Struct dfdx::nn::modules::MinPoolGlobal
source · pub struct MinPoolGlobal;
Expand description
Applies min pooling over an entire image, fully reducing the height and width dimensions:
- Reduces 3d (C, H, W) to 1d (C, )
- Reduces 4d (B, C, H, W) to 2d (B, C)
Pytorch equivalent: torch.nn.AdaptiveMinPool2d(1)
followed by a flatten.
Examples:
let m: MinPoolGlobal = Default::default();
let _: Tensor<Rank1<5>, f32, _> = m.forward(dev.zeros::<Rank3<5, 16, 8>>());
let _: Tensor<Rank2<10, 5>, f32, _> = m.forward(dev.zeros::<Rank4<10, 5, 16, 8>>());
Trait Implementations§
source§impl Clone for MinPoolGlobal
impl Clone for MinPoolGlobal
source§fn clone(&self) -> MinPoolGlobal
fn clone(&self) -> MinPoolGlobal
Returns a copy of the value. Read more
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
Performs copy-assignment from
source
. Read moresource§impl Default for MinPoolGlobal
impl Default for MinPoolGlobal
source§fn default() -> MinPoolGlobal
fn default() -> MinPoolGlobal
Returns the “default value” for a type. Read more
source§impl<B: Dim, C: Dim, H: Dim, W: Dim, E: Dtype, D: Device<E>, T: Tape<E, D>> Module<Tensor<(B, C, H, W), E, D, T>> for MinPoolGlobal
impl<B: Dim, C: Dim, H: Dim, W: Dim, E: Dtype, D: Device<E>, T: Tape<E, D>> Module<Tensor<(B, C, H, W), E, D, T>> for MinPoolGlobal
source§impl<C: Dim, H: Dim, W: Dim, E: Dtype, D: Device<E>, T: Tape<E, D>> Module<Tensor<(C, H, W), E, D, T>> for MinPoolGlobal
impl<C: Dim, H: Dim, W: Dim, E: Dtype, D: Device<E>, T: Tape<E, D>> Module<Tensor<(C, H, W), E, D, T>> for MinPoolGlobal
impl Copy for MinPoolGlobal
impl NonMutableModule for MinPoolGlobal
impl ZeroSizedModule for MinPoolGlobal
Auto Trait Implementations§
impl RefUnwindSafe for MinPoolGlobal
impl Send for MinPoolGlobal
impl Sync for MinPoolGlobal
impl Unpin for MinPoolGlobal
impl UnwindSafe for MinPoolGlobal
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
source§impl<D, E, M> BuildModule<D, E> for Mwhere
D: Device<E>,
E: Dtype,
M: TensorCollection<E, D, To<E, D> = M>,
impl<D, E, M> BuildModule<D, E> for Mwhere D: Device<E>, E: Dtype, M: TensorCollection<E, D, To<E, D> = M>,
source§impl<T, D, E> BuildOnDevice<D, E> for Twhere
T: ZeroSizedModule + BuildModule<D, E>,
D: Device<E>,
E: Dtype,
impl<T, D, E> BuildOnDevice<D, E> for Twhere T: ZeroSizedModule + BuildModule<D, E>, D: Device<E>, E: Dtype,
source§impl<E, D, T> LoadFromNpz<E, D> for Twhere
E: Dtype + NumpyDtype,
D: Device<E>,
T: TensorCollection<E, D>,
impl<E, D, T> LoadFromNpz<E, D> for Twhere E: Dtype + NumpyDtype, D: Device<E>, T: TensorCollection<E, D>,
source§impl<E, D, T> LoadFromSafetensors<E, D> for Twhere
E: Dtype + SafeDtype,
D: Device<E>,
T: TensorCollection<E, D>,
impl<E, D, T> LoadFromSafetensors<E, D> for Twhere E: Dtype + SafeDtype, D: Device<E>, T: TensorCollection<E, D>,
source§impl<M, T> ModuleMut<T> for Mwhere
M: NonMutableModule + Module<T>,
impl<M, T> ModuleMut<T> for Mwhere M: NonMutableModule + Module<T>,
source§impl<E, D, M> NumParams<E, D> for Mwhere
E: Dtype,
D: Device<E>,
M: TensorCollection<E, D>,
impl<E, D, M> NumParams<E, D> for Mwhere E: Dtype, D: Device<E>, M: TensorCollection<E, D>,
source§fn num_trainable_params(&self) -> usize
fn num_trainable_params(&self) -> usize
Returns the number of trainable params in any model.
§impl<T> Pointable for T
impl<T> Pointable for T
source§impl<E, D, M> ResetParams<E, D> for Mwhere
E: Dtype,
D: Device<E>,
M: TensorCollection<E, D>,
impl<E, D, M> ResetParams<E, D> for Mwhere E: Dtype, D: Device<E>, M: TensorCollection<E, D>,
source§fn reset_params(&mut self)
fn reset_params(&mut self)
Reset all a model’s parameters.
source§impl<E, D, T> SaveToNpz<E, D> for Twhere
E: Dtype + NumpyDtype,
D: Device<E>,
T: TensorCollection<E, D>,
impl<E, D, T> SaveToNpz<E, D> for Twhere E: Dtype + NumpyDtype, D: Device<E>, T: TensorCollection<E, D>,
source§impl<E, D, T> SaveToSafetensors<E, D> for Twhere
E: Dtype + SafeDtype,
D: Device<E>,
T: TensorCollection<E, D>,
impl<E, D, T> SaveToSafetensors<E, D> for Twhere E: Dtype + SafeDtype, D: Device<E>, T: TensorCollection<E, D>,
source§fn save_safetensors<P: AsRef<Path>>(
&self,
path: P
) -> Result<(), SafeTensorError>
fn save_safetensors<P: AsRef<Path>>( &self, path: P ) -> Result<(), SafeTensorError>
source§impl<E, D, T> TensorCollection<E, D> for Twhere
E: Dtype,
D: Device<E>,
T: ZeroSizedModule,
impl<E, D, T> TensorCollection<E, D> for Twhere E: Dtype, D: Device<E>, T: ZeroSizedModule,
§type To<E2: Dtype, D2: Device<E2>> = T
type To<E2: Dtype, D2: Device<E2>> = T
Type alias that specifies the how a module’s type changes when using a different dtype and/or
device.
source§fn iter_tensors<V>(
visitor: &mut V
) -> Result<Option<<T as TensorCollection<E, D>>::To<<V as ModuleVisitor<T, E, D>>::E2, <V as ModuleVisitor<T, E, D>>::D2>>, <V as ModuleVisitor<T, E, D>>::Err>where
V: ModuleVisitor<T, E, D>,
fn iter_tensors<V>( visitor: &mut V ) -> Result<Option<<T as TensorCollection<E, D>>::To<<V as ModuleVisitor<T, E, D>>::E2, <V as ModuleVisitor<T, E, D>>::D2>>, <V as ModuleVisitor<T, E, D>>::Err>where V: ModuleVisitor<T, E, D>,
Specifies how to iterate through tensors or modules containted within this module, and how
to contruct this module given values for its fields. Returns
Err(_)
to indicate an error,
Ok(None)
to indicate that there is no error and a module has not been built, and
Ok(Some(_))
contains Self::Output<E2, D2>
source§fn module<F1, F2, Field>(
name: &str,
get_ref: F1,
get_mut: F2
) -> ModuleField<'_, F1, F2, Self, Field>where
F1: FnMut(&Self) -> &Field,
F2: FnMut(&mut Self) -> &mut Field,
Field: TensorCollection<E, D>,
fn module<F1, F2, Field>( name: &str, get_ref: F1, get_mut: F2 ) -> ModuleField<'_, F1, F2, Self, Field>where F1: FnMut(&Self) -> &Field, F2: FnMut(&mut Self) -> &mut Field, Field: TensorCollection<E, D>,
Creates a ModuleFields that represents a field that may contain one or more tensors. Read more
source§fn tensor<F1, F2, S>(
name: &str,
get_ref: F1,
get_mut: F2,
options: TensorOptions<S, E, D>
) -> TensorField<'_, F1, F2, Self, S, E, D>where
F1: FnMut(&Self) -> &Tensor<S, E, D>,
F2: FnMut(&mut Self) -> &mut Tensor<S, E, D>,
S: Shape,
fn tensor<F1, F2, S>( name: &str, get_ref: F1, get_mut: F2, options: TensorOptions<S, E, D> ) -> TensorField<'_, F1, F2, Self, S, E, D>where F1: FnMut(&Self) -> &Tensor<S, E, D>, F2: FnMut(&mut Self) -> &mut Tensor<S, E, D>, S: Shape,
Creates a ModuleFields that represents a tensor field. Read more
source§fn scalar<F1, F2, N>(
name: &str,
get_ref: F1,
get_mut: F2,
options: ScalarOptions<N>
) -> ScalarField<'_, F1, F2, Self, N>where
F1: FnMut(&Self) -> &N,
F2: FnMut(&mut Self) -> &mut N,
N: NumCast,
fn scalar<F1, F2, N>( name: &str, get_ref: F1, get_mut: F2, options: ScalarOptions<N> ) -> ScalarField<'_, F1, F2, Self, N>where F1: FnMut(&Self) -> &N, F2: FnMut(&mut Self) -> &mut N, N: NumCast,
Creates a ModuleFields that represents a scalar field. Read more
source§impl<E, D1, D2, T> ToDevice<E, D1, D2> for Twhere
E: Dtype,
D1: Device<E>,
D2: Device<E>,
T: TensorCollection<E, D1>,
impl<E, D1, D2, T> ToDevice<E, D1, D2> for Twhere E: Dtype, D1: Device<E>, D2: Device<E>, T: TensorCollection<E, D1>,
source§impl<E1, D, T> ToDtype<E1, D> for Twhere
E1: Dtype,
D: Device<E1>,
T: TensorCollection<E1, D>,
impl<E1, D, T> ToDtype<E1, D> for Twhere E1: Dtype, D: Device<E1>, T: TensorCollection<E1, D>,
source§impl<E, D, M> ZeroGrads<E, D> for Mwhere
E: Dtype,
D: Device<E>,
M: TensorCollection<E, D>,
impl<E, D, M> ZeroGrads<E, D> for Mwhere E: Dtype, D: Device<E>, M: TensorCollection<E, D>,
source§fn alloc_grads(&self) -> Gradients<E, D>
fn alloc_grads(&self) -> Gradients<E, D>
Allocates gradients for this tensor collection. This marks all other
gradients as temporary, so they are dropped after .backward()
source§fn try_alloc_grads(&self) -> Result<Gradients<E, D>, D::Err>
fn try_alloc_grads(&self) -> Result<Gradients<E, D>, D::Err>
Allocates gradients for this tensor collection. This marks all other
gradients as temporary, so they are dropped after .backward()
source§fn zero_grads(&self, gradients: &mut Gradients<E, D>)
fn zero_grads(&self, gradients: &mut Gradients<E, D>)
Zero’s any gradients associated with
self
.