802.11be RU Allocation Subfield

RU Allocation subfield (B8 B7 B6 B5 B4 B3 B2 B1 B0)	#1	#2	#3	#4	#5	#6	#7	#8	#9	Number of entries
0 (000000000)	26	26	26	26	26	26	26	26	26	1
1 (000000001)	26	26	26	26	26	26	26	52	1
2 (000000010)	26	26	26	26	26	52	26	26	1
3 (000000011)	26	26	26	26	26	52	52	1
4 (000000100)	26	26	52	26	26	26	26	26	1
5 (000000101)	26	26	52	26	26	26	52	1
6 (000000110)	26	26	52	26	52	26	26	1
7 (000000111)	26	26	52	26	52	52	1
8 (000001000)	52	26	26	26	26	26	26	26	1
9 (000001001)	52	26	26	26	26	26	52	1
10 (000001010)	52	26	26	26	52	26	26	1
11 (000001011)	52	26	26	26	52	52	1
12 (000001100)	52	52	26	26	26	26	26	1
13 (000001101)	52	52	26	26	26	52	1
14 (000001110)	52	52	26	52	26	26	1
15 (000001111)	52	52	26	52	52	1
16 (000010000)	26	26	26	26	26	106	1
17 (000010001)	26	26	52	26	106	1
18 (000010010)	52	26	26	26	106	1
19 (000010011)	52	52	26	106	1
20 (000010100)	106	26	26	26	26	26	1
21 (000010101)	106	26	26	26	52	1
22 (000010110)	106	26	52	26	26	1
23 (000010111)	106	26	52	52	1
24 (000011000)	52	52	—	52	52	1
25 (000011001)	106	26	106	1
26 (000011010)	Punctured 242‑tone RU	1
27 (000011011)	Unassigned 242‑tone RU	1
28 (000011100)	242‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.	1
29 (000011101)	484‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.	1
30 (000011110)	996‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.	1
31 (000011111)	Validate	1
32 (000100000)	26	26	26	26	26	52+26	26	1
33 (000100001)	26	26	52	26	52+26	26	1
34 (000100010)	52	26	26	26	52+26	26	1
35 (000100011)	52	52	26	52+26	26	1
36 (000100100)	26	52+26	26	26	26	26	26	1
37 (000100101)	26	52+26	26	26	26	52	1
38 (000100110)	26	52+26	26	52	26	26	1
39 (000100111)	26	52+26	26	52	52	1
40 (000101000)	26	26	26	26	106+26	1
41 (000101001)	26	26	52	106+26	1
42 (000101010)	52	26	26	106+26	1
43 (000101011)	52	52	106+26	1
44 (000101100)	106+26	26	26	26	26	1
45 (000101101)	106+26	26	26	52	1
46 (000101110)	106+26	52	26	26	1
47 (000101111)	106+26	52	52	1
48 (000110000)	106+26	106	1
49 (000110001)	106+26	52+26	26	1
50 (000110010)	106	106+26	1
51 (000110011)	26	52+26	106+26	1
52 (000110100)	106	26	52+26	26	1
53 (000110101)	26	52+26	26	106	1
54 (000110110)	26	52+26	26	52+26	26	1
55 (000110111)	52	52+26	52	52	1
56–63 (000111000–000111111)	Validate	8
64–71 (001000y₂y₁y₀)	242	8
72–79 (001001y₂y₁y₀)	484	8
80–87 (001010y₂y₁y₀)	996	8
88–95 (001011y₂y₁y₀)	2×996	8
96–103 (001100y₂y₁y₀)	MRU of pattern [gap‑242]‑242‑484, specifically 484+242‑tone MRU‑1, 5, 9, and 13 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
104–111 (001101y₂y₁y₀)	MRU of pattern 242‑[gap‑242]‑484, specifically 484+242‑tone MRU‑2, 6, 10, and 14 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
112–119 (001110y₂y₁y₀)	MRU of pattern 484‑[gap‑242]‑242, specifically 484+242‑tone MRU‑3, 7, 11, and 15 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
120–127 (001111y₂y₁y₀)	MRU of pattern 484‑242‑[gap‑242], specifically 484+242‑tone MRU‑4, 8, 12, and 16 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
128–135 (010000y₂y₁y₀)	MRU of pattern [gap‑484]‑484‑996, specifically 996+484‑tone MRU‑1 and 5 within the first and second 160 MHz subblock in increasing frequency order, respectively	8
136–143 (010001y₂y₁y₀)	MRU of pattern 484‑[gap‑484]‑996, specifically 996+484‑tone MRU‑2 and 6 within the first and second 160 MHz subblock in increasing frequency order, respectively	8
144–151 (010010y₂y₁y₀)	MRU of pattern 996‑[gap‑484]‑484, specifically 996+484‑tone MRU‑3 and 7 within the first and second 160 MHz subblock in increasing frequency order, respectively	8
152–159 (010011y₂y₁y₀)	MRU of pattern 996‑484‑[gap‑484], specifically 996+484‑tone MRU‑4 and 8 within the first and second 160 MHz subblock in increasing frequency order, respectively	8
160–167 (010100y₂y₁y₀)	MRU of pattern [gap‑996]‑996‑996‑996, specifically 3×996‑tone MRU‑1	8
168–175 (010101y₂y₁y₀)	MRU of pattern 996‑[gap‑996]‑996‑996, specifically 3×996‑tone MRU‑2	8
176–183 (010110y₂y₁y₀)	MRU of pattern 996‑996‑[gap‑996]‑996, specifically 3×996‑tone MRU‑3	8
184–191 (010111y₂y₁y₀)	MRU of pattern 996‑996‑996‑[gap‑996], specifically 3×996‑tone MRU‑4	8
192–199 (011000y₂y₁y₀)	MRU of pattern [gap‑484]‑484‑996‑996‑996, specifically 3×996+484‑tone MRU‑1	8
200–207 (011001y₂y₁y₀)	MRU of pattern 484‑[gap‑484]‑996‑996‑996, specifically 3×996+484‑tone MRU‑2	8
208–215 (011010y₂y₁y₀)	MRU of pattern 996‑[gap‑484]‑484‑996‑996, specifically 3×996+484‑tone MRU‑3	8
216–223 (011011y₂y₁y₀)	MRU of pattern 996‑484‑[gap‑484]‑996‑996, specifically 3×996+484‑tone MRU‑4	8
224–231 (011100y₂y₁y₀)	MRU of pattern 996‑996‑[gap‑484]‑484‑996, specifically 3×996+484‑tone MRU‑5	8
232–239 (011101y₂y₁y₀)	MRU of pattern 996‑996‑484‑[gap‑484]‑996, specifically 3×996+484‑tone MRU‑6	8
240–247 (011110_y2y1y0)	MRU of pattern 996‑996‑996‑[gap‑484]‑484, specifically 3×996+484‑tone MRU‑7	8
248–255 (011111y₂y₁y₀)	MRU of pattern 996‑996‑996‑484‑[gap‑484], specifically 3×996+484‑tone MRU‑8	8
256–263 (100000y₂y₁y₀)	MRU of pattern [gap‑484]‑484‑996‑996, specifically 2×996+484‑tone MRU‑1 and 7 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
264–271 (100001y₂y₁y₀)	MRU of pattern 484‑[gap‑484]‑996‑996, specifically 2×996+484‑tone MRU‑2 and 8 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
272–279 (100010y₂y₁y₀)	MRU of pattern 996‑[gap‑484]‑484‑996, specifically 2×996+484‑tone MRU‑3 and 9 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
280–287 (100011y₂y₁y₀)	MRU of pattern 996‑484‑[gap‑484]‑996, specifically 2×996+484‑tone MRU‑4 and 10 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
288–295 (100100y₂y₁y₀)	MRU of pattern 996‑996‑[gap‑484]‑484, specifically 2×996+484‑tone MRU‑5 and 11 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
296–303 (100101y₂y₁y₀)	MRU of pattern 996‑996‑484‑[gap‑484], specifically 2×996+484‑tone MRU‑6 and 12 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively	8
304–511 (100110y₂y₁y₀ – 111111y₂y₁y₀)	Disregard	26×8
For an RU Allocation subfield with value greater than or equal to 64, y₂y₁y₀ = 000–111 indicates the number of User fields in the EHT-SIG content channel that contains the corresponding 9-bit RU Allocation subfield. The binary vector y₂y₁y₀ indicates N_user(r, c) = 2²×y₂+2¹×y₁+y₀+1 User fields in the EHT-SIG content channel that contains the corresponding 9-bit RU Allocation subfield. [Gap-242/484/996] indicates a 242/484/996-tone RU that is not overlapped with the RU or MRU indicated by the 9- bit RU Allocation subfield and is to help indicate the frequency order of the MRU within an 80/160/240/320 MHz subblock

0 (000000000)

26

1

1 (000000001)

26

52

1

2 (000000010)

26

52

26

1

3 (000000011)

26

52

1

4 (000000100)

26

52

26

1

5 (000000101)

26

52

26

52

1

6 (000000110)

26

52

26

52

26

1

7 (000000111)

26

52

26

52

1

8 (000001000)

52

26

1

9 (000001001)

52

26

52

1

10 (000001010)

52

26

52

26

1

11 (000001011)

52

26

52

1

12 (000001100)

52

26

1

13 (000001101)

52

26

52

1

14 (000001110)

52

26

52

26

1

15 (000001111)

52

26

52

1

16 (000010000)

26

106

1

17 (000010001)

26

52

26

106

1

18 (000010010)

52

26

106

1

19 (000010011)

52

26

106

1

20 (000010100)

106

26

1

21 (000010101)

106

26

52

1

22 (000010110)

106

26

52

26

1

23 (000010111)

106

26

52

1

24 (000011000)

52

—

52

1

25 (000011001)

106

26

106

1

26 (000011010)

Punctured 242‑tone RU

1

27 (000011011)

Unassigned 242‑tone RU

1

28 (000011100)

242‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.

1

29 (000011101)

484‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.

1

30 (000011110)

996‑tone RU; allocated but contributes zero User fields to the User Specific field in the same EHT‑SIG content channel as this RU Allocation subfield.

1

31 (000011111)

Validate

1

32 (000100000)

26

52+26

26

1

33 (000100001)

26

52

26

52+26

26

1

34 (000100010)

52

26

52+26

26

1

35 (000100011)

52

26

52+26

26

1

36 (000100100)

26

52+26

26

1

37 (000100101)

26

52+26

26

52

1

38 (000100110)

26

52+26

26

52

26

1

39 (000100111)

26

52+26

26

52

1

40 (000101000)

26

106+26

1

41 (000101001)

26

52

106+26

1

42 (000101010)

52

26

106+26

1

43 (000101011)

52

106+26

1

44 (000101100)

106+26

26

1

45 (000101101)

106+26

26

52

1

46 (000101110)

106+26

52

26

1

47 (000101111)

106+26

52

1

48 (000110000)

106+26

106

1

49 (000110001)

106+26

52+26

26

1

50 (000110010)

106

106+26

1

51 (000110011)

26

52+26

106+26

1

52 (000110100)

106

26

52+26

26

1

53 (000110101)

26

52+26

26

106

1

54 (000110110)

26

52+26

26

52+26

26

1

55 (000110111)

52

52+26

52

1

56–63 (000111000–000111111)

Validate

8

64–71 (001000y₂y₁y₀)

242

8

72–79 (001001y₂y₁y₀)

484

8

80–87 (001010y₂y₁y₀)

996

8

88–95 (001011y₂y₁y₀)

2×996

8

96–103 (001100y₂y₁y₀)

MRU of pattern [gap‑242]‑242‑484, specifically 484+242‑tone MRU‑1, 5, 9, and 13 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

104–111 (001101y₂y₁y₀)

MRU of pattern 242‑[gap‑242]‑484, specifically 484+242‑tone MRU‑2, 6, 10, and 14 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

112–119 (001110y₂y₁y₀)

MRU of pattern 484‑[gap‑242]‑242, specifically 484+242‑tone MRU‑3, 7, 11, and 15 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

120–127 (001111y₂y₁y₀)

MRU of pattern 484‑242‑[gap‑242], specifically 484+242‑tone MRU‑4, 8, 12, and 16 within the first, second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

128–135 (010000y₂y₁y₀)

MRU of pattern [gap‑484]‑484‑996, specifically 996+484‑tone MRU‑1 and 5 within the first and second 160 MHz subblock in increasing frequency order, respectively

8

136–143 (010001y₂y₁y₀)

MRU of pattern 484‑[gap‑484]‑996, specifically 996+484‑tone MRU‑2 and 6 within the first and second 160 MHz subblock in increasing frequency order, respectively

8

144–151 (010010y₂y₁y₀)

MRU of pattern 996‑[gap‑484]‑484, specifically 996+484‑tone MRU‑3 and 7 within the first and second 160 MHz subblock in increasing frequency order, respectively

8

152–159 (010011y₂y₁y₀)

MRU of pattern 996‑484‑[gap‑484], specifically 996+484‑tone MRU‑4 and 8 within the first and second 160 MHz subblock in increasing frequency order, respectively

8

160–167 (010100y₂y₁y₀)

MRU of pattern [gap‑996]‑996‑996‑996, specifically 3×996‑tone MRU‑1

8

168–175 (010101y₂y₁y₀)

MRU of pattern 996‑[gap‑996]‑996‑996, specifically 3×996‑tone MRU‑2

8

176–183 (010110y₂y₁y₀)

MRU of pattern 996‑996‑[gap‑996]‑996, specifically 3×996‑tone MRU‑3

8

184–191 (010111y₂y₁y₀)

MRU of pattern 996‑996‑996‑[gap‑996], specifically 3×996‑tone MRU‑4

8

192–199 (011000y₂y₁y₀)

MRU of pattern [gap‑484]‑484‑996‑996‑996, specifically 3×996+484‑tone MRU‑1

8

200–207 (011001y₂y₁y₀)

MRU of pattern 484‑[gap‑484]‑996‑996‑996, specifically 3×996+484‑tone MRU‑2

8

208–215 (011010y₂y₁y₀)

MRU of pattern 996‑[gap‑484]‑484‑996‑996, specifically 3×996+484‑tone MRU‑3

8

216–223 (011011y₂y₁y₀)

MRU of pattern 996‑484‑[gap‑484]‑996‑996, specifically 3×996+484‑tone MRU‑4

8

224–231 (011100y₂y₁y₀)

MRU of pattern 996‑996‑[gap‑484]‑484‑996, specifically 3×996+484‑tone MRU‑5

8

232–239 (011101y₂y₁y₀)

MRU of pattern 996‑996‑484‑[gap‑484]‑996, specifically 3×996+484‑tone MRU‑6

8

240–247 (011110_y2y1y0)

MRU of pattern 996‑996‑996‑[gap‑484]‑484, specifically 3×996+484‑tone MRU‑7

8

248–255 (011111y₂y₁y₀)

MRU of pattern 996‑996‑996‑484‑[gap‑484], specifically 3×996+484‑tone MRU‑8

8

256–263 (100000y₂y₁y₀)

MRU of pattern [gap‑484]‑484‑996‑996, specifically 2×996+484‑tone MRU‑1 and 7 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

264–271 (100001y₂y₁y₀)

MRU of pattern 484‑[gap‑484]‑996‑996, specifically 2×996+484‑tone MRU‑2 and 8 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

272–279 (100010y₂y₁y₀)

MRU of pattern 996‑[gap‑484]‑484‑996, specifically 2×996+484‑tone MRU‑3 and 9 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

280–287 (100011y₂y₁y₀)

MRU of pattern 996‑484‑[gap‑484]‑996, specifically 2×996+484‑tone MRU‑4 and 10 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

288–295 (100100y₂y₁y₀)

MRU of pattern 996‑996‑[gap‑484]‑484, specifically 2×996+484‑tone MRU‑5 and 11 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

296–303 (100101y₂y₁y₀)

MRU of pattern 996‑996‑484‑[gap‑484], specifically 2×996+484‑tone MRU‑6 and 12 within the 240 MHz subblock composed of the first, second, and third 80 MHz frequency subblock and the 240 MHz subblock composed of the second, third, and fourth 80 MHz frequency subblock in increasing frequency order, respectively

8

304–511 (100110y₂y₁y₀ – 111111y₂y₁y₀)

Disregard

26×8

For an RU Allocation subfield with value greater than or equal to 64, y₂y₁y₀ = 000–111 indicates the number of User fields in the EHT-SIG content channel that contains the corresponding 9-bit RU Allocation subfield. The binary vector y₂y₁y₀ indicates N_user(r, c) = 2²×y₂+2¹×y₁+y₀+1 User fields in the EHT-SIG content channel that contains the corresponding 9-bit RU Allocation subfield.

[Gap-242/484/996] indicates a 242/484/996-tone RU that is not overlapped with the RU or MRU indicated by the 9- bit RU Allocation subfield and is to help indicate the frequency order of the MRU within an 80/160/240/320 MHz subblock