The purpose of this project is to produce clean GDS (Graphic Design System) Final Layout with all details that is used to print photomasks used in fabrication of a behavioral RTL (Register-Transfer Level) of a 4 bit High Speed Domino Comparator, using SkyWater 130 nm PDK (Process Design Kit)
- Design Overview
- IP specs
- Verilog behavioral design
- OpenLane
- Synthesis
- Floorplanning
- Placement
- Routing
- Final Layout
- Post-layout
- Steps to reproduce and explore the design
- Key points to Remember
- Area of improvement
- Author
- Aknowledgements
- References
Yosys synthesis
OpenLane is an automated RTL to GDSII flow based on several components including OpenROAD, Yosys, Magic, Netgen, Fault and custom methodology scripts for design exploration and optimization. For more information check here
- Synthesis
yosys
- Performs RTL synthesisabc
- Performs technology mappingOpenSTA
- Performs static timing analysis on the resulting netlist to generate timing reports
- Floorplan and PDN
init_fp
- Defines the core area for the macro as well as the rows (used for placement) and the tracks (used for routing)ioplacer
- Places the macro input and output portspdn
- Generates the power distribution networktapcell
- Inserts welltap and decap cells in the floorplan
- Placement
RePLace
- Performs global placementResizer
- Performs optional optimizations on the designOpenDP
- Perfroms detailed placement to legalize the globally placed components
- CTS
TritonCTS
- Synthesizes the clock distribution network (the clock tree)
- Routing
FastRoute
- Performs global routing to generate a guide file for the detailed routerCU-GR
- Another option for performing global routing.TritonRoute
- Performs detailed routingSPEF-Extractor
- Performs SPEF extraction
- GDSII Generation
Magic
- Streams out the final GDSII layout file from the routed defKlayout
- Streams out the final GDSII layout file from the routed def as a back-up
- Checks
Magic
- Performs DRC Checks & Antenna ChecksKlayout
- Performs DRC ChecksNetgen
- Performs LVS ChecksCVC
- Performs Circuit Validity Checks
- Preferred Ubuntu OS)
- Docker 19.03.12+
- GNU Make
- Python 3.6+ with PIP
- Click, Pyyaml:
pip3 install pyyaml click
git clone https://github.com/The-OpenROAD-Project/OpenLane.git
cd OpenLane/
make openlane
make pdk
make test # This a ~5 minute test that verifies that the flow and the pdk were properly installed
For detailed installation process, check here
make mount
- Note
- Default PDK_ROOT is $(pwd)/pdks. If you have installed the PDK at a different location, run the following before
make mount
: - Default IMAGE_NAME is efabless/openlane:current. If you want to use a different version, run the following before
make mount
:
- Default PDK_ROOT is $(pwd)/pdks. If you have installed the PDK at a different location, run the following before
The following is roughly what happens under the hood when you run make mount
+ the required exports:
export PDK_ROOT=<absolute path to where skywater-pdk and open_pdks will reside>
export IMAGE_NAME=<docker image name>
docker run -it -v $(pwd):/openLANE_flow -v $PDK_ROOT:$PDK_ROOT -e PDK_ROOT=$PDK_ROOT -u $(id -u $USER):$(id -g $USER) $IMAGE_NAME
You can use the following example to check the overall setup:
./flow.tcl -design spm
To run openlane in interactive mode
./flow.tcl -interactive
Synthesis reports
- Printing statistics.
=== cmp ===
Number of wires: 11
Number of wire bits: 17
Number of public wires: 4
Number of public wire bits: 10
Number of memories: 0
Number of memory bits: 0
Number of processes: 0
Number of cells: 8
$_ANDNOT_ 3
$_OR_ 1
$_XNOR_ 1
$_XOR_ 3
- Printing statistics.
=== cmp ===
Number of wires: 10
Number of wire bits: 16
Number of public wires: 4
Number of public wire bits: 10
Number of memories: 0
Number of memory bits: 0
Number of processes: 0
Number of cells: 7
sky130_fd_sc_hd__a2bb2o_2 4
sky130_fd_sc_hd__a41o_2 1
sky130_fd_sc_hd__inv_2 2
Chip area for module '\cmp': 63.811200
- Yosys synthesis strategies
# User config
set ::env(DESIGN_NAME) cmp
# Change if needed
set ::env(VERILOG_FILES) [glob $::env(DESIGN_DIR)/src/*.v]
# turn off clock
set ::env(CLOCK_TREE_SYNTH) 0
set ::env(CLOCK_PORT) ""
set ::env(PL_SKIP_INITIAL_PLACEMENT) 1
set ::env(PL_RANDOM_GLB_PLACEMENT) 0
set ::env(FP_SIZING) absolute
set ::env(DIE_AREA) "0.0 0.0 21.81 32.53"
set ::env(PL_TARGET_DENSITY) 0.6
set ::env(FP_HORIZONTAL_HALO) 6
set ::env(FP_VERTICAL_HALO) $::env(FP_HORIZONTAL_HALO)
set filename $::env(DESIGN_DIR)/$::env(PDK)_$::env(STD_CELL_LIBRARY)_config.tcl
if { [file exists $filename] == 1} {
source $filename
}
- Placement Analysis
---------------------------------
total displacement 0.0 u
average displacement 0.0 u
max displacement 0.0 u
original HPWL 306.6 u
legalized HPWL 313.3 u
delta HPWL 2 %
- Routing resources analysis
Routing Original Derated Resource
Layer Direction Resources Resources Reduction (%)
---------------------------------------------------------------
li1 Vertical 180 115 36.11%
met1 Horizontal 240 171 28.75%
met2 Vertical 180 135 25.00%
met3 Horizontal 120 92 23.33%
met4 Vertical 72 55 23.61%
met5 Horizontal 24 16 33.33%
---------------------------------------------------------------
- Final congestion report
Layer Resource Demand Usage (%) Max H / Max V / Total Overflow
---------------------------------------------------------------------------------------
li1 115 4 3.48% 0 / 0 / 0
met1 171 9 5.26% 0 / 0 / 0
met2 135 3 2.22% 0 / 0 / 0
met3 92 0 0.00% 0 / 0 / 0
met4 55 0 0.00% 0 / 0 / 0
met5 16 0 0.00% 0 / 0 / 0
---------------------------------------------------------------------------------------
Total 584 16 2.74% 0 / 0 / 0
- Routing resurces analysis
Routing Original Derated Resource
Layer Direction Resources Resources Reduction (%)
---------------------------------------------------------------
li1 Vertical 300 64 78.67%
met1 Horizontal 400 301 24.75%
met2 Vertical 300 244 18.67%
met3 Horizontal 200 165 17.50%
met4 Vertical 120 94 21.67%
met5 Horizontal 40 30 25.00%
---------------------------------------------------------------
- Final congestion report
Layer Resource Demand Usage (%) Max H / Max V / Total Overflow
---------------------------------------------------------------------------------------
li1 64 2 3.12% 0 / 0 / 0
met1 301 14 4.65% 0 / 0 / 0
met2 244 17 6.97% 0 / 0 / 0
met3 165 0 0.00% 0 / 0 / 0
met4 94 0 0.00% 0 / 0 / 0
met5 30 0 0.00% 0 / 0 / 0
---------------------------------------------------------------------------------------
Total 898 33 3.67% 0 / 0 / 0
- Complete detail routing
total wire length = 296 um
total wire length on LAYER li1 = 0 um
total wire length on LAYER met1 = 106 um
total wire length on LAYER met2 = 148 um
total wire length on LAYER met3 = 42 um
total wire length on LAYER met4 = 0 um
total wire length on LAYER met5 = 0 um
total number of vias = 91
up-via summary (total 91):
---------------------
FR_MASTERSLICE 0
li1 48
met1 39
met2 4
met3 0
met4 0
---------------------
91
Run Directory: /openLANE_flow/OpenLane/cmp/runs/run_four
----------------------------------------
Magic DRC Summary:
Source: /openLANE_flow/OpenLane/cmp/runs/run_four/reports/magic//50-magic.drc
Violation Message "Metal5 spacing < 1.6um (met5.2) "found 56 Times.
Total Magic DRC violations is 56
----------------------------------------
LVS Summary:
Source: /openLANE_flow/OpenLane/cmp/runs/run_four/results/lvs/cmp.lvs_parsed.lef.log
LVS reports no net, device, pin, or property mismatches.
Total errors = 0
----------------------------------------
Antenna Summary:
Source: /openLANE_flow/OpenLane/cmp/runs/run_four/reports/routing//52-antenna.rpt
Number of pins violated: 0
Number of nets violated: 0
[INFO]: check full report here: /openLANE_flow/OpenLane/cmp/runs/run_four/reports/final_summary_report.csv
[INFO]: Saving Runtime Environment
[SUCCESS]: Flow Completed Without Fatal Errors.
- Layout after floorplanning and placement in Magic
- Final GDS layout
- Closeup view of the final layout design
- lef layout
GTKWave output waveform
- Clone the project using following command
git clone https://github.com/PatelVatsalB21/High_Speed_Domino_Comparator.git
- To explore synthesis of the design
make mount
flow.tcl -design cmp -synth_explore
- To explore floorplan
cd floorplan/
magic lef read merged.lef def read cmp.floorplan.def &
- To explore placement
cd placement/
magic lef read merged.lef def read cmp.placement.def &
- To explore final layout
cd final_layout/
magic cmp.mag
- To reproduce Post-layout simulation
cd post_layout/
iverilog -o gls gls.v primitives.v sky130_fd_sc_hd.v
./gls
gtkwave gls.vcd
- Complete details, logs and results can be found under this folder.
cmp
├── runs
│ ├── logs
│ │ ├── cts
│ │ ├── cvc
│ │ ├── floorplan
│ │ ├── klayout
│ │ ├── lvs
│ │ ├── magic
│ │ ├── placement
│ │ ├── routing
│ │ └── synthesis
│ ├── reports
│ │ ├── cts
│ │ ├── cvc
│ │ ├── floorplan
│ │ ├── klayout
│ │ ├── lvs
│ │ ├── magic
│ │ ├── placement
│ │ ├── routing
│ │ └── synthesis
│ ├── results
│ │ ├── cts
│ │ ├── cvc
│ │ ├── floorplan
│ │ ├── klayout
│ │ ├── lvs
│ │ ├── magic
│ │ ├── placement
│ │ ├── routing
│ │ └── synthesis
│ └── tmp
│ ├── cts
│ ├── cvc
│ ├── floorplan
│ ├── klayout
│ ├── lvs
│ ├── magic
│ ├── placement
│ ├── routing
│ └── synthesis
└── src
- Keep the top module name and design name always, else errors would come in the design.
- This project is a Combinaional block hence there is no clock, static time analysis is being skiped.
- Improvement in max clock frequency of the comparator.
- Post layout simulation bugs to be fixed in sky130 nm pdks.
- To perform spice simulation of the final GDS layout.
- Vatsal Patel, Bachelor of Technology in Electronics & Communication Engineering,
- Kunal Ghosh, Co-Founder of VLSI System Design (VSD) Corp. Pvt. Ltd. - [email protected]