Libvpx uses tile threading, which means you can at most have as many threads as the number of tiles. The `-tile-columns`

option is in log2 format (so `-tile-columns 6`

means 64 tiles), but is also limited by the framesize. The exact details are here, it basically means that `max_tiles = max(1, exp2(floor(log2(sb_cols)) - 2))`

, where `sb_cols = ceil(width / 64.0)`

. You can write a small script to calculate the number of tiles for a given horizontal resolution:

```
Width: 320 (sb_cols: 5), min tiles: 1, max tiles: 1
Width: 640 (sb_cols: 10), min tiles: 1, max tiles: 2
Width: 1280 (sb_cols: 20), min tiles: 1, max tiles: 4
Width: 1920 (sb_cols: 30), min tiles: 1, max tiles: 4
Width: 3840 (sb_cols: 60), min tiles: 1, max tiles: 8
```

So even for 1080p (1920 horizontal pixels), you only get 4 tiles max, so 4 threads max, i.e. a bitstream limitation. To get 8 tiles, you need at least a width of 1985 pixels (2048-64+1, which gives sb_cols=32). To get more threads than the max. number of tiles at a given resolution, you need frame-level multithreading, which libvpx doesn't implement. Other encoders, like x265/x264, do implement this.

# EDIT

As some people in comments and below have already commented, more recent versions of libvpx support `-row-mt 1`

to enable tile row multi-threading. This can increase the number of tiles by up to 4x in VP9 (since the max number of tile rows is 4, regardless of video height). To enable this, use `-tile-rows N`

where N is the number of tile rows in log2 units (so `-tile-rows 1`

means 2 tile rows and `-tile-rows 2`

means 4 tile rows). The total number of active threads will then be equal to `$tile_rows * $tile_columns`

.