![java - What algorithm can be used for packing of regular shapes on the A1 sized sheet in optimal manner - Stack Overflow java - What algorithm can be used for packing of regular shapes on the A1 sized sheet in optimal manner - Stack Overflow](https://i.stack.imgur.com/e4zLG.jpg)
java - What algorithm can be used for packing of regular shapes on the A1 sized sheet in optimal manner - Stack Overflow
Rob Miles on X: "You have to fit, say, 29 squares into a bigger square. What arrangement is most efficient, i.e maximises the size of the squares? Turns out the optimal arrangements
![Keenan Crane on X: "[1/n] There's been a lot of hubbub lately about the best known packing of 17 unit squares into a larger square, owing to this post: https://t.co/almLPZtOCj I realized Keenan Crane on X: "[1/n] There's been a lot of hubbub lately about the best known packing of 17 unit squares into a larger square, owing to this post: https://t.co/almLPZtOCj I realized](https://pbs.twimg.com/media/FpMovTbX0AsTn78.jpg:large)
Keenan Crane on X: "[1/n] There's been a lot of hubbub lately about the best known packing of 17 unit squares into a larger square, owing to this post: https://t.co/almLPZtOCj I realized
![🌲 cohost.org/arborelia on X: "you can feel the results of this problem in your soul. You look at the optimal packing of 28 squares in a square and say, oh that's nice, 🌲 cohost.org/arborelia on X: "you can feel the results of this problem in your soul. You look at the optimal packing of 28 squares in a square and say, oh that's nice,](https://pbs.twimg.com/media/FGXDn5_WQAYjruu.png)
🌲 cohost.org/arborelia on X: "you can feel the results of this problem in your soul. You look at the optimal packing of 28 squares in a square and say, oh that's nice,
![bsky:rezuaq.be on X: "The optimal known packing of 16 equal squares into a larger square - i.e. the arrangement which minimises the size of the large square. https://t.co/Ins4o18mcb" / X bsky:rezuaq.be on X: "The optimal known packing of 16 equal squares into a larger square - i.e. the arrangement which minimises the size of the large square. https://t.co/Ins4o18mcb" / X](https://pbs.twimg.com/media/FpRwdLCXEAItxmz.png)
bsky:rezuaq.be on X: "The optimal known packing of 16 equal squares into a larger square - i.e. the arrangement which minimises the size of the large square. https://t.co/Ins4o18mcb" / X
![Daniel Piker on X: "The optimal known packing of 17 equal squares into a larger square - i.e. the arrangement which minimises the size of the large square. https://t.co/C0LL4kQzjr" / X Daniel Piker on X: "The optimal known packing of 17 equal squares into a larger square - i.e. the arrangement which minimises the size of the large square. https://t.co/C0LL4kQzjr" / X](https://pbs.twimg.com/media/Fo6pFUuXEAIlc5T.png:large)