A foundation model to predict and capture human cognition

Marcel Binz; Elif Akata; Matthias Bethge; Franziska Brändle; Fred Callaway; Julian Coda-Forno; Peter Dayan; Can Demircan; Maria K. Eckstein; Noémi Éltető; Thomas L. Griffiths; Susanne Haridi; Akshay K. Jagadish; Li Ji-An; Alexander Kipnis; Sreejan Kumar; Tobias Ludwig; Marvin Mathony; Marcelo Mattar; Alireza Modirshanechi; Surabhi S. Nath; Joshua C. Peterson; Milena Rmus; Evan M. Russek; Tankred Saanum; Johannes A. Schubert; Luca M. Schulze Buschoff; Nishad Singhi; Xin Sui; Mirko Thalmann; Fabian J. Theis; Vuong Truong; Vishaal Udandarao; Konstantinos Voudouris; Robert Wilson; Kristin Witte; Shuchen Wu; Dirk U. Wulff; Huadong Xiong; Eric Schulz

doi:10.1038/s41586-025-09215-4

A foundation model to predict and capture human cognition

Marcel Binz
, Elif Akata
, Matthias Bethge
, Franziska Brändle
, Fred Callaway
, Julian Coda-Forno
, Peter Dayan
, Can Demircan
, Maria K. Eckstein
, Noémi Éltető
, Thomas L. Griffiths
, Susanne Haridi
, Akshay K. Jagadish
, Li Ji-An
, Alexander Kipnis
, Sreejan Kumar
, Tobias Ludwig
, Marvin Mathony
, Marcelo Mattar
, Alireza Modirshanechi

Surabhi S. Nath, Joshua C. Peterson, Milena Rmus, Evan M. Russek, Tankred Saanum, Johannes A. Schubert, Luca M. Schulze Buschoff, Nishad Singhi, Xin Sui, Mirko Thalmann, Fabian J. Theis, Vuong Truong, Vishaal Udandarao, Konstantinos Voudouris, Robert Wilson, Kristin Witte, Shuchen Wu, Dirk U. Wulff, Huadong Xiong, Eric Schulz

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Establishing a unified theory of cognition has been an important goal in psychology^1,2. A first step towards such a theory is to create a computational model that can predict human behaviour in a wide range of settings. Here we introduce Centaur, a computational model that can predict and simulate human behaviour in any experiment expressible in natural language. We derived Centaur by fine-tuning a state-of-the-art language model on a large-scale dataset called Psych-101. Psych-101 has an unprecedented scale, covering trial-by-trial data from more than 60,000 participants performing in excess of 10,000,000 choices in 160 experiments. Centaur not only captures the behaviour of held-out participants better than existing cognitive models, but it also generalizes to previously unseen cover stories, structural task modifications and entirely new domains. Furthermore, the model’s internal representations become more aligned with human neural activity after fine-tuning. Taken together, our results demonstrate that it is possible to discover computational models that capture human behaviour across a wide range of domains. We believe that such models provide tremendous potential for guiding the development of cognitive theories, and we present a case study to demonstrate this.

Original language	English (US)
Pages (from-to)	1002-1009
Number of pages	8
Journal	Nature
Volume	644
Issue number	8078
DOIs	https://doi.org/10.1038/s41586-025-09215-4
State	Published - Aug 28 2025

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10.1038/s41586-025-09215-4

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Binz, M., Akata, E., Bethge, M., Brändle, F., Callaway, F., Coda-Forno, J., Dayan, P., Demircan, C., Eckstein, M. K., Éltető, N., Griffiths, T. L., Haridi, S., Jagadish, A. K., Ji-An, L., Kipnis, A., Kumar, S., Ludwig, T., Mathony, M., Mattar, M., ... Schulz, E. (2025). A foundation model to predict and capture human cognition. Nature, 644(8078), 1002-1009. https://doi.org/10.1038/s41586-025-09215-4

@article{34a8bf40886c4fb2ba5af0dff1c2073c,

title = "A foundation model to predict and capture human cognition",

abstract = "Establishing a unified theory of cognition has been an important goal in psychology1,2. A first step towards such a theory is to create a computational model that can predict human behaviour in a wide range of settings. Here we introduce Centaur, a computational model that can predict and simulate human behaviour in any experiment expressible in natural language. We derived Centaur by fine-tuning a state-of-the-art language model on a large-scale dataset called Psych-101. Psych-101 has an unprecedented scale, covering trial-by-trial data from more than 60,000 participants performing in excess of 10,000,000 choices in 160 experiments. Centaur not only captures the behaviour of held-out participants better than existing cognitive models, but it also generalizes to previously unseen cover stories, structural task modifications and entirely new domains. Furthermore, the model{\textquoteright}s internal representations become more aligned with human neural activity after fine-tuning. Taken together, our results demonstrate that it is possible to discover computational models that capture human behaviour across a wide range of domains. We believe that such models provide tremendous potential for guiding the development of cognitive theories, and we present a case study to demonstrate this.",

author = "Marcel Binz and Elif Akata and Matthias Bethge and Franziska Br{\"a}ndle and Fred Callaway and Julian Coda-Forno and Peter Dayan and Can Demircan and Eckstein, \{Maria K.\} and No{\'e}mi {\'E}ltet{\H o} and Griffiths, \{Thomas L.\} and Susanne Haridi and Jagadish, \{Akshay K.\} and Li Ji-An and Alexander Kipnis and Sreejan Kumar and Tobias Ludwig and Marvin Mathony and Marcelo Mattar and Alireza Modirshanechi and Nath, \{Surabhi S.\} and Peterson, \{Joshua C.\} and Milena Rmus and Russek, \{Evan M.\} and Tankred Saanum and Schubert, \{Johannes A.\} and \{Schulze Buschoff\}, \{Luca M.\} and Nishad Singhi and Xin Sui and Mirko Thalmann and Theis, \{Fabian J.\} and Vuong Truong and Vishaal Udandarao and Konstantinos Voudouris and Robert Wilson and Kristin Witte and Shuchen Wu and Wulff, \{Dirk U.\} and Huadong Xiong and Eric Schulz",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = aug,

day = "28",

doi = "10.1038/s41586-025-09215-4",

language = "English (US)",

volume = "644",

pages = "1002--1009",

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Binz, M, Akata, E, Bethge, M, Brändle, F, Callaway, F, Coda-Forno, J, Dayan, P, Demircan, C, Eckstein, MK, Éltető, N, Griffiths, TL, Haridi, S, Jagadish, AK, Ji-An, L, Kipnis, A, Kumar, S, Ludwig, T, Mathony, M, Mattar, M, Modirshanechi, A, Nath, SS, Peterson, JC, Rmus, M, Russek, EM, Saanum, T, Schubert, JA, Schulze Buschoff, LM, Singhi, N, Sui, X, Thalmann, M, Theis, FJ, Truong, V, Udandarao, V, Voudouris, K, Wilson, R, Witte, K, Wu, S, Wulff, DU, Xiong, H & Schulz, E 2025, 'A foundation model to predict and capture human cognition', Nature, vol. 644, no. 8078, pp. 1002-1009. https://doi.org/10.1038/s41586-025-09215-4

TY - JOUR

T1 - A foundation model to predict and capture human cognition

AU - Binz, Marcel

AU - Akata, Elif

AU - Bethge, Matthias

AU - Brändle, Franziska

AU - Callaway, Fred

AU - Coda-Forno, Julian

AU - Dayan, Peter

AU - Demircan, Can

AU - Eckstein, Maria K.

AU - Éltető, Noémi

AU - Griffiths, Thomas L.

AU - Haridi, Susanne

AU - Jagadish, Akshay K.

AU - Ji-An, Li

AU - Kipnis, Alexander

AU - Kumar, Sreejan

AU - Ludwig, Tobias

AU - Mathony, Marvin

AU - Mattar, Marcelo

AU - Modirshanechi, Alireza

AU - Nath, Surabhi S.

AU - Peterson, Joshua C.

AU - Rmus, Milena

AU - Russek, Evan M.

AU - Saanum, Tankred

AU - Schubert, Johannes A.

AU - Schulze Buschoff, Luca M.

AU - Singhi, Nishad

AU - Sui, Xin

AU - Thalmann, Mirko

AU - Theis, Fabian J.

AU - Truong, Vuong

AU - Udandarao, Vishaal

AU - Voudouris, Konstantinos

AU - Wilson, Robert

AU - Witte, Kristin

AU - Wu, Shuchen

AU - Wulff, Dirk U.

AU - Xiong, Huadong

AU - Schulz, Eric

PY - 2025/8/28

Y1 - 2025/8/28

N2 - Establishing a unified theory of cognition has been an important goal in psychology1,2. A first step towards such a theory is to create a computational model that can predict human behaviour in a wide range of settings. Here we introduce Centaur, a computational model that can predict and simulate human behaviour in any experiment expressible in natural language. We derived Centaur by fine-tuning a state-of-the-art language model on a large-scale dataset called Psych-101. Psych-101 has an unprecedented scale, covering trial-by-trial data from more than 60,000 participants performing in excess of 10,000,000 choices in 160 experiments. Centaur not only captures the behaviour of held-out participants better than existing cognitive models, but it also generalizes to previously unseen cover stories, structural task modifications and entirely new domains. Furthermore, the model’s internal representations become more aligned with human neural activity after fine-tuning. Taken together, our results demonstrate that it is possible to discover computational models that capture human behaviour across a wide range of domains. We believe that such models provide tremendous potential for guiding the development of cognitive theories, and we present a case study to demonstrate this.

AB - Establishing a unified theory of cognition has been an important goal in psychology1,2. A first step towards such a theory is to create a computational model that can predict human behaviour in a wide range of settings. Here we introduce Centaur, a computational model that can predict and simulate human behaviour in any experiment expressible in natural language. We derived Centaur by fine-tuning a state-of-the-art language model on a large-scale dataset called Psych-101. Psych-101 has an unprecedented scale, covering trial-by-trial data from more than 60,000 participants performing in excess of 10,000,000 choices in 160 experiments. Centaur not only captures the behaviour of held-out participants better than existing cognitive models, but it also generalizes to previously unseen cover stories, structural task modifications and entirely new domains. Furthermore, the model’s internal representations become more aligned with human neural activity after fine-tuning. Taken together, our results demonstrate that it is possible to discover computational models that capture human behaviour across a wide range of domains. We believe that such models provide tremendous potential for guiding the development of cognitive theories, and we present a case study to demonstrate this.

UR - https://www.scopus.com/pages/publications/105009611087

UR - https://www.scopus.com/pages/publications/105009611087#tab=citedBy

U2 - 10.1038/s41586-025-09215-4

DO - 10.1038/s41586-025-09215-4

M3 - Article

C2 - 40604288

AN - SCOPUS:105009611087

SN - 0028-0836

VL - 644

SP - 1002

EP - 1009

JO - Nature

JF - Nature

IS - 8078

ER -

A foundation model to predict and capture human cognition

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