From: Stéphane Nicolet Date: Tue, 16 Feb 2021 15:19:37 +0000 (+0100) Subject: Update README.md X-Git-Url: https://git.sesse.net/?p=stockfish;a=commitdiff_plain;h=9f6d69c544a64e06056524ddeaa690560b3896c0;hp=40cb0f076a62115af030c4524825d9ba73d61023 Update README.md • reorder some sections of the README file • add reference to the AUTHORS file • rename Syzygybases to Syzygy tablebases • add pointer to the Discord channel • more precise info about the GPLv3 licence No functional change --- diff --git a/README.md b/README.md index eb7aa5a7..fdc6fd61 100644 --- a/README.md +++ b/README.md @@ -24,6 +24,8 @@ This distribution of Stockfish consists of the following files: * Readme.md, the file you are currently reading. * Copying.txt, a text file containing the GNU General Public License version 3. + + * AUTHORS, a text file with the list of authors for the project * src, a subdirectory containing the full source code, including a Makefile that can be used to compile Stockfish on Unix-like systems. @@ -31,17 +33,6 @@ This distribution of Stockfish consists of the following files: * a file with the .nnue extension, storing the neural network for the NNUE evaluation. Binary distributions will have this file embedded. -Note: to use the NNUE evaluation, the additional data file with neural network parameters -needs to be available. Normally, this file is already embedded in the binary or it can be downloaded. -The filename for the default (recommended) net can be found as the default -value of the `EvalFile` UCI option, with the format `nn-[SHA256 first 12 digits].nnue` -(for instance, `nn-c157e0a5755b.nnue`). This file can be downloaded from -``` -https://tests.stockfishchess.org/api/nn/[filename] -``` -replacing `[filename]` as needed. - - ## UCI options Currently, Stockfish has the following UCI options: @@ -53,6 +44,9 @@ Currently, Stockfish has the following UCI options: * #### Hash The size of the hash table in MB. It is recommended to set Hash after setting Threads. + * #### Clear Hash + Clear the hash table. + * #### Ponder Let Stockfish ponder its next move while the opponent is thinking. @@ -109,7 +103,7 @@ Currently, Stockfish has the following UCI options: * #### SyzygyProbeDepth Minimum remaining search depth for which a position is probed. Set this option to a higher value to probe less aggressively if you experience too much slowdown - (in terms of nps) due to TB probing. + (in terms of nps) due to tablebase probing. * #### Syzygy50MoveRule Disable to let fifty-move rule draws detected by Syzygy tablebase probes count @@ -139,13 +133,10 @@ Currently, Stockfish has the following UCI options: Tells the engine to use nodes searched instead of wall time to account for elapsed time. Useful for engine testing. - * #### Clear Hash - Clear the hash table. - * #### Debug Log File Write all communication to and from the engine into a text file. -## A note on classical and NNUE evaluation +## A note on classical evaluation versus NNUE evaluation Both approaches assign a value to a position that is used in alpha-beta (PVS) search to find the best move. The classical evaluation computes this value as a function @@ -158,18 +149,29 @@ The NNUE evaluation was first introduced in shogi, and ported to Stockfish after It can be evaluated efficiently on CPUs, and exploits the fact that only parts of the neural network need to be updated after a typical chess move. [The nodchip repository](https://github.com/nodchip/Stockfish) provides additional -tools to train and develop the NNUE networks. +tools to train and develop the NNUE networks. On CPUs supporting modern vector instructions +(avx2 and similar), the NNUE evaluation results in much stronger playing strength, even +if the nodes per second computed by the engine is somewhat lower (roughly 80% of nps +is typical). -On CPUs supporting modern vector instructions (avx2 and similar), the NNUE evaluation -results in stronger playing strength, even if the nodes per second computed by the engine -is somewhat lower (roughly 60% of nps is typical). +Notes: -Note that the NNUE evaluation depends on the Stockfish binary and the network parameter -file (see EvalFile). Not every parameter file is compatible with a given Stockfish binary. -The default value of the EvalFile UCI option is the name of a network that is guaranteed -to be compatible with that binary. +1) the NNUE evaluation depends on the Stockfish binary and the network parameter +file (see the EvalFile UCI option). Not every parameter file is compatible with a given +Stockfish binary, but the default value of the EvalFile UCI option is the name of a network +that is guaranteed to be compatible with that binary. + +2) to use the NNUE evaluation, the additional data file with neural network parameters +needs to be available. Normally, this file is already embedded in the binary or it +can be downloaded. The filename for the default (recommended) net can be found as the default +value of the `EvalFile` UCI option, with the format `nn-[SHA256 first 12 digits].nnue` +(for instance, `nn-c157e0a5755b.nnue`). This file can be downloaded from +``` +https://tests.stockfishchess.org/api/nn/[filename] +``` +replacing `[filename]` as needed. -## What to expect from Syzygybases? +## What to expect from the Syzygy tablebases? If the engine is searching a position that is not in the tablebases (e.g. a position with 8 pieces), it will access the tablebases during the search. @@ -187,9 +189,9 @@ will not report a mate score, even if the position is known to be won.** It is therefore clear that this behaviour is not identical to what one might be used to with Nalimov tablebases. There are technical reasons for this difference, the main technical reason being that Nalimov tablebases use the -DTM metric (distance-to-mate), while Syzygybases use a variation of the +DTM metric (distance-to-mate), while the Syzygy tablebases use a variation of the DTZ metric (distance-to-zero, zero meaning any move that resets the 50-move -counter). This special metric is one of the reasons that Syzygybases are +counter). This special metric is one of the reasons that the Syzygy tablebases are more compact than Nalimov tablebases, while still storing all information needed for optimal play and in addition being able to take into account the 50-move rule. @@ -272,8 +274,9 @@ generic rather than being focused on Stockfish's precise implementation. Nevertheless, a helpful resource. * The latest source can always be found on [GitHub](https://github.com/official-stockfish/Stockfish). -Discussions about Stockfish take place in the [FishCooking](https://groups.google.com/forum/#!forum/fishcooking) -group and engine testing is done on [Fishtest](https://tests.stockfishchess.org/tests). +Discussions about Stockfish take place these days mainly in the [FishCooking](https://groups.google.com/forum/#!forum/fishcooking) +group and on the [Stockfish Discord channel](https://discord.gg/nv8gDtt). +The engine testing is done on [Fishtest](https://tests.stockfishchess.org/tests). If you want to help improve Stockfish, please read this [guideline](https://github.com/glinscott/fishtest/wiki/Creating-my-first-test) first, where the basics of Stockfish development are explained. @@ -288,9 +291,10 @@ it (either by itself or as part of some bigger software package), or using it as the starting point for a software project of your own. The only real limitation is that whenever you distribute Stockfish in -some way, you must always include the full source code, or a pointer -to where the source code can be found. If you make any changes to the -source code, these changes must also be made available under the GPL. +some way, you MUST always include the full source code, or a pointer +to where the source code can be found, to generate the exact binary +you are distributing. If you make any changes to the source code, +these changes must also be made available under the GPL. For full details, read the copy of the GPL v3 found in the file named *Copying.txt*.