This is one part of the course assignment for HKUST-GZ MICS 6000I Physical Design Automation of Digital Systems. This project is alive, maintained by [email protected]. Any discussion or suggestion would be greatly appreciated!
In this repo, the shelf floorplanning and skyline floorplanning methods are implemented, together with an optional optimization with the Guillotine algorithm.
- System Checking
- Ubuntu OS: 20.04.5 LTS
- Linux: 5.14.0-1054-oem
- g++ 9.4.0
- To install Gurobi on Linux
- Obtain an academic license at https://www.gurobi.com/downloads/end-user-license-agreement-academic/
- Set the environment variables:
# Gurobi Basics export GUROBI_HOME=<path-to-gurobi-home-directory> export PATH="${GUROBI_HOME}/bin:${PATH}" export LD_LIBRARY_PATH="${GUROBI_HOME}/lib:${LD_LIBRARY_PATH}" # For '#include "gurobi_c++.h"' in C++ source code export CPATH="${GUROBI_HOME}/include:${CPATH}" # License export GRB_LICENSE_FILE=<path-to-license-file-.lic>
- Python packages (for visualization)
- matplotlib 3.5.1
- To enable
#include <graphics.h>
in C++ (poor visualization quality, Optional)sudo apt-get install build-essential
sudo apt-get install libsdl-image1.2 libsdl-image1.2-dev guile-2.0 guile-2.0-dev libsdl1.2debian libart-2.0-dev libaudiofile-dev libdirectfb-dev libdirectfb-extra libfreetype6-dev libxext-dev x11proto-xext-dev libfreetype6 libaa1 libaa1-dev libslang2-dev libasound2 libasound2-dev
sudo vim /etc/apt/sources.list
, and paste the following sourcesdeb http://us.archive.ubuntu.com/ubuntu/ xenial main universe deb-src http://us.archive.ubuntu.com/ubuntu/ xenial main universe
sudo apt update
sudo apt install libesd0-dev
wget http://download.savannah.gnu.org/releases/libgraph/libgraph-1.0.2.tar.gz
tar zxvf libgraph-1.0.2.tar.gz
cd libgraph-1.0.2/
CPPFLAGS="$CPPFLAGS $(pkg-config --cflags-only-I guile-2.0)" CFLAGS="$CFLAGS $(pkg-config --cflags-only-other guile-2.0)" LDFLAGS="$LDFLAGS $(pkg-config --libs guile-2.0)" ./configure
make
sudo make install
sudo cp /usr/local/lib/libgraph.* /usr/lib
- To compile the C++ code:
make
- To run all the testcases one-and-for-all
python run_all.py
is an integrated script calling the C++ executable repetitively- Note that we only run MILP for 10-block case in this script because others lead to timeout (>2 hours)
- To generate floorplan for specific cases:
./floorplan ./testcase/50.txt 0 7000 # 0 for MILP, 7000 means the program will terminate in 7000 seconds if not optimally solved yet # ./floorplan ./testcase/<testcase_name> <alg_type> <sub_alg_type> <sorting_type>, e.g., ./floorplan ./testcase/500.txt 1 0 0
- To visualize all logs and save images in the directory ./img:
python vis_all.py
- To visualize certain log:
python visualize.py ./log/<xxx>.log # output in base directory as "floorplan.png"
- To see the best solutions under each algorithm:
python find_best.py # standard output in the terminal for each testcase, and for each type of algorithm