ttnn.gcd

ttnn.gcd(input_tensor_a: ttnn.Tensor, input_tensor_b: ttnn.Tensor, *, memory_config: ttnn.MemoryConfig | None = None) ttnn.Tensor

Computes Greatest common divisor of input_tensor_a and input_tensor_b and returns the tensor with the same layout as input_tensor_a. [supported range -1024 to 1024].

\[\mathrm{output\_tensor}_i = \verb|gcd|\left(\mathrm{input\_tensor\_a}_i , \mathrm{input\_tensor\_b}_i\right)\]
Parameters:
Keyword Arguments:

memory_config (ttnn.MemoryConfig, optional) – memory configuration for the operation. Defaults to None.

Returns:

ttnn.Tensor – the output tensor.

Note

Supported dtypes, layouts, and ranks:

Dtypes

Layouts

Ranks

INT32

TILE

2, 3, 4

Example

>>> tensor1 = ttnn.from_torch(torch.tensor([[1, 2], [3, 4]], dtype=torch.int32), dtype=ttnn.float32, layout=ttnn.TILE_LAYOUT, device=device)
>>> tensor2 = ttnn.from_torch(torch.tensor([[1, 2], [3, 4]], dtype=torch.int32), dtype=ttnn.float32, layout=ttnn.TILE_LAYOUT, device=device)
>>> output = ttnn.gcd(tensor1, tensor2)