Pachi
Pachi can refer to: a simple modular framework for programs playing the game of Go/Weiqi/Baduk, and a reasonably strong engine built within this framework.
Engine
The default engine plays by Japanese or Chinese rules and should be about 7d KGS strength on 9x9. On 19x19 it can hold a solid KGS 2d rank on modest hardware (Raspberry Pi, dcnn) or faster machine (e.g. six-way Intel i7) without dcnn.
When using a large cluster (64 machines, 20 cores each), it maintains KGS 3d to 4d and has won e.g. a 7-stone handicap game against Zhou Junxun 9p.
By default, Pachi uses the UCT engine that combines Monte Carlo approach with tree search; UCB1AMAF tree policy using the RAVE method is used for tree search, while the Moggy playout policy using 3x3 patterns and various tactical checks is used for the semi-random Monte Carlo playouts. MM patterns and deep learning are used to guide tree search.
Binary Releases
Linux / Windows: Download binary release and follow instructions inside.
Ubuntu: Install 'pachi-go' package from ppa:
sudo add-apt-repository ppa:lemonsqueeze/pachi
sudo apt-get update
sudo apt-get install pachi-go
For build instructions see INSTALL.
Setup
The pachi
binary program is a GTP client. Use it with your favorite
Go program interface (e.g. gogui, sabaki, lizzie),
or use kgsGtp to connect it to KGS.
DO NOT make the GTP interface accessible directly to untrusted users since the parser is not secure - see HACKING for details.
The pachi program can take many parameters. The defaults should be fine for initial usage, see below for more tips.
Deep Learning
Pachi uses a neural network as source of good moves to consider (policy network). With dcnn support Pachi can play at dan level on modest hardware. For large number of playouts this makes it about 1 stone stronger and makes the games more pretty. A raw dcnn engine is available for pure dcnn play (not recommended for actual games, pachi won't know when to pass or resign !).
pachi --list-dcnn
List supported networks.
pachi --dcnn=name
Choose network to use (Detlef's 54% dcnn by default).
Releases come with Detlef's 54% dcnn by default.
For other networks see Pachi Networks.
Currently dcnn is used for root node only.
How to run
By default Pachi will run on all cores and take a little under 10 seconds per move (no pondering). You can adjust these parameters by passing it extra command line options.
For main options description try:
pachi --help
Time Settings
Pachi can smartly deal with a variety of time settings (canadian byoyomi recommended to maximize efficient time allocation). However, most of these are accessible only via GTP, that is by the frontend keeping track of time, e.g. KGS or gogui.
It's also possible to force time settings via the command line (GTP time settings are ignored then):
pachi -t 20
20s per move.pachi -t _600
10 minutes sudden death.pachi -t =5000
5000 playouts per move.pachi -t =5000:15000
Think more when needed (up to 15k playouts)pachi -t =5000:15000 --fuseki-time =4000
Don't think too much during fuseki.
Fixed Strength
Pachi will play fast on a fast computer, slow on a slow computer, but strength will remain the same:
pachi -t =5000:15000 --dcnn=df
kgs 3dpachi -t =5000:15000
kgs 2dpachi -t =5000 --nodcnn
kgs 3k (mcts only).
KGS
Use pachi --kgs --josekifix
when playing on KGS.
See kgsgtp.conf for example setup.
You want joseki fixes working if playing ranked games
(see MORE and josekifix README for details).
Other Options
-
pachi resign_threshold=0.25
Resign when winrate < 25% (default: 20%). -
pachi reportfreq=1s
Show search progress every second (default: 1000 playouts). -
pachi -t 30 threads=4,max_tree_size=500,pondering
Play with 30s per move on 4 threads, using max 500Mb of memory for tree search and thinking during the opponent's turn as well.
-
pachi -t _1200 --nodcnn threads=8,max_tree_size=3072
Play without dcnn with time settings 20:00 S.D. on 8 threads, taking up to 3Gb of memory.
For now, there is no comprehensive documentation of engine options, but you can get a pretty good idea by looking at the uct_setoption() function in uct/uct.c - you will find the list of UCT engine options there, each with a description. At any rate, usually the four options above are the only ones you really want to tweak.
Analyze commands
When running Pachi through GoGui, a number of graphic tools are available
through the Tools -> Analyze commands
window:
- Best moves
- Score estimate
- DCNN ratings ...
It's also possible to visualize best moves / best sequence while Pachi is thinking via the live gfx commands.
Lizzie
It's also possible to run Pachi with Lizzie to analyze things !
This is a great way to explore variations, analyze games or visualize what Pachi is doing while it's thinking,
the graphics are amazing.
Setup:
-
Install Lizzie
-
Get Pachi, extract in Lizzie folder
-
Configure engines:
Start Lizzie,Menu -> Settings -> Engine
Normally Leela-zero and Katago the first two engines.
Add Pachi as "Engine 1":Engine 1: pachi/pachi.exe -o pachi.log
-
Lizzie will start with Leela-zero by default,
useMenu -> Engine -> Engine 1
to switch to Pachi.
(Window title shows current engine).
Logs
Pachi logs details of its activity on stderr, which can be viewed via
Tools -> GTP Shell
in gogui. Tons of details about winrates, memory usage,
score estimate etc can be found here. Even though most of it available through
other means in gogui, it's always a good place to look in case something
unexpected happens.
-d <log_level>
changes the amount of logging (-d0 suppresses everything)
-o log_file
logs to a file instead. gogui live-gfx commands won't work though.
More
See HACKING for a more detailed developer's view of Pachi,
MORE for more details, other engines and game analysis tools.
Also, if you are interested about Pachi's architecture, algorithms etc., consider taking a look at Petr Baudis' Master's Thesis:
http://pasky.or.cz/go/prace.pdf
...or a slightly newer scientific paper on Pachi:
http://pasky.or.cz/go/pachi-tr.pdf
Licence
Pachi is distributed under the GPLv2 licence (see the COPYING file for details and full text of the licence); you are welcome to tweak it as you wish (contributing back upstream is welcome) and distribute it freely, but only together with the source code. You are welcome to make private modifications to the code (e.g. try new algorithms and approaches), use them internally or even to have your bot play on the internet and enter competitions, but as soon as you want to release it to the public, you need to release the source code as well.
One exception is the Autotest framework, which is licenced under the terms of the MIT licence (close to public domain) - you are free to use it any way you wish.