blob: 05b6f88b04e669d0be46f9046866789f0b8dfb75 [file] [log] [blame]
#!/usr/bin/tclsh
# Copyright 2020-2021 Efabless Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# SPDX-License-Identifier: Apache-2.0
package require openlane;
proc run_placement_step {args} {
# set pdndef_dirname [file dirname $::env(pdn_tmp_file_tag).def]
# set pdndef [lindex [glob $pdndef_dirname/*pdn*] 0]
# set_def $pdndef
puts "\[INFO\]: Running Placement Step"
if { ! [ info exists ::env(PLACEMENT_CURRENT_DEF) ] } {
set ::env(PLACEMENT_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(PLACEMENT_CURRENT_DEF)
}
run_placement
}
proc run_cts_step {args} {
# set_def $::env(opendp_result_file_tag).def
puts "\[INFO\]: Running CTS"
if { ! [ info exists ::env(CTS_CURRENT_DEF) ] } {
set ::env(CTS_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(CTS_CURRENT_DEF)
}
run_cts
run_resizer_timing
}
proc run_routing_step {args} {
# set resizerdef_dirname [file dirname $::env(resizer_tmp_file_tag)_timing.def]
# set resizerdef [lindex [glob $resizerdef_dirname/*resizer*] 0]
# set_def $resizerdef
puts "\[INFO\]: Running Routing"
if { ! [ info exists ::env(ROUTING_CURRENT_DEF) ] } {
set ::env(ROUTING_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(ROUTING_CURRENT_DEF)
}
run_routing
}
proc run_diode_insertion_2_5_step {args} {
puts "\[INFO\]: Running Diode Insertion"
# set_def $::env(tritonRoute_result_file_tag).def
if { ! [ info exists ::env(DIODE_INSERTION_CURRENT_DEF) ] } {
set ::env(DIODE_INSERTION_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(DIODE_INSERTION_CURRENT_DEF)
}
if { ($::env(DIODE_INSERTION_STRATEGY) == 2) || ($::env(DIODE_INSERTION_STRATEGY) == 5) } {
run_antenna_check
heal_antenna_violators; # modifies the routed DEF
}
}
proc run_power_pins_insertion_step {args} {
puts "\[INFO\]:Running Power Pin Insertion"
# set_def $::env(tritonRoute_result_file_tag).def
if { ! [ info exists ::env(POWER_PINS_INSERTION_CURRENT_DEF) ] } {
set ::env(POWER_PINS_INSERTION_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(POWER_PINS_INSERTION_CURRENT_DEF)
}
if { $::env(LVS_INSERT_POWER_PINS) } {
write_powered_verilog
set_netlist $::env(lvs_result_file_tag).powered.v
}
}
proc run_lvs_step {{ lvs_enabled 1 }} {
# set_def $::env(tritonRoute_result_file_tag).def
puts "\[INFO\]:Running LVS Step"
if { ! [ info exists ::env(LVS_CURRENT_DEF) ] } {
set ::env(LVS_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(LVS_CURRENT_DEF)
}
if { $lvs_enabled } {
run_magic_spice_export
run_lvs; # requires run_magic_spice_export
}
}
proc run_drc_step {{ drc_enabled 1 }} {
puts "\[INFO\]:Running DRC"
if { ! [ info exists ::env(DRC_CURRENT_DEF) ] } {
set ::env(DRC_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(DRC_CURRENT_DEF)
}
if { $drc_enabled } {
run_magic_drc
run_klayout_drc
}
}
proc run_antenna_check_step {{ antenna_check_enabled 1 }} {
puts "\[INFO\]: Running Antenna checl"
if { ! [ info exists ::env(ANTENNA_CHECK_CURRENT_DEF) ] } {
set ::env(ANTENNA_CHECK_CURRENT_DEF) $::env(CURRENT_DEF)
} else {
set ::env(CURRENT_DEF) $::env(ANTENNA_CHECK_CURRENT_DEF)
}
if { $antenna_check_enabled } {
run_antenna_check
}
}
proc gen_pdn_new {args} {
puts_info "Generating PDN..."
TIMER::timer_start
set ::env(SAVE_DEF) [index_file $::env(pdn_tmp_file_tag).def]
set ::env(PGA_RPT_FILE) [index_file $::env(pdn_report_file_tag).pga.rpt]
try_catch $::env(OPENROAD_BIN) -exit $::env(SCRIPTS_DIR)/openroad/or_pdn.tcl \
|& tee $::env(TERMINAL_OUTPUT) [index_file $::env(pdn_log_file_tag).log 0]
TIMER::timer_stop
exec echo "[TIMER::get_runtime]" >> [index_file $::env(pdn_log_file_tag)_runtime.txt 0]
quit_on_unconnected_pdn_nodes
set_def $::env(SAVE_DEF)
}
proc run_power_grid_generation_new {args} {
if { [info exists ::env(VDD_NETS)] || [info exists ::env(GND_NETS)] } {
# they both must exist and be equal in length
# current assumption: they cannot have a common ground
if { ! [info exists ::env(VDD_NETS)] || ! [info exists ::env(GND_NETS)] } {
puts_err "VDD_NETS and GND_NETS must *both* either be defined or undefined"
return -code error
}
# standard cell power and ground nets are assumed to be the first net
set ::env(VDD_PIN) [lindex $::env(VDD_NETS) 0]
set ::env(GND_PIN) [lindex $::env(GND_NETS) 0]
} elseif { [info exists ::env(SYNTH_USE_PG_PINS_DEFINES)] } {
set ::env(VDD_NETS) [list]
set ::env(GND_NETS) [list]
# get the pins that are in $yosys_tmp_file_tag.pg_define.v
# that are not in $yosys_result_file_tag.v
#
set full_pins {*}[extract_pins_from_yosys_netlist $::env(yosys_tmp_file_tag).pg_define.v]
puts_info $full_pins
set non_pg_pins {*}[extract_pins_from_yosys_netlist $::env(yosys_result_file_tag).v]
puts_info $non_pg_pins
# assumes the pins are ordered correctly (e.g., vdd1, vss1, vcc1, vss1, ...)
foreach {vdd gnd} $full_pins {
if { $vdd ne "" && $vdd ni $non_pg_pins } {
lappend ::env(VDD_NETS) $vdd
}
if { $gnd ne "" && $gnd ni $non_pg_pins } {
lappend ::env(GND_NETS) $gnd
}
}
} else {
set ::env(VDD_NETS) $::env(VDD_PIN)
set ::env(GND_NETS) $::env(GND_PIN)
}
puts_info "Power planning the following nets"
puts_info "Power: $::env(VDD_NETS)"
puts_info "Ground: $::env(GND_NETS)"
if { [llength $::env(VDD_NETS)] != [llength $::env(GND_NETS)] } {
puts_err "VDD_NETS and GND_NETS must be of equal lengths"
return -code error
}
# internal macros power connections
if {[info exists ::env(FP_PDN_MACRO_HOOKS)]} {
set macro_hooks [dict create]
set pdn_hooks [split $::env(FP_PDN_MACRO_HOOKS) ","]
foreach pdn_hook $pdn_hooks {
set instance_name [lindex $pdn_hook 0]
set power_net [lindex $pdn_hook 1]
set ground_net [lindex $pdn_hook 2]
dict append macro_hooks $instance_name [subst {$power_net $ground_net}]
}
set power_net_indx [lsearch $::env(VDD_NETS) $power_net]
set ground_net_indx [lsearch $::env(GND_NETS) $ground_net]
# make sure that the specified power domains exist.
if { $power_net_indx == -1 || $ground_net_indx == -1 || $power_net_indx != $ground_net_indx } {
puts_err "Can't find $power_net and $ground_net domain. \
Make sure that both exist in $::env(VDD_NETS) and $::env(GND_NETS)."
}
}
# generate multiple power grids per pair of (VDD,GND)
# offseted by WIDTH + SPACING
foreach vdd $::env(VDD_NETS) gnd $::env(GND_NETS) {
set ::env(VDD_NET) $vdd
set ::env(GND_NET) $gnd
puts "\[INFO\]: Processing Power Nets: $vdd and $gnd."
# internal macros power connections
set ::env(FP_PDN_MACROS) ""
if { $::env(FP_PDN_ENABLE_MACROS_GRID) == 1 } {
# if macros connections to power are explicitly set
# default behavoir macro pins will be connected to the first power domain
if { [info exists ::env(FP_PDN_MACRO_HOOKS)] } {
set ::env(FP_PDN_ENABLE_MACROS_GRID) 0
foreach {instance_name hooks} $macro_hooks {
set power [lindex $hooks 0]
set ground [lindex $hooks 1]
if { $power == $::env(VDD_NET) && $ground == $::env(GND_NET) } {
set ::env(FP_PDN_ENABLE_MACROS_GRID) 1
puts_info "Connecting $instance_name to $power and $ground nets."
lappend ::env(FP_PDN_MACROS) $instance_name
}
}
}
puts "\[INFO\]: FP_PDN_MACROS: $::env(FP_PDN_MACROS) ."
} else {
puts_warn "All internal macros will not be connected to power."
}
gen_pdn_new
set ::env(FP_PDN_ENABLE_RAILS) 0
set ::env(FP_PDN_ENABLE_MACROS_GRID) 0
# allow failure until open_pdks is up to date...
catch {set ::env(FP_PDN_VOFFSET) [expr $::env(FP_PDN_VOFFSET)+$::env(FP_PDN_VWIDTH)+$::env(FP_PDN_VSPACING)]}
catch {set ::env(FP_PDN_HOFFSET) [expr $::env(FP_PDN_HOFFSET)+$::env(FP_PDN_HWIDTH)+$::env(FP_PDN_HSPACING)]}
catch {set ::env(FP_PDN_CORE_RING_VOFFSET) \
[expr $::env(FP_PDN_CORE_RING_VOFFSET)\
+2*($::env(FP_PDN_CORE_RING_VWIDTH)\
+max($::env(FP_PDN_CORE_RING_VSPACING), $::env(FP_PDN_CORE_RING_HSPACING)))]}
catch {set ::env(FP_PDN_CORE_RING_HOFFSET) [expr $::env(FP_PDN_CORE_RING_HOFFSET)\
+2*($::env(FP_PDN_CORE_RING_HWIDTH)+\
max($::env(FP_PDN_CORE_RING_VSPACING), $::env(FP_PDN_CORE_RING_HSPACING)))]}
}
set ::env(FP_PDN_ENABLE_RAILS) 1
}
proc run_floorplan_new {args} {
puts_info "Running Floorplanning..."
# |----------------------------------------------------|
# |---------------- 2. FLOORPLAN ------------------|
# |----------------------------------------------------|
#
# intial fp
init_floorplan
# place io
if { [info exists ::env(FP_PIN_ORDER_CFG)] } {
place_io_ol
} else {
if { [info exists ::env(FP_CONTEXT_DEF)] && [info exists ::env(FP_CONTEXT_LEF)] } {
place_io
global_placement_or
place_contextualized_io \
-lef $::env(FP_CONTEXT_LEF) \
-def $::env(FP_CONTEXT_DEF)
} else {
place_io
}
}
apply_def_template
if { [info exist ::env(EXTRA_LEFS)] } {
if { [info exist ::env(MACRO_PLACEMENT_CFG)] } {
file copy -force $::env(MACRO_PLACEMENT_CFG) $::env(TMP_DIR)/macro_placement.cfg
manual_macro_placement f
} else {
global_placement_or
basic_macro_placement
}
}
# tapcell
tap_decap_or
scrot_klayout -layout $::env(CURRENT_DEF)
# power grid generation
run_power_grid_generation_new
}
proc run_flow {args} {
set script_dir [file dirname [file normalize [info script]]]
set options {
{-design required}
{-save_path optional}
{-no_lvs optional}
{-no_drc optional}
{-no_antennacheck optional}
}
set flags {-save}
parse_key_args "run_flow" args arg_values $options flags_map $flags -no_consume
prep {*}$args
set LVS_ENABLED [expr ![info exists flags_map(-no_lvs)] ]
set DRC_ENABLED [expr ![info exists flags_map(-no_drc)] ]
set ANTENNACHECK_ENABLED [expr ![info exists flags_map(-no_antennacheck)] ]
set steps [dict create "synthesis" {run_synthesis "" } \
"floorplan" {run_floorplan ""} \
"placement" {run_placement_step ""} \
"cts" {run_cts_step ""} \
"routing" {run_routing_step ""} \
"diode_insertion" {run_diode_insertion_2_5_step ""} \
"power_pins_insertion" {run_power_pins_insertion_step ""} \
"gds_magic" {run_magic ""} \
"gds_drc_klayout" {run_klayout ""} \
"gds_xor_klayout" {run_klayout_gds_xor ""} \
"lvs" "run_lvs_step $LVS_ENABLED" \
"drc" "run_drc_step $DRC_ENABLED" \
"antenna_check" "run_antenna_check_step $ANTENNACHECK_ENABLED" \
"cvc" {run_lef_cvc}
]
set_if_unset arg_values(-to) "cvc";
if { [info exists ::env(CURRENT_STEP) ] } {
puts "\[INFO\]:Picking up where last execution left off"
puts [format "\[INFO\]:Current stage is %s " $::env(CURRENT_STEP)]
} else {
set ::env(CURRENT_STEP) "synthesis";
}
set_if_unset arg_values(-from) $::env(CURRENT_STEP);
set exe 0;
dict for {step_name step_exe} $steps {
if { [ string equal $arg_values(-from) $step_name ] } {
set exe 1;
}
if { $exe } {
# For when it fails
set ::env(CURRENT_STEP) $step_name
[lindex $step_exe 0] [lindex $step_exe 1] ;
}
if { [ string equal $arg_values(-to) $step_name ] } {
set exe 0:
break;
}
}
# for when it resumes
set steps_as_list [dict keys $steps]
set next_idx [expr [lsearch $steps_as_list $::env(CURRENT_STEP)] + 1]
set ::env(CURRENT_STEP) [lindex $steps_as_list $next_idx]
if { [info exists flags_map(-save) ] } {
if { ! [info exists arg_values(-save_path)] } {
set arg_values(-save_path) ""
}
save_views -lef_path $::env(magic_result_file_tag).lef \
-def_path $::env(tritonRoute_result_file_tag).def \
-gds_path $::env(magic_result_file_tag).gds \
-mag_path $::env(magic_result_file_tag).mag \
-maglef_path $::env(magic_result_file_tag).lef.mag \
-spice_path $::env(magic_result_file_tag).spice \
-spef_path $::env(tritonRoute_result_file_tag).spef \
-verilog_path $::env(CURRENT_NETLIST) \
-save_path $arg_values(-save_path) \
-tag $::env(RUN_TAG)
}
calc_total_runtime
save_state
generate_final_summary_report
check_timing_violations
puts_success "Flow Completed Without Fatal Errors."
}
run_flow {*}$argv