Newly added construction methods

  • Pandiagonal
    • Odd order n=3k
      • Bouteloup
      • Candy (with pandiagonal subsquares) (21. Oct 2017)
      • Candy (Method 2) (21. Oct 2017)
      • Candy (Method 3) (21. Oct 2017)
    • Odd order n3k
      • Cheng Pin
      • de la Hire
      • Liang Peiji – Zhang Hangfu – Zhang Xiafu
      • Sauveur (Violle)
      • Wang Huifeng
      • Xu Zhihui
      • Zhao Li-hua
    • Double-even order
      • Bouteloup
      • Candy (Method 1) (19. Oct 2017)
      • Candy (Method 2) (21. Oct 2017)
      • Wang Zhengyan
      • Zhang Xiafu – Liang Peiji – Zhang Hangfu
    • Order n is a prime
      • Fourrey
      • Candy (10.11.2017)
    • Order n is no prime
      • Planck
    • Special pandiagonal magic squares
      • Allan W. Johnson (10 in 1) (21. Oct 2017)
      • Hendricks (35 in 1) (21. Oct 2017)
    • Pandiagonal Franklin squares
      • Schindel-Rempel-Loly - Nordgren
      • Breedijk
      • Generalization of different ideas
      • Most-perfect square → Franklin square (14. Nov 2017)
  • Most-perfect squares
    • de Winkel (OddSwap) (10. Nov 2017)
    • de Winkel (Dynamic numbering) (10. Nov 2017)
  • Bordered (even order)
    • Lin Shu-fei
    • Wang Hui-feng
  • Concentric(19. Feb 2019)
  • Bimagic
    • Order n=8
      • de Winkel (10. Nov 2017)
      • de Winkel (pandiagonal) (10. Nov 2017)
      • Lamb (pandiagonal) (19. Nov 2017)
    • Order n=9
      • de Winkel (10. Nov 2017)
      • Chen (10. Nov 2017)
    • Order n=11
      • Fredrik Jansson (03.01.2019)
      • Chen Mu-tian (03.01.2019)
      • Trump - Danielsson (03.01.2019)
    • Order n=12
      • Pan Fengchu (03.01.2019)
      • Trump - Danielsson (03.01.2019)
    • Trimagic
      • Chen Qin-wu – Chen Mu-tian
      • Li Wen
      • Walter Trump (33 additional squares) (03.01.2019)
    • Odd order(19. Feb2019)
    • Double-even order
      • Duan – Liu – Öi – Tian
      • Liang Peiji – Zhang Hangfu – Zhang Xiafu
      • Lin Pengcheng (1997)
      • Lin Pengcheng (1998)
      • Pan Linsen
      • Zhu Yunshan
    • Doubled order(19. Feb2019)
    • Composite
      • Standard procedures
      • Using Kronecker-Operations