Invented and developed Asymmetric Numeral Systems (ANS), a family of entropy coders now widely used in ZSTD (Facebook/Linux/Android), LZFSE (Apple/macOS/iOS), JPEG XL, Google Draco, and CRAM DNA compressor
Proposed Maximal Entropy Random Walk for modeling in physics and information theory
Generalized the Kuznetsov-Tsybakov problem in constrained coding, enabling message encoding under sender-only-known constraints
Developed the Finite State Entropy implementation of tANS, offering arithmetic-coding-level compression at Huffman-like speed, with chaotic properties suitable for simultaneous encryption
Introduced Hierarchical Correlation Reconstruction (HCR)-based local joint distribution models in 2WNN, enabling biology-like multidirectional propagation
Proposed the Two-Way Quantum Computing (2WQC) framework, theoretically capable of solving NP problems and enhancing quantum error correction
Explored non-perturbative Standard Model via liquid crystal-inspired topological excitations using Landau-de Gennes-like Lagrangians
Education
2006–2012: PhD in Theoretical Physics, Jagiellonian University
2004–2010: PhD in Theoretical Computer Science, Jagiellonian University
2001–2006: MSc in Theoretical Physics, Jagiellonian University
2000–2005: MSc in Theoretical Mathematics, Jagiellonian University
1999–2004: MSc in Computer Science, Jagiellonian University