Generator¶
- class torch.Generator(device='cpu')¶
Creates and returns a generator object that manages the state of the algorithm which produces pseudo random numbers. Used as a keyword argument in many In-place random sampling functions.
- Parameters
device (
torch.device
, optional) – the desired device for the generator.- Returns
An torch.Generator object.
- Return type
Example:
>>> g_cpu = torch.Generator() >>> g_cuda = torch.Generator(device='cuda')
- device¶
Generator.device -> device
Gets the current device of the generator.
Example:
>>> g_cpu = torch.Generator() >>> g_cpu.device device(type='cpu')
- get_state() Tensor ¶
Returns the Generator state as a
torch.ByteTensor
.- Returns
A
torch.ByteTensor
which contains all the necessary bits to restore a Generator to a specific point in time.- Return type
Example:
>>> g_cpu = torch.Generator() >>> g_cpu.get_state()
- initial_seed() int ¶
Returns the initial seed for generating random numbers.
Example:
>>> g_cpu = torch.Generator() >>> g_cpu.initial_seed() 2147483647
- manual_seed(seed) Generator ¶
Sets the seed for generating random numbers. Returns a torch.Generator object. Any 32-bit integer is a valid seed.
- Parameters
seed (int) – The desired seed. Value must be within the inclusive range [-0x8000_0000_0000_0000, 0xffff_ffff_ffff_ffff]. Otherwise, a RuntimeError is raised. Negative inputs are remapped to positive values with the formula 0xffff_ffff_ffff_ffff + seed.
- Returns
An torch.Generator object.
- Return type
Example:
>>> g_cpu = torch.Generator() >>> g_cpu.manual_seed(2147483647)
- seed() int ¶
Gets a non-deterministic random number from std::random_device or the current time and uses it to seed a Generator.
Example:
>>> g_cpu = torch.Generator() >>> g_cpu.seed() 1516516984916
- set_state(new_state) void ¶
Sets the Generator state.
- Parameters
new_state (torch.ByteTensor) – The desired state.
Example:
>>> g_cpu = torch.Generator() >>> g_cpu_other = torch.Generator() >>> g_cpu.set_state(g_cpu_other.get_state())