Takuzu Explained

Takuzu, also known as Binairo, is a logic puzzle involving placement of two symbols, often 1s and 0s, on a rectangular grid. The objective is to fill the grid with 1s and 0s, where there is an equal number of 1s and 0s in each row and column and no more than two of either number adjacent to each other. Additionally, there can be no identical rows or columns. Similar to Sudoku, each puzzle begins with several squares in the grid already filled.

Names and variations

The game is known as Binairo, Takuzu, Binero,[1] [2] Tohu-Wa-Vohu (Formless and Empty), Eins und Zwei (One and Two), Binary Puzzles, Binoxxo, Zernero,[3] Tic-Tac-Logic,[4] and Sudoku Binary.[5] The names "Binairo" and "Takuzu" are trademarked in the European Union.[6] [7] The name "Binero" is trademarked in France by Editions Megastar.[8]

Certain names imply specific symbols being used. For example, Binary Puzzles use 1s and 0s (i.e. binary numbers), Tic-Tac-Logic uses Xs and Os (like tic-tac-toe), Eins und Zwei uses 1s and 2s, and Tohu-Wa-Vohu uses T and V symbols. However, many of the names are used for any variation of symbols. Black and white circles (or squares) are another commonly used pair of symbols. Any variation of two numbers, letters, colors, or pictures can work as the two symbols, though it is generally common for the symbols to be 1s, Xs, or shapes.

The rectangular grid sizes can vary greatly. Since the objective is to have equal number of both symbols in each row and column, the number of rows and columns is normally even. Though not required, grids are often square. Common sizes range from 4x4 to 20x20.[9] [10] Larger puzzles are also made, including ones that use a 30x40 grid.[11]

Some variations allow identical rows and columns.[3] Another variation, Odd Binairo, has an odd number of rows and columns with each containing one more 1 than 0s (i.e. in a 11x11 grid, each row and column has 5 zeros and 6 ones).[12]

History

There are two competing origins to the puzzle, both created around the same time. Tohu wa Vohu was invented by Italian Adolfo Zanellati.[3] Binairo was created by Belgians Peter De Schepper and Frank Coussement in 2009.[1] [12]

Tic-Tac-Logic claims its origin on creating a single-player version of tic-tac-toe. Like tic-tac-toe, it uses Xs and Os. The two-player game's goal is to create three in a row, while in Tic-Tac-Logic, the goal is to prevent any three in a row.[4]

Solving methods

Mathematics

A zero-knowledge proof for the puzzle was published in Jun 2016.[13] [14]

The puzzle was adapted for modeling quantum agents.[15]

Mathematicians of Dutch university (PH Utomo and RH Makarim) proposed three different approaches to solve binary puzzles: using backtrack-based search, SAT solvers, and Gröbner bases algorithms.[16] The last two approaches reduce the problem of solving a binary puzzle to a Boolean satisfiability problem and solving systems of polynomial equations over the binary field.

External links

Notes and References

  1. News: Aberkane . Idriss J. . 18 July 2016 . Comment le Binairo stimule les neurones ! . How Binairo stimulates neurons! . French . . 9 February 2019.
  2. News: Cusset . Maïlys . 23 June 2016 . Binairo, le jeu pour les accros des chiffres . Binairo, the game for number addicts . French . . 9 February 2019.
  3. Web site: Tohu-Wa-Vohu . janko.at . German . 9 February 2019.
  4. Web site: Tic-Tac-Logic history . Conceptis Puzzles . 9 February 2019.
  5. Web site: Sudoku Binary - Google Search. www.google.com.
  6. Web site: EUTM file information - Binairo . . 9 February 2019.
  7. Web site: EUTM file information - Takuzu . . 9 February 2019.
  8. Web site: BINERO RELAX (Marques) - Data INPI. data.inpi.fr.
  9. Web site: Binairo . Binairo . Puzzle Team . 9 February 2019.
  10. Web site: Binary Puzzle . BinaryPuzzle.com . 9 February 2019.
  11. Web site: Special Monthly Binairo . Binairo . Puzzle Team . 9 February 2019.
  12. Web site: Even and Odd Binairo . PeterFrank . 9 February 2019.
  13. 1606.01045. Bultel. Xavier. Physical Zero-Knowledge Proofs for Akari, Takuzu, Kakuro and KenKen. Dreier. Jannik. Dumas. Jean-Guillaume. Lafourcade. Pascal. cs.CR. 2016.
  14. Web site: Physical Zero-Knowledge Proofs for Akari, Takuzu, Kakuro and KenKen. Xavier Bultel, Jannik Dreier, Jean-Guillaume Dumas, and Pascal Lafourcade4.
  15. Book: 10.1007/978-3-319-67074-4_38. Agent Having Quantum Properties: The Superposition States and the Entanglement. Computational Collective Intelligence. 10448. 389–398. Lecture Notes in Computer Science. 2017. Fougères. Alain-Jérôme. 978-3-319-67073-7.
  16. 10.1007/s11786-017-0322-4. Solving a Binary Puzzle. Mathematics in Computer Science. 11. 3–4. 515–526. 2017. Utomo. Putranto H.. Makarim. Rusydi H.. free.