## Sudoku via simulated annealing

**T**he Sudoku puzzle in this Sunday edition of **Le Monde** was horrendously difficult, so after spending one hour with only 4 entries filled, I decided to feed it to the simulated annealing R program I wrote while visiting SAMSI last year. The R program reached the exact (and only) solution in about 6000 iterations, as shown (?) on the graph above. The Sudoku grid is defined in the R program by a 9×9 matrix s and the simulated annealing target function counts the number of duplicates

target=function(s){

tar=sum(apply(s,1,duplicated)+apply(s,2,duplicated))

for (r in 1:9){

bloa=(1:3)+3*(r-1)%%3

blob=(1:3)+3*trunc((r-1)/3)

tar=tar+sum(duplicated(as.vector(s[bloa,blob])))

}

return(tar)

}

**A**fter pruning out the deterministic entries (3 in my case!), the R program uses the temperature sequence

lmax=10^5#/target(matrix(sample(1:9,81,rep=T),ncol=9))

temps=exp(sqrt(seq(1,log(lmax)^2,le=Niter+1)))

to weight the target function. and it runs over the 10,000 iterations random moves on some of the unallocated sites. On the graph above, the green dots correspond to accepted moves. The yellow dots correspond to accepted proposals to move a single site. These choices lead to a correct solution most of the time, the other cases most often producing a penalty of two. (Please note there is nothing optimised about my code. It takes ten to twenty minutes to produce the graph above. a far cry from the fastest Sudoku solvers!)

December 22, 2014 at 1:43 pm

Hi can just explain it more cause I can’t understand the language you have written the program if you can please tell the algorithm complete.

December 22, 2014 at 3:00 pm

I just sent you the R code.

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