Hisayori Noda

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Hisayori Noda, (野田久順, Nodchip) a Japanese mathematician, computer scientist, and computer Shogi and chess programmer, who introduced NNUE to Stockfish, yielding in Stockfish NNUE. While affiliated with the Tokyo Institute of Technology from 2002 until 2011, his research focused on signal processing along with harmonic analysis.

=Shogi= Hisayori Noda is author and co-author of various Shogi playing programs, and member of their corresponding developing teams. In 2016, his first Shogi engine was Tanuki no Mori by the Tanuki no Mori Production Committee along with Jun Okabe, Takahiro Suzuki, and Masatoshi Hidaka. Following teams were The Minstrel's Ballad: Tanuki's Reign with Yu Nasu and at times Akio Kono joining , and most recently Ziosoft Computer Shogi Club, with the World Computer Shogi Championship entries of Shouten Gensou Knights of Tanuki (2017) , the end of genesis T.N.K.evolution turbo type D (2018) and the 29th World Computer Shogi Champion YaneuraOu. Ziosoft's new open source Shogi engine tanuki- aka Ultimate Fantasy Alte Matanupon is based on technology from YaneuraOu.

=NNUE= Ziosoft's the end of genesis T.N.K.evolution turbo type D was the first Shogi engine using Yu Nasu's new evaluation function based on a shallow neural network, dubbed NNUE (&#398;U&#1048;&#1048; Efficiently Updatable Neural Networks) , further refined in YaneuraOu using a Stockfish based Shogi adaptation, as well in competing Shogi playing entities such as WCSC29 runner-up Kristallweizen , both apparently with superhuman AlphaZero strength.

=Stockfish NNUE= In recent years, the Shogi developers have borrowed many ideas from Stockfish, and adopted its search and infrastructure. With the new NNUE revolution, Hisayori Noda's honest motivation was to give something back to the Stockfish community. In 2019, as a proof of concept, he incorporated NNUE into Stockfish 10, After support and announcements by Henk Drost in May 2020 and subsequent enhancements, Stockfish NNUE was established and recognized. In summer 2020, with more people involved in testing and training, the computer chess community bursts out enthusiastically due to its rapidly raising playing strength with different networks trained using a mixture of supervised and reinforcement learning methods. Despite the approximately halved search speed, Stockfish NNUE seemingly became stronger than its original.

=Selected Publications=
 * Hisayori Noda, Akinori Nishihara (2009). Fast and Accurate Generalized Harmonic Analysis and Its Parallel Computation by GPU. IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. 92-A
 * Hisayori Noda, Akinori Nishihara (2009). Relationship between Consecutive Frames in Generalized Harmonics Analysis for Predictive Coding. ISCAS 2009
 * Hisayori Noda, Akinori Nishihara (2009). Instructions for useTitleFast and Accurate Generalized Harmonic Analysis Using Newton's Method. APSIPA ASC 2009
 * Yanna Ma, Hisayori Noda, Izumi Ito, Akinori Nishihara (2010). Modified Delta Encoding and Its Applications to Speech Signal. IEEE TENCON2010, pdf
 * Hiroshi Kurokawa, Hisayori Noda, Mayu Sugiyama, Asako Sakaue-Sawano, Kiyoko Fukami, Atsushi Miyawaki (2012). Software for precise tracking of cell proliferation. Biochemical and Biophysical Research Communications, Vol. 417, No. 3

=External Links=
 * Hisayori Noda | LinkedIn
 * nodchip · GitHub
 * GitHub - nodchip/Stockfish: UCI chess engine (Stockfish NNUE)
 * nodchip@tanuki- (@nodchip) / Twitter
 * Hisayori Noda - YouTube

=References= Up one level