Calculators » Wi-Fi 8 DRU Subcarrier Index Calculator & Kshift Formula

Wi-Fi 8 DRU Subcarrier Index Calculator & Kshift Formula

wi-fi 8 subcarrier index calculator dru subcarrier index kshift calculator formula 802.11bn wifi8

Unlike legacy standards where tones were always adjacent, Wi-Fi 8 introduces non-contiguous tone mapping to bypass Power Spectral Density (PSD) limitations. To calculate where these tones land in wide channels (80, 160, or 320 MHz), engineers must use the Kshift Formula. This page provides a professional Wi-Fi 8 DRU Subcarrier Index Calculator to simplify your development workflow.

EXAMPLE:

INPUTS:

Select Subblock Size (20, 40, 60 or 80 MHz) = 20
Select Channel Bandwidth (CBW) (80, 160, or 320 MHz) = 320
Select Subblock Index (l) (e.g., 0 to 15 for 320 MHz) = 5

OUTPUT:

Kshift = -645

What is Distributed tone Resource Unit (DRU) ?

In previous generations (Wi-Fi 6 and 7), we used Regular Resource Units (RRU), where subcarriers were grouped into a single contiguous block of frequency. While efficient for throughput, RRUs often hit regulatory power limits in the 6 GHz band because too much energy is concentrated in one spot.

Wi-Fi 8 DRUs solve this by “scattering” the tones across a wider Distribution Bandwidth (DBW). This allows for higher transmit power per tone, significantly improving the uplink range. However, this scattering makes frequency mapping much harder, requiring a specific constant shift value known as Kshift.

Wi-Fi 8 DRU Subcarrier Index Formula as per 802.11bn

The following table is used to derive or trace Kshift as per three inputs viz. sub block size, channel bandwidth (CBW) and sub block index (l).

Wi-Fi 8 DRU Mapping formula

Summary:

This DRU subcarrier Index calculation tool automates the lookup of table mentioned in the 802.11bn standard which allowing you to find DRU subcarrier index quickly.