_gen[*].uclk_generator|pseudo_diffa_0|o
lappend patterns ckn_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|clock_gen[*].uclk_generator|pseudo_diffa_0|obar
set addr_cmd_postfix "acblock[*].ddio_out|dataout"
lappend patterns reset_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|ureset_n_pad|${addr_cmd_postfix}
lappend patterns add_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|uaddress_pad|${addr_cmd_postfix}
lappend patterns ba_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|ubank_pad|${addr_cmd_postfix}
lappend patterns cmd_pins ${instname}|p0|umemphy|uio_pads|uaddr_cmd_pads|ucmd_pad|${addr_cmd_postfix}
foreach {pin_type pattern} $patterns {
set local_pins [ ddr3_p0_get_names_in_collection [ get_fanouts $pattern ] ]
if {[llength $local_pins] == 0} {
post_message -type critical_warning "Could not find pin of type $pin_type from pattern $pattern"
} else {
foreach pin [lsort -unique $local_pins] {
lappend pins($pin_type) $pin
}
}
}
set pins(ac_pins) [ concat $pins(add_pins) $pins(ba_pins) $pins(cmd_pins) $pins(reset_pins)]
set pins(ac_wo_reset_pins) [ concat $pins(add_pins) $pins(ba_pins) $pins(cmd_pins)]
set pins(afi_ck_pins) ${instname}|p0|umemphy|afi_clk_reg
set pins(avl_ck_pins) ${instname}|p0|umemphy|avl_clk_reg
set pins(avl_phy_ck_pins) ${instname}|p0|umemphy|uio_pads|dq_ddio[0].ubidir_dq_dqs|altdq_dqs2_inst|input_path_gen[0].read_fifo~READ_ADDRESS_DFF
set pins(config_ck_pins) ${instname}|p0|umemphy|config_clk_reg
set pins(dqs_enable_regs_pins) ${instname}|p0|umemphy|uio_pads|dq_ddio[*].ubidir_dq_dqs|altdq_dqs2_inst|dqs_enable_ctrl~DQSENABLEOUT_DFF
set inst_driver ""
set pins(driver_core_ck_pins) ""
if {[regexp -nocase {if[0-9]$} $instname] == 1} {
set inst_driver [regsub {if[0-9]$} $instname "d0"]
}
if {[string compare -nocase $inst_driver ""] != 0} {
set pins(driver_core_ck_pins) ${inst_driver}|traffic_generator_0|pnf_per_bit_persist[0]
}
#############
# PLL STUFF #
#############
set pll_afi_clock "_UNDEFINED_PIN_"
set pll_ck_clock "_UNDEFINED_PIN_"
set pll_dq_write_clock "_UNDEFINED_PIN_"
set pll_write_clock "_UNDEFINED_PIN_"
set pll_avl_clock "_UNDEFINED_PIN_"
set pll_avl_phy_clock "_UNDEFINED_PIN_"
set pll_config_clock "_UNDEFINED_PIN_"
set pll_ref_clock "_UNDEFINED_PIN_"
set pll_ref_clock_input_buffer "_UNDEFINED_PIN_"
set pll_driver_core_clock "_UNDEFINED_PIN_"
set msg_list [ list ]
# CLOCK OUTPUT PLL
set pll_ck_clock_id [ddr3_p0_get_output_clock_id $pins(ck_pins) "CK Output" msg_list]
if {$pll_ck_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(ck_pins)]"
} else {
set pll_ck_clock [ddr3_p0_get_pll_clock_name $pll_ck_clock_id]
}
set pins(pll_ck_clock) $pll_ck_clock
# DRIVER CORE CLOCK PLL
if {[string compare -nocase $pins(driver_core_ck_pins) ""] != 0 && [get_collection_size [get_registers -nowarn $pins(driver_core_ck_pins)]] > 0} {
set pll_driver_core_clock_id [ddr3_p0_get_output_clock_id $pins(driver_core_ck_pins) "DRIVER CORE CK" msg_list]
if {$pll_driver_core_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(driver_core_ck_pins)]"
} else {
set pll_driver_core_clock [ddr3_p0_get_pll_clock_name $pll_driver_core_clock_id]
}
}
set pins(pll_driver_core_clock) $pll_driver_core_clock
# AFI CLOCK PLL
set pll_afi_clock_id [ddr3_p0_get_output_clock_id $pins(afi_ck_pins) "AFI CK" msg_list]
if {$pll_afi_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(afi_ck_pins)]"
} else {
set pll_afi_clock [ddr3_p0_get_pll_clock_name $pll_afi_clock_id]
}
set pins(pll_afi_clock) $pll_afi_clock
# DQ PLL
set pll_dq_write_clock_id [ddr3_p0_get_output_clock_id [ join [ join $pins(q_groups) ]] "Write DQ CK" msg_list 20]
if {$pll_dq_write_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [ join [ join $pins(q_groups) ]]"
} else {
set pll_dq_write_clock [ddr3_p0_get_pll_clock_name $pll_dq_write_clock_id]
}
set pins(pll_dq_write_clock) $pll_dq_write_clock
# DQS PLL
set pll_write_clock_id [ddr3_p0_get_output_clock_id $pins(dqs_pins) "Write CK" msg_list 20]
if {$pll_write_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins $pins(dqs_pins)"
} else {
set pll_write_clock [ddr3_p0_get_pll_clock_name $pll_write_clock_id]
}
set pins(pll_write_clock) $pll_write_clock
set pll_avl_clock_id [ddr3_p0_get_output_clock_id $pins(avl_ck_pins) "Avalon Bus CK" msg_list]
if {$pll_avl_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(avl_ck_pins)]"
} else {
set pll_avl_clock [ddr3_p0_get_pll_clock_name $pll_avl_clock_id]
}
set pins(pll_avl_clock) $pll_avl_clock
if {[get_collection_size [get_registers -nowarn $pins(avl_phy_ck_pins)]] > 0} {
set pll_avl_phy_clock_id [ddr3_p0_get_output_clock_id $pins(avl_phy_ck_pins) "Avalon PHY Bus CK" msg_list]
if {$pll_avl_phy_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(avl_phy_ck_pins)]"
} else {
set pll_avl_phy_clock [ddr3_p0_get_pll_clock_name $pll_avl_phy_clock_id]
}
}
set pins(pll_avl_phy_clock) $pll_avl_phy_clock
set pll_config_clock_id [ddr3_p0_get_output_clock_id $pins(config_ck_pins) "Config CK" msg_list]
if {$pll_config_clock_id == -1} {
foreach {msg_type msg} $msg_list {
post_message -type $msg_type "ddr3_p0_pin_map.tcl: $msg"
}
post_message -type critical_warning "ddr3_p0_pin_map.tcl: Failed to find PLL clock for pins [join $pins(config_ck_pins)]"
} else {
set pll_config_clock [ddr3_p0_get_pll_clock_name $pll_config_clock_id]
}
set pins(pll_config_clock) $pll_config_clock
# REF CLOCK
set pll_ref_clock_id [ddr3_p0_get_input_clk_id $pll_ck_clock_id]
if {$pll_ref_clock_id == -1} {
post_message -type error "ddr3_p0_pin_map.tcl: Failed to find PLL reference clock"
} else {
set pll_ref_clock [get_node_info -name $pll_ref_clock_id]
}
set pins(pll_ref_clock) $pll_ref_clock
if {$synthesis_flow == 0} {
if {$pll_ref_clock_id != -1} {
set pll_ref_clock_id_fanout_edges [get_node_info -fanout_edges $pll_ref_clock_id]
if {[llength $pll_ref_clock_id_fanout_edges] > 0} {
for {set i 0} {$i < 1} {incr i} {
set pll_ref_clock_input_buffer [get_node_info -name [get_edge_info -dst [get_node_info -fanout_edges [get_edge_info -dst [lindex $pll_ref_clock_id_fanout_edges $i]]]]]
}
}
}
}
set pins(pll_ref_clock_input_buffer) $pll_ref_clock_input_buffer
set entity_names_on [ ddr3_p0_are_entity_names_on ]
# Instance name prefix
set prefix [ string map "| |*:" $instname ]
set prefix "*:$prefix"
#####################
# READ CAPTURE DDIO #
#####################
# Pending ALTDQ_DQS fix
# Half rate: separate read and write ALTDQ_DQS
# Full rate: bidirectional ALTDQ_DQS
set read_capture_ddio_prefix [expr { $entity_names_on ? \
"$prefix|*:p0|*:umemphy|*:uio_pads|*:dq_ddio\[*\].ubidir_dq_dqs|*:" : \
"$instname|p0|umemphy|uio_pads|dq_ddio\[*\].ubidir_dq_dqs|" }]
set read_capture_ddio [list "${read_capture_ddio_prefix}${dqs_inst}*input_path_gen\[*\].capture_reg~DFFLO" \
"${read_capture_ddio_prefix}${dqs_inst}*input_path_gen\[*\].aligned_input\[*\]"]
set pins(read_capture_ddio) $read_capture_ddio
###################
# RESET REGISTERS #
###################
# the output of this flop feeds the asynchronous clear pin of the reset registers and should be false pathed
# since the deassertion of the reset is synchronous with the use of a reset pipeline
# normal timing analysis will take care that
set afi_reset_reg $prefix|*:p0|*:umemphy|*:ureset|*:ureset_afi_clk|reset_reg[3]
if { ! $entity_names_on } {
set afi_reset_reg $instname|p0|umemphy|ureset|ureset_afi_clk|reset_reg[3]
}
set pins(afi_reset_reg) $afi_reset_reg
set seq_reset_reg ${prefix}|*:s0|*
if { ! $entity_names_on } {
set seq_reset_reg ${instname}|s0|*
}
set pins(seq_reset_reg) $seq_reset_reg
# first flop of a synchronzier
# sequencer issues multiple resets during calibration, reset is synced over from AFI to read capture clock domain
set sync_reg $prefix|*:p0|*:umemphy|*:uread_datapath|read_buffering[*].seq_read_fifo_reset_sync
if { ! $entity_names_on } {
set sync_reg $instname|p0|umemphy|uread_datapath|read_buffering[*].seq_read_fifo_reset_sync
}
set pins(sync_reg) $sync_reg
###############################
# DATA RESYNCHRONIZATION FIFO #
###############################
set fifo_wraddress_reg $prefix|*:p0|*:umemphy|*:uread_datapath|read_buffering[*].read_subgroup[*].wraddress[*]
if { ! $entity_names_on } {
set fifo_wraddress_reg $instname|p0|umemphy|uread_datapath|read_buffering[*].read_subgroup[*].wraddress[*]
}
set pins(fifo_wraddress_reg) $fifo_wraddress_reg
set fifo_rdaddress_reg $prefix|*:p0|*:umemphy|*:uread_datapath|read_buffering[*].read_subgroup[*].rdaddress[*]
if { ! $entity_names_on } {
set fifo_rdaddress_reg $instname|p0|umemphy|uread_datapath|read_buffering[*].read_subgroup[*].rdaddress[*]
}
set pins(fifo_rdaddress_reg) $fifo_rdaddress_reg
set fifo_wrdata_reg $prefix|*:p0|*:umemphy|*:uio_pads|*:dq_ddio[*].ubidir_dq_dqs|*:altdq_dqs2_inst|input_path_gen[*].read_fifo|*INPUT_DFF*
if { ! $entity_names_on } {
set fifo_wrdata_reg $instname|p0|umemphy|uio_pads|dq_ddio[*].ubidir_dq_dqs|altdq_dqs2_inst|input_path_gen[*].read_fifo|*INPUT_DFF*
}
set pins(fifo_wrdata_reg) $fifo_wrdata_reg
set fifo_rddata_reg $prefix|*:p0|*:umemphy|*:uio_pads|*:dq_ddio[*].ubidir_dq_dqs|*:altdq_dqs2_inst|input_path_gen[*].read_fifo|dout[*]
if { ! $entity_names_on } {
set fifo_rddata_reg $instname|p0|umemphy|uio_pads|dq_ddio[*].ubidir_dq_dqs|altdq_dqs2_inst|input_path_gen[*].read_fifo|dout[*]
}
set pins(fifo_rddata_reg) $fifo_rddata_reg
}
proc ddr3_p0_initialize_ddr_db { ddr_db_par } {
upvar $ddr_db_par local_ddr_db
global ::GLOBAL_ddr3_p0_corename
post_sdc_message info "Initializing DDR database for CORE $::GLOBAL_ddr3_p0_corename"
set instance_list [ddr3_p0_get_core_instance_list $::GLOBAL_ddr3_p0_corename]
# set local_ddr_db(instance_list) $instance_list
foreach instname $instance_list {
post_sdc_message info "Finding port-to-pin mapping for CORE: $::GLOBAL_ddr3_p0_corename INSTANCE: $instname"
ddr3_p0_get_ddr_pins $instname allpins
ddr3_p0_verify_ddr_pins allpins
set local_ddr_db($instname) [ array get allpins ]
}
}
proc ddr3_p0_verify_ddr_pins { pins_par } {
upvar $pins_par pins
# Verify Q groups
set current_q_group_size -1
foreach q_group $pins(q_groups) {
set group_size [ llength $q_group ]
if { $group_size == 0 } {
post_message -type critical_warning "Q group of size 0"
}
if { $current_q_group_size == -1 } {
set current_q_group_size $group_size
} else {
if { $current_q_group_size != $group_size } {
post_message -type critical_warning "Inconsistent Q group size across groups"
}
}
}
# Verify DM pins
set counted_dm_pins [ llength $pins(dm_pins) ]
if { $::GLOBAL_ddr3_p0_number_of_dm_pins != $counted_dm_pins } {
post_message -type critical_warning "Unexpected number of detected DM pins: $counted_dm_pins"
post_message -type critical_warning " expected: $::GLOBAL_ddr3_p0_number_of_dm_pins"
}
# Verify Address/Command/BA pins
if { [ llength $pins(add_pins) ] == 0 } {
post_message -type critical_warning "Address pins of size 0"
}
if { [ llength $pins(cmd_pins) ] == 0 } {
post_message -type critical_warning "Command pins of size 0"
}
if { [ llength $pins(ba_pins) ] == 0 } {
post_message -type critical_warning "BA pins of size 0"
}
if { [ llength $pins(reset_pins) ] == 0 } {
post_message -type critical_warning "Reset pins of size 0"
}
}
proc ddr3_p0_get_all_instances_div_names { ddr_db_par } {
upvar $ddr_db_par local_ddr_db
set div_names [ list ]
set instnames [ array names local_ddr_db ]
foreach instance $instnames {
array set pins $local_ddr_db($instance)
foreach { dqs_in_clock_struct } $pins(dqs_in_clocks) {
array set dqs_in_clock $dqs_in_clock_struct
lappend div_names $dqs_in_clock(div_name)
}
}
return $div_names
}
proc ddr3_p0_get_all_instances_dqs_pins { ddr_db_par } {
upvar $ddr_db_par local_ddr_db
set dqs_pins [ list ]
set instnames [ array names local_ddr_db ]
foreach instance $instnames {
array set pins $local_ddr_db($instance)
foreach { dqs_pin } $pins(dqs_pins) {
lappend dqs_pins ${dqs_pin}_IN
lappend dqs_pins ${dqs_pin}_OUT
}
foreach { dqsn_pin } $pins(dqsn_pins) {
lappend dqs_pins ${dqsn_pin}_OUT
}
foreach { ck_pin } $pins(ck_pins) {
lappend dqs_pins $ck_pin
}
foreach { ckn_pin } $pins(ckn_pins) {
lappend dqs_pins $ckn_pin
}
}
return $dqs_pins
}
proc ddr3_p0_dump_all_pins { ddr_db_par } {
upvar $ddr_db_par local_ddr_db
set instnames [ array names local_ddr_db ]
set filename "${::GLOBAL_ddr3_p0_corename}_all_pins.txt"
if [ catch { open $filename w 0777 } FH ] {
post_message -type error "Can't open file < $filename > for writing"
}
post_message -type info "Dumping reference pin-map file: $filename"
set script_name [ info script ]
puts $FH "# PIN MAP for core < $::GLOBAL_ddr3_p0_corename >"
puts $FH "#"
puts $FH "# Generated by ${::GLOBAL_ddr3_p0_corename}_pin_assignments.tcl"
puts $FH "#"
puts $FH "# This file is for reference only and is not used by Quartus Prime"
puts $FH "#"
puts $FH ""
foreach instance $instnames {
array set pins $local_ddr_db($instance)
puts $FH "INSTANCE: $instance"
puts $FH "DQS: $pins(dqs_pins)"
puts $FH "DQSn: $pins(dqsn_pins)"
puts $FH "DQ: $pins(q_groups)"
puts $FH "DM $pins(dm_pins)"
puts $FH "CK: $pins(ck_pins)"
puts $FH "CKn: $pins(ckn_pins)"
puts $FH "ADD: $pins(add_pins)"
puts $FH "CMD: $pins(cmd_pins)"
puts $FH "RESET: $pins(reset_pins)"
puts $FH "BA: $pins(ba_pins)"
puts $FH "REF CLK: $pins(pll_ref_clock)"
puts $FH "PLL AFI: $pins(pll_afi_clock)"
puts $FH "PLL CK: $pins(pll_ck_clock)"
puts $FH "PLL DQ WRITE: $pins(pll_dq_write_clock)"
puts $FH "PLL WRITE: $pins(pll_write_clock)"
puts $FH "PLL AVL: $pins(pll_avl_clock)"
puts $FH "PLL AVL PHY: $pins(pll_avl_phy_clock)"
puts $FH "PLL CONFIG: $pins(pll_config_clock)"
puts $FH "PLL DRIVER CORE: $pins(pll_driver_core_clock)"
set i 0
foreach dqs_in_clock_struct $pins(dqs_in_clocks) {
array set dqs_in_clock $dqs_in_clock_struct
puts $FH "DQS_IN_CLOCK DQS_PIN ($i): $dqs_in_clock(dqs_pin)"
puts $FH "DQS_IN_CLOCK DQS_SHIFTED_PIN ($i): $dqs_in_clock(dqs_shifted_pin)"
puts $FH "DQS_IN_CLOCK DIV_NAME ($i): $dqs_in_clock(div_name)"
puts $FH "DQS_IN_CLOCK DIV_PIN ($i): $dqs_in_clock(div_pin)"
incr i
}
set i 0
foreach dqs_out_clock_struct $pins(dqs_out_clocks) {
array set dqs_out_clock $dqs_out_clock_struct
puts $FH "DQS_OUT_CLOCK SRC ($i): $dqs_out_clock(src)"
puts $FH "DQS_OUT_CLOCK DST ($i): $dqs_out_clock(dst)"
puts $FH "DQS_OUT_CLOCK DM ($i): $dqs_out_clock(dm_pin)"
incr i
}
set i 0
foreach dqsn_out_clock_struct $pins(dqsn_out_clocks) {
array set dqsn_out_clock $dqsn_out_clock_struct
puts $FH "DQSN_OUT_CLOCK SRC ($i): $dqsn_out_clock(src)"
puts $FH "DQSN_OUT_CLOCK DST ($i): $dqsn_out_clock(dst)"
puts $FH "DQSN_OUT_CLOCK DM ($i): $dqsn_out_clock(dm_pin)"
incr i
}
puts $FH "READ CAPTURE DDIO: $pins(read_capture_ddio)"
puts $FH "AFI RESET REGISTERS: $pins(afi_reset_reg)"
puts $FH "SEQ RESET REGISTERS: $pins(seq_reset_reg)"
puts $FH "SYNCHRONIZERS: $pins(sync_reg)"
puts $FH "SYNCHRONIZATION FIFO WRITE ADDRESS REGISTERS: $pins(fifo_wraddress_reg)"
puts $FH "SYNCHRONIZATION FIFO WRITE REGISTERS: $pins(fifo_wrdata_reg)"
puts $FH "SYNCHRONIZATION FIFO READ REGISTERS: $pins(fifo_rddata_reg)"
puts $FH ""
puts $FH "#"
puts $FH "# END OF INSTANCE: $instance"
puts $FH ""
}
close $FH
}
proc ddr3_p0_dump_static_pin_map { ddr_db_par filename } {
upvar $ddr_db_par local_ddr_db
set instnames [ array names local_ddr_db ]
if [ catch { open $filename w 0777 } FH ] {
post_message -type error "Can't open file < $filename > for writing"
}
post_message -type info "Dumping static pin-map file: $filename"
puts $FH "# AUTO-GENERATED static pin map for core < $::GLOBAL_ddr3_p0_corename >"
puts $FH ""
puts $FH "proc ${::GLOBAL_ddr3_p0_corename}_initialize_static_ddr_db { ddr_db_par } {"
puts $FH " upvar \$ddr_db_par local_ddr_db"
puts $FH ""
foreach instname $instnames {
array set pins $local_ddr_db($instname)
puts $FH " # Pin Mapping for instance: $instname"
ddr3_p0_static_map_expand_list $FH pins dqs_pins
ddr3_p0_static_map_expand_list $FH pins dqsn_pins
ddr3_p0_static_map_expand_list_of_list $FH pins q_groups
puts $FH ""
puts $FH " set pins(all_dq_pins) \[ join \[ join \$pins(q_groups) \] \]"
ddr3_p0_static_map_expand_list $FH pins dm_pins
ddr3_p0_static_map_expand_list $FH pins ck_pins
ddr3_p0_static_map_expand_list $FH pins ckn_pins
ddr3_p0_static_map_expand_list $FH pins add_pins
ddr3_p0_static_map_expand_list $FH pins cmd_pins
ddr3_p0_static_map_expand_list $FH pins reset_pins
ddr3_p0_static_map_expand_list $FH pins ba_pins
puts $FH ""
puts $FH " set pins(ac_pins) \[ concat \$pins(add_pins) \$pins(ba_pins) \$pins(cmd_pins) \$pins(reset_pins)\]"
ddr3_p0_static_map_expand_string $FH pins pll_ref_clock
ddr3_p0_static_map_expand_string $FH pins pll_afi_clock
ddr3_p0_static_map_expand_string $FH pins pll_ck_clock
ddr3_p0_static_map_expand_string $FH pins pll_dq_write_clock
ddr3_p0_static_map_expand_string $FH pins pll_write_clock
ddr3_p0_static_map_expand_string $FH pins pll_avl_clock
ddr3_p0_static_map_expand_string $FH pins pll_avl_phy_clock
ddr3_p0_static_map_expand_string $FH pins pll_config_clock
ddr3_p0_static_map_expand_string $FH pins pll_driver_core_clock
puts $FH ""
puts $FH " set dqs_in_clocks \[ list \]"
set i 0
foreach dqs_in_clock_struct $pins(dqs_in_clocks) {
array set dqs_in_clock $dqs_in_clock_struct
puts $FH " # DIV Clock ($i)"
puts $FH " set dqs_in_clock(dqs_pin) $dqs_in_clock(dqs_pin)"
puts $FH " set dqs_in_clock(dqs_shifted_pin) $dqs_in_clock(dqs_shifted_pin)"
puts $FH " set dqs_in_clock(div_name) $dqs_in_clock(div_name)"
puts $FH " set dqs_in_clock(div_pin) $dqs_in_clock(div_pin)"
puts $FH " lappend dqs_in_clocks \[ array get dqs_in_clock \]"
incr i
}
puts $FH " set pins(dqs_in_clocks) \$dqs_in_clocks"
puts $FH ""
puts $FH " set dqs_out_clocks \[ list \]"
set i 0
foreach dqs_out_clock_struct $pins(dqs_out_clocks) {
array set dqs_out_clock $dqs_out_clock_struct
puts $FH " # DQS OUT Clock ($i)"
puts $FH " set dqs_out_clock(src) $dqs_out_clock(src)"
puts $FH " set dqs_out_clock(dst) $dqs_out_clock(dst)"
puts $FH " set dqs_out_clock(dm_pin) $dqs_out_clock(dm_pin)"
puts $FH " lappend dqs_out_clocks \[ array get dqs_out_clock \]"
incr i
}
puts $FH " set pins(dqs_out_clocks) \$dqs_out_clocks"
puts $FH ""
puts $FH " set dqsn_out_clocks \[ list \]"
set i 0
foreach dqsn_out_clock_struct $pins(dqsn_out_clocks) {
array set dqsn_out_clock $dqsn_out_clock_struct
puts $FH " # DQSN OUT Clock ($i)"
puts $FH " set dqsn_out_clock(src) $dqsn_out_clock(src)"
puts $FH " set dqsn_out_clock(dst) $dqsn_out_clock(dst)"
puts $FH " set dqsn_out_clock(dm_pin) $dqsn_out_clock(dm_pin)"
puts $FH " lappend dqsn_out_clocks \[ array get dqsn_out_clock \]"
incr i
}
puts $FH " set pins(dqsn_out_clocks) \$dqsn_out_clocks"
ddr3_p0_static_map_expand_string $FH pins read_capture_ddio
ddr3_p0_static_map_expand_string $FH pins afi_reset_reg
ddr3_p0_static_map_expand_string $FH pins seq_reset_reg
ddr3_p0_static_map_expand_string $FH pins sync_reg
ddr3_p0_static_map_expand_string $FH pins fifo_wraddress_reg
ddr3_p0_static_map_expand_string $FH pins fifo_wrdata_reg
ddr3_p0_static_map_expand_string $FH pins fifo_rddata_reg
puts $FH ""
puts $FH " set local_ddr_db($instname) \[ array get pins \]"
}
puts $FH "}"
close $FH
}