EHT MU Transmission

Transmission Mode Options

The options for extremely high-throughput multi-user (EHT MU) transmissions are:

Orthogonal frequency-division multiple access (OFDMA)
Full-band multi-user multiple-input/multiple-output (MU-MIMO)
Mixed OFDMA and MU-MIMO

The transmission mode depends on the property you set when you create a wlanEHTMUConfig object.

To specify OFDMA or a mix of OFDMA and MU-MIMO, set the AllocationIndex property when you create the object.
To specify full-band MU-MIMO, set the ChannelBandwidth property when you create the object.

The 802.11be Waveform Generation example introduces the concepts associated with EHT transmission modes, resource unit (RU) and multiple resource unit (MRU) allocation, and parameterization.

An RU is a group of 26, 52, 106, 242, 484, 968, 996, 1992, or 3984 subcarriers defining an allocation unit in time and frequency. An MRU is a group of RUs joined together. In this diagram, the picture on the left shows only RUs, and the picture on the right shows RUs and MRUs.

Comparison of RU and MRU allocations

Allocation Index

When you create an OFDMA or mixed wlanEHTMUConfig object, you must specify the value of the AllocationIndex property. Once the object is created, the AllocationIndex property is read-only.

The AllocationIndex property defines the number of RUs or MRUs, their sizes, and the number of users assigned to them.

Set the AllocationIndex property as an integer to specify a channel bandwidth of 20 MHz.
Set the AllocationIndex property as a row vector of length 2, 4, 8, or 16 to specify a respective channel bandwidth of 40, 80, 160, or 320 MHz. The vector's length is equal to the number of 20 MHz subchannels.
Set the AllocationIndex property as an M-by-N matrix to specify a channel bandwidth of 160 or 320 MHz. M is the number of 80 MHz segments and N is the number of 20 MHz subchannels.

You can signal punctured subchannels in OFDMA transmissions with a channel bandwidth of 80 MHz or above. To signal a punctured 20 MHz subchannel, set the corresponding element to 26. To signal larger punctured subchannels, set corresponding adjacent elements to 26.

The values specified in the AllocationIndex property correspond to the 9-bit indices for each 20 MHz subchannel in the first column of Table 36-34 in [1].

This table lists the allocation indices and corresponding RU assignments for 20 MHz subchannels and RUs with at most 242 tones. The table shows the number of tones per RU and the number of users assigned for each allocation index.

Allocation Index	20 MHz Subchannel Resource Unit (RU) Assignment
0	26	26	26	26	26	26	26	26	26^a
1	26	26	26	26	26	26	26	52
2	26	26	26	26	26	52		26	26
3	26	26	26	26	26	52		52
4	26	26	52		26	26	26	26	26
5	26	26	52		26	26	26	52
6	26	26	52		26	52		26	26
7	26	26	52		26	52		52
8	52		26	26	26	26	26	26	26
9	52		26	26	26	26	26	52
10	52		26	26	26	52		26	26
11	52		26	26	26	52		52
12	52		52		26	26	26	26	26
13	52		52		26	26	26	52
14	52		52		26	52		26	26
15	52		52		26	52		52
16	26	26	26	26	26	106
17	26	26	52		26	106
18	52		26	26	26	106
19	52		52		26	106
20	106				26	26	26	26	26
21	106				26	26	26	52
22	106				26	52		26	26
23	106				26	52		52
24	52		52		-^b	52		52
25	106				26	106
26	Punctured 242-tone RU^c
27	Unassigned 242-tone RU^d
28	242-tone RU with no users signaled on the corresponding EHT-SIG content channel^e
29	484-tone RU with no users signaled on the corresponding EHT-SIG content channel^f
30	996-tone RU with no users signaled on the corresponding EHT-SIG content channel^g
31	Validate^h
^a 26 tone RU assigned to 1 user as part of a 20 MHz subchannel assignment of 9 26-tone RUs ^b No users assigned to this RU; no data field transmitted on these subcarriers (empty 26-tone RU with no user assigned) ^c If selected, this 20 MHz subchannel is unused; the subchannel is punctured ^d If selected no user data is transmitted in the 242-tone RU, but the corresponding 20 MHz preamble is transmitted ^e Signifies a 242-tone RU with zeros users signaled on the corresponding EHT-SIG content channel ^f Must be used with other allocation indices. Signifies a 484-tone or 996-tone RU with zero users signaled on the corresponding EHT-SIG content channel ^g Must be used with other allocation indices. Signifies a 484-tone or 996-tone RU with zero users signaled on the corresponding EHT-SIG content channel ^h Reserved entry

This table lists the allocation indices with a corresponding RU assignment that includes MRUs.

Allocation Index	20 MHz Subchannel Resource Unit (RU) Assignment
32	26	26	26	26	26	52+26^a			26
33	26	26	52		26	52+26			26
34	52		26	26	26	52+26			26
35	52		52		26	52+26			26
36	26	52+26			26	26	26	26	26
37	26	52+26			26	26	26	52
38	26	52+26			26	52		26	26
39	26	52+26			26	52		52
40	26	26	26	26	106+26
41	26	26	52		106+26
42	52		26	26	106+26
43	52		52		106+26
44	106+26					26	26	26	26
45	106+26					26	26	52
46	106+26					52		26	26
47	106+26					52		52
48	106+26					106
49	106+26					52+26			26
50	106				106+26
51	26	52+26			106+26
52	106				26	52+26			26
53	26	52+26			26	106
54	26	52+26			26	52+26			26
55	52		52+26			52		52
56-63	Validate^b
^a 52+26-tone small MRU is assigned to 1 user ^b Reserved entries

This table lists RU allocation and EHT-SIG user signaling for 242-, 484-, 996-, and 2x996-tone RUs.

Allocation Index	RU Allocation & Number of Users on the Corresponding EHT-SIG Content Channel for RU Size >= 242
64-71 (63 + N)	20 MHz (N users), or 242-tone RU with N users signaled in the corresponding EHT-SIG content channel
72-79 (71 + N)	40 MHz (N users), or 484-tone RU with N users signaled in the corresponding EHT-SIG content channel
80-87 (79 + N)	80 MHz (N users), or 996-tone RU with N users signaled in the corresponding EHT-SIG content channel
88-95 (87 + N)	160 MHz (N users), or 2x996-tone RU with N users signaled in the corresponding EHT-SIG content channel

This table lists MRU allocation and EHT-SIG user signaling for allocations with a channel bandwidth of 80 MHz or greater.

Allocation Index	RU Allocation & Number of Users on the Corresponding EHT-SIG Content Channel for RU Size > 484
96-103 (95 + N)	MRU of [ ]-242-484 484+242-tone MRU in 80 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
104-111 (103 + N)	MRU of 242-[ ]-484 484+242-tone MRU in 80 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
112-119 (111 + N)	MRU of 484-[ ]-242 484+242-tone MRU in 80 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
120-127 (119 + N)	MRU of 484-242-[ ] 484+242-tone MRU in 80 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
128-135 (127 + N)	MRU of [ ]-484-996 996+484-tone MRU in 160 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
136-143 (135 + N)	MRU of 484-[ ]-996 996+484-tone MRU in 160 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
144-151 (143 + N)	MRU of 996-[ ]-484 996+484-tone MRU in 160 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
152-159 (151 + N)	MRU of 996-484-[ ] 996+484-tone MRU in 160 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
160-167 (159 + N)	MRU of [ ]-996-996-996 3x996-tone MRU with N users signaled in the corresponding EHT-SIG content channel
168-175 (167 + N)	MRU of 996-[ ]-996-996 3x996-tone MRU with N users signaled in the corresponding EHT-SIG content channel
176-183 (175 + N)	MRU of 996-996-[ ]-996 3x996-tone MRU with N users signaled in the corresponding EHT-SIG content channel
184-191 (183 + N)	MRU of 996-996-996-[ ] 3x996-tone MRU with N users signaled in the corresponding EHT-SIG content channel
192-199 (191 + N)	MRU of [ ]-484-996-996-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
200-207 (199 + N)	MRU of 484-[ ]-996-996-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
208-215 (207 + N)	MRU of 996-[ ]-484-996-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
216-223 (215 + N)	MRU of 996-484-[ ]-996-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
224-231 (223 + N)	MRU of 996-996-[ ]-484-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
232-239 (231 + N)	MRU of 996-996-484-[ ]-996 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
240-247 (239 + N)	MRU of 996-996-996-[ ]-484 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
248-255 (247 + N)	MRU of 996-996-996-484-[ ] 3x996+484-tone MRU with N users signaled in the corresponding EHT-SIG content channel
256-263 (255 + N)	MRU of [ ]-484-996-996 x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
264-271 (263 + N)	MRU of 484-[ ]-996-996 x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
272-279 (271 + N)	MRU of 996-[ ]-484-996 x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
280-287 (279 + N)	MRU of 996-484-[ ]-996 x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
288-295 (287 + N)	MRU of 996-996-[ ]-484 x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
296-303 (295 + N)	MRU of 996-996-484-[ ] x996+484-tone MRU in 240 MHz sub-block with N users signaled in the corresponding EHT-SIG content channel
304-511	Disregard

This table shows allocation index and channel bandwidth options required to specify transmission type for all channel bandwidths.

Transmission Type 20 MHz Transmission 40 MHz Transmission 80 MHz Transmission 160 MHz Transmission 320 MHz Transmission

Full-bandwidth MU-MIMO

Transmission Type	20 MHz Transmission	40 MHz Transmission	80 MHz Transmission	160 MHz Transmission	320 MHz Transmission
Full-bandwidth MU-MIMO	`wlanEHTMUConfig("CBW20", NumUsers=a)` Specify `a` as an integer in the interval [1, 8].	`wlanEHTMUConfig("CBW40", NumUsers=a)` Specify `a` as an integer in the interval [1, 8].	`wlanEHTMUConfig("CBW80", NumUsers=a)` Specify `a` as an integer in the interval [1, 8].	`wlanEHTMUConfig("CBW160", NumUsers=a)` Specify `a` as an integer in the interval [1, 8].	`wlanEHTMUConfig("CBW320", NumUsers=a)` Specify `a` as an integer in the interval [1, 8].
For puncturing, use `wlanEHTMUConfig("CBWx", PuncturedChannelFieldValue = y)`. Specify `x` as `80`, `160`, or `320`. Specify `y` as an integer in the interval [0, 24].
To enable EHT DUP mode, use `wlanEHTMUConfig("CBWx", EHTDUPMode = true)`. Specify `x` as `80`, `160`, or `320`.
OFDMA	`wlanEHTMUConfig(a)` Specify `a` as an integer in one of the intervals [0, 25] or [32, 55].	`wlanEHTMUConfig([a b])` Specify `a` and `b` as integers in one of the intervals [0, 27] or [32, 55].	`wlanEHTMUConfig([a b c d])` Specify the vector entries as integers in one of the intervals [0, 27] or [32, 55].	`wlanEHTMUConfig([a b c d e f g h])` Specify the vector entries as integers in one of the intervals [0, 27] or [32, 55].	`wlanEHTMUConfig([a b c d e f g h i j k l m n o p])` Specify the vector entries as integers in one of the intervals [0, 27] or [32, 55].
Mixed OFDMA and MU-MIMO	N/A	`wlanEHTMUConfig([a b])` Specify `a` and `b` as integers in the interval [0, 27], `29`, or integers in one of the intervals [32, 55] or [64, 79].	`wlanEHTMUConfig([a b c d])` Specify the vector entries as integers in one of the intervals [0, 30], [32, 55], or [64, 127].	`wlanEHTMUConfig([a b c d e f g h])` Specify the vector entries as integers in one of the intervals [0, 30], [32, 55], or [64, 159].	`wlanEHTMUConfig([a b c d e f g h i j k l m n o p])` Specify the vector entries as integers in one of the intervals [0, 30], [32, 55], or [64, 303].

wlanEHTMUConfig("CBW20", NumUsers=a)