For reference, this article details the various tables referenced in the Data Encryption Standard (DES) block cipher.

All bits and bytes are arranged in big endian order in this document. That is, bit number 1 is always the most significant bit.

## Initial permutation (IP)

 58 50 42 34 26 18 10 2 60 52 44 36 28 20 12 4 62 54 46 38 30 22 14 6 64 56 48 40 32 24 16 8 57 49 41 33 25 17 9 1 59 51 43 35 27 19 11 3 61 53 45 37 29 21 13 5 63 55 47 39 31 23 15 7

This table specifies the input permutation on a 64-bit block. The meaning is as follows: the first bit of the output is taken from the 58th bit of the input; the second bit from the 50th bit, and so on, with the last bit of the output taken from the 7th bit of the input.

This information is presented as a table for ease of presentation; it is a vector, not a matrix.

## Final permutation (IP-1)

 40 8 48 16 56 24 64 32 39 7 47 15 55 23 63 31 38 6 46 14 54 22 62 30 37 5 45 13 53 21 61 29 36 4 44 12 52 20 60 28 35 3 43 11 51 19 59 27 34 2 42 10 50 18 58 26 33 1 41 9 49 17 57 25

The final permutation is the inverse of the initial permutation; the table is interpreted similarly.

## Expansion function (E)

 32 1 2 3 4 5 4 5 6 7 8 9 8 9 10 11 12 13 12 13 14 15 16 17 16 17 18 19 20 21 20 21 22 23 24 25 24 25 26 27 28 29 28 29 30 31 32 1

The expansion function is interpreted as for the initial and final permutations. Note that some bits from the input are duplicated at the output; e.g. the fifth bit of the input is duplicated in both the sixth and eighth bit of the output. Thus, the 32-bit half-block is expanded to 48 bits.

## Permutation (P)

 16 7 20 21 29 12 28 17 1 15 23 26 5 18 31 10 2 8 24 14 32 27 3 9 19 13 30 6 22 11 4 25

The P permutation shuffles the bits of a 32-bit half-block.

## Permuted choice 1 (PC-1)

 Left 57 49 41 33 25 17 9 1 58 50 42 34 26 18 10 2 59 51 43 35 27 19 11 3 60 52 44 36 Right 63 55 47 39 31 23 15 7 62 54 46 38 30 22 14 6 61 53 45 37 29 21 13 5 28 20 12 4

The "Left" and "Right" halves of the table show which bits from the input key form the left and right sections of the key schedule state. Note that only 56 bits of the 64 bits of the input are selected; the remaining eight were specified for use as parity bits.

## Permuted choice 2 (PC-2)

 14 17 11 24 1 5 3 28 15 6 21 10 23 19 12 4 26 8 16 7 27 20 13 2 41 52 31 37 47 55 30 40 51 45 33 48 44 49 39 56 34 53 46 42 50 36 29 32

This permutation selects the 48-bit subkey for each round from the 56-bit key-schedule state.

## Substitution boxes (S-boxes)

S-boxes
S1
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 14 4 13 1 2 15 11 8 3 10 6 12 5 9 0 7
0yyyy1 0 15 7 4 14 2 13 1 10 6 12 11 9 5 3 8
1yyyy0 4 1 14 8 13 6 2 11 15 12 9 7 3 10 5 0
1yyyy1 15 12 8 2 4 9 1 7 5 11 3 14 10 0 6 13
S2
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 15 1 8 14 6 11 3 4 9 7 2 13 12 0 5 10
0yyyy1 3 13 4 7 15 2 8 14 12 0 1 10 6 9 11 5
1yyyy0 0 14 7 11 10 4 13 1 5 8 12 6 9 3 2 15
1yyyy1 13 8 10 1 3 15 4 2 11 6 7 12 0 5 14 9
S3
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 10 0 9 14 6 3 15 5 1 13 12 7 11 4 2 8
0yyyy1 13 7 0 9 3 4 6 10 2 8 5 14 12 11 15 1
1yyyy0 13 6 4 9 8 15 3 0 11 1 2 12 5 10 14 7
1yyyy1 1 10 13 0 6 9 8 7 4 15 14 3 11 5 2 12
S4
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 7 13 14 3 0 6 9 10 1 2 8 5 11 12 4 15
0yyyy1 13 8 11 5 6 15 0 3 4 7 2 12 1 10 14 9
1yyyy0 10 6 9 0 12 11 7 13 15 1 3 14 5 2 8 4
1yyyy1 3 15 0 6 10 1 13 8 9 4 5 11 12 7 2 14
S5
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 2 12 4 1 7 10 11 6 8 5 3 15 13 0 14 9
0yyyy1 14 11 2 12 4 7 13 1 5 0 15 10 3 9 8 6
1yyyy0 4 2 1 11 10 13 7 8 15 9 12 5 6 3 0 14
1yyyy1 11 8 12 7 1 14 2 13 6 15 0 9 10 4 5 3
S6
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 12 1 10 15 9 2 6 8 0 13 3 4 14 7 5 11
0yyyy1 10 15 4 2 7 12 9 5 6 1 13 14 0 11 3 8
1yyyy0 9 14 15 5 2 8 12 3 7 0 4 10 1 13 11 6
1yyyy1 4 3 2 12 9 5 15 10 11 14 1 7 6 0 8 13
S7
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 4 11 2 14 15 0 8 13 3 12 9 7 5 10 6 1
0yyyy1 13 0 11 7 4 9 1 10 14 3 5 12 2 15 8 6
1yyyy0 1 4 11 13 12 3 7 14 10 15 6 8 0 5 9 2
1yyyy1 6 11 13 8 1 4 10 7 9 5 0 15 14 2 3 12
S8
x0000x x0001x x0010x x0011x x0100x x0101x x0110x x0111x x1000x x1001x x1010x x1011x x1100x x1101x x1110x x1111x
0yyyy0 13 2 8 4 6 15 11 1 10 9 3 14 5 0 12 7
0yyyy1 1 15 13 8 10 3 7 4 12 5 6 11 0 14 9 2
1yyyy0 7 11 4 1 9 12 14 2 0 6 10 13 15 3 5 8
1yyyy1 2 1 14 7 4 10 8 13 15 12 9 0 3 5 6 11

This table lists the eight S-boxes used in DES. Each S-box replaces a 6-bit input with a 4-bit output. Given a 6-bit input, the 4-bit output is found by selecting the row using the outer two bits, and the column using the inner four bits. For example, an input "011011" has outer bits "01" and inner bits "1101"; noting that the first row is "00" and the first column is "0000", the corresponding output for S-box S5 would be "1001" (=9), the value in the second row, 14th column. (See S-box).

## Rotations in the key-schedule

Rotations
Round
number
Number of
left rotations
1 1
2 1
3 2
4 2
5 2
6 2
7 2
8 2
9 1
10 2
11 2
12 2
13 2
14 2
15 2
16 1

Before the round subkey is selected, each half of the key schedule state is rotated left by a number of places. This table specifies the number of places rotated.

## References

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