This article discusses the code that appears on page 15 of the document received from Onion 7. The code itself features a 4x4 table of numbers. A number of approaches and tests have been applied to this code to determine the meaning, as it is one of the few things in the 58-page codebook that is not written in runes.

The numbers[edit | edit source]

The table of numbers as they appear in the image from Onion 7:

  3258 3222 3152 3038
  3278 3299 3298 2838
  3288 3294 3296 2472
  4516 1206  708 1820

It should be noted that all of the numbers are even except 3299, and that 3299 itself is prime.

Sidenote: The number 708 is the only 3 digit number in this code and the sum of its digits is 15. It is also in the 15th spot, reading left to right, top to bottom.

Additionally, the first 3 rows have a ~15px gap, but between rows 3 and 4 there is a ~20px gap, which matches the gap between columns.

Gap image:

3299[edit | edit source]

There is a Unicode character (U+3299) ㊙️ called the 'Circled Ideograph Secret' or 'Japanese 'Secret' Button'. The emoji is red, similar to the color on that specific number in the code.

This number is also a Sophie Germain prime. The result of 2p + 1, where p is a Sophie Germain prime, is called a safe prime, which is used in RSA encryption.

3299 also precedes the prime number 3301.

Sums of the numbers[edit | edit source]

Summing the rows and columns were one of the first tests against the numbers:

  3258 + 3222 + 3152 + 3038   =   12670
    +      +      +      +          +
  3278 + 3299 + 3298 + 2838   =   12713*
    +      +      +      +          +
  3288 + 3294 + 3296 + 2472   =   12350
    +      +      +      +          +
  4516 + 1206 +  708 + 1820   =   8250
    =      =      =      =          =
  14340+ 11021+ 10454+ 10168  =   45983

Of particular note, the sums of second row and second column are the only ones to feature odd numbers: 12713 and 11021. *However, only 12713 is prime.

Diagonal sums were performed on the table as well (shown below, with unused numbers removed):

     3258           3038
         +         +
          3299 3298     
          3294 3296     
         +         +
     4516           1820

Neither of the results here were prime.

Table of primes[edit | edit source]

It was realized by one user investigating the page that subtracting (or adding) each of the numbers from 3301 would yield a table of prime numbers! (eg. 3301-3258=43). This table is shown below:

    43      79           149           263
    23       2             3           463
    13       7             5           829
  7817    4507          2593          1481

Inconsistencies[edit | edit source]

Of particular interest, all of the values except the last two follow the form 3301-X where the last two follow the form 3301+X.

One possible reason for this is because the next values in the table could not be represented with 4 digits using the original formula. On the other hand, other users have felt this may be some sort of signal.

In some cases, this fact has lead to doubt over the pattern, however using given values to result in primes fitting a predetermined pattern with a single operation is an extremely low-probability event.

Conversion to order values[edit | edit source]

All prime numbers appear in the sequence P={2,3,5,7, ...}. In this sequence, a particular prime number can be represented as Pn (for example P3) where 'n' is the "order" (position in the sequence).

If we consider 2 to be of order 0 (P0), then 3 is of order 1, and so on - such that P0,P1,P2,P3 represent the prime numbers 2,3,5,7. Using this relationship we can represent the table by their position in the sequence of all prime numbers. Here is the table of their positions:

   13   21   34   55
    8    0    1   89
    5    3    2  144
  987  610  377  233

Spirals[edit | edit source]


Considering either the Table of Primes, or the Order Table:

If you read the numbers starting at the lowest value and continuing in ascending value, the path you take along the table will form a spiral. This spiral can be created using a recursive function (like the Fibonacci sequence), where the next value is the sum of a couple previous values.

For example: ......13, 21, 34(13+21), 55(21+34), 89(34+55)......etc

In the Order Table, all of the values in the spiral are Fibonacci numbers starting at Fib(0), and the spiral could be extended further (to infinity). This function cannot be applied to the Table of Primes, and the likelyhood of a function producing primes is low - however, using a list of primes, this spiral can be extended as well.

One hypothesis is that the person who generated the numbers used the Fibonacci sequence to select numbers from a list of primes, then added 3301 as a level of obscurity. It is still unknown what information we are supposed to gain from this puzzle.

Note: Because the original table of numbers deceases in value on the last line, this pattern does not hold for it specifically, but will fit the Table of primes or Order Table perfectly. Some have speculated that this detail might imply that the sequence oscillates to return to begin again in a mobius type loop.

Related snippets[edit | edit source]

Note: this section has not been verified or cleaned up.

  fibonacci sequence!
  F(7)   F(8)   F(9)     F(10)
  F(6)   F(0)   F(1/2)  F(11)
  F(5)   F(4)   F(3)     F(12)
  F(16) F(15)  F(14)   F(13)
  F(17) F(26)  F(25)   F(24)
  F(18) F(27)  F(28)   F(23)
  F(19) F(20)  F(21)   F(22)
  Not j28 addition
  ust fibonacci sequence but it also begins a mobius loop... 0-14 e subtraction, 15-
  a thing that look like an 8, a loop, a mobius strip, or an infinity sign    
   3299 is the only prime in there

Another Explanation[edit | edit source]

This number square is related to Zeckendorf's Theorem: if we count in ascending powers in the Fibonacci-base number system you can exactly reproduce the spiral:

2 more links with explanation how spiral matrix was formed[edit | edit source]

Coordinates?[edit | edit source]

If you take two numbers and add them together and do that for both sides you get coordinates that lead to southwestern Egypt in the desert. Maybe Egypt has something to do with Liber Primus and the decoding process?

I don't quite follow this. Which two? Any two? The lying-down man at the end of this section does look a lot like something in ancient Egyptian paintings. I don't know where any of that gets us, if anywhere.
Community content is available under CC-BY-SA unless otherwise noted.