pub struct Ac {
pub start: Decimal,
pub stop: Decimal,
pub sweep: Sweep,
pub errpreset: Option<ErrPreset>,
}
Expand description
An AC analysis.
Fields§
§start: Decimal
Start frequency (Hz).
Defaults to 0.
stop: Decimal
Stop frequency (Hz).
sweep: Sweep
The sweep kind and number of points.
errpreset: Option<ErrPreset>
The error preset.
Trait Implementations§
source§impl<'de> Deserialize<'de> for Ac
impl<'de> Deserialize<'de> for Ac
source§fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
Deserialize this value from the given Serde deserializer. Read more
source§impl Save<Spectre, Ac, &ConvertedNodePath> for Current
impl Save<Spectre, Ac, &ConvertedNodePath> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &ConvertedNodePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &ConvertedNodePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &ConvertedNodePath> for Voltage
impl Save<Spectre, Ac, &ConvertedNodePath> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &ConvertedNodePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &ConvertedNodePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &NestedNode> for Voltage
impl Save<Spectre, Ac, &NestedNode> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &NestedNode,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &NestedNode, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &NestedTerminal> for Current
impl Save<Spectre, Ac, &NestedTerminal> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &NestedTerminal,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &NestedTerminal, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &NestedTerminal> for Voltage
impl Save<Spectre, Ac, &NestedTerminal> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &NestedTerminal,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &NestedTerminal, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &SliceOnePath> for Current
impl Save<Spectre, Ac, &SliceOnePath> for Current
source§fn save(
_ctx: &SimulationContext<Spectre>,
to_save: &SliceOnePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( _ctx: &SimulationContext<Spectre>, to_save: &SliceOnePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &SliceOnePath> for Voltage
impl Save<Spectre, Ac, &SliceOnePath> for Voltage
source§fn save(
_ctx: &SimulationContext<Spectre>,
to_save: &SliceOnePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( _ctx: &SimulationContext<Spectre>, to_save: &SliceOnePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &TerminalPath> for Current
impl Save<Spectre, Ac, &TerminalPath> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &TerminalPath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &TerminalPath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, &TerminalPath> for Voltage
impl Save<Spectre, Ac, &TerminalPath> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: &TerminalPath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: &TerminalPath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, ConvertedNodePath> for Current
impl Save<Spectre, Ac, ConvertedNodePath> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: ConvertedNodePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: ConvertedNodePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, ConvertedNodePath> for Voltage
impl Save<Spectre, Ac, ConvertedNodePath> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: ConvertedNodePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: ConvertedNodePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, NestedNode> for Voltage
impl Save<Spectre, Ac, NestedNode> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: NestedNode,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: NestedNode, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, NestedTerminal> for Current
impl Save<Spectre, Ac, NestedTerminal> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: NestedTerminal,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: NestedTerminal, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, NestedTerminal> for Voltage
impl Save<Spectre, Ac, NestedTerminal> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: NestedTerminal,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: NestedTerminal, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, SliceOnePath> for Current
impl Save<Spectre, Ac, SliceOnePath> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: SliceOnePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: SliceOnePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, SliceOnePath> for Voltage
impl Save<Spectre, Ac, SliceOnePath> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: SliceOnePath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: SliceOnePath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, TerminalPath> for Current
impl Save<Spectre, Ac, TerminalPath> for Current
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: TerminalPath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: TerminalPath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl Save<Spectre, Ac, TerminalPath> for Voltage
impl Save<Spectre, Ac, TerminalPath> for Voltage
source§fn save(
ctx: &SimulationContext<Spectre>,
to_save: TerminalPath,
opts: &mut <Spectre as Simulator>::Options
) -> Self::SavedKey
fn save( ctx: &SimulationContext<Spectre>, to_save: TerminalPath, opts: &mut <Spectre as Simulator>::Options ) -> Self::SavedKey
Marks the given output for saving, returning a key that can be used to recover
the output once the simulation is complete.
source§impl SupportedBy<Spectre> for Ac
impl SupportedBy<Spectre> for Ac
impl Eq for Ac
impl StructuralPartialEq for Ac
Auto Trait Implementations§
impl RefUnwindSafe for Ac
impl Send for Ac
impl Sync for Ac
impl Unpin for Ac
impl UnwindSafe for Ac
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<T, U> CustomHardwareType<Flipped<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
impl<T, U> CustomHardwareType<Flipped<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
source§fn from_layout_type(other: &Flipped<T>) -> U
fn from_layout_type(other: &Flipped<T>) -> U
Creates this layout type from another layout type.
source§impl<T, U> CustomHardwareType<InOut<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
impl<T, U> CustomHardwareType<InOut<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
source§fn from_layout_type(other: &InOut<T>) -> U
fn from_layout_type(other: &InOut<T>) -> U
Creates this layout type from another layout type.
source§impl<T, U> CustomHardwareType<Input<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
impl<T, U> CustomHardwareType<Input<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
source§fn from_layout_type(other: &Input<T>) -> U
fn from_layout_type(other: &Input<T>) -> U
Creates this layout type from another layout type.
source§impl<T, U> CustomHardwareType<Output<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
impl<T, U> CustomHardwareType<Output<T>> for Uwhere
U: CustomHardwareType<T>,
T: HardwareType,
source§fn from_layout_type(other: &Output<T>) -> U
fn from_layout_type(other: &Output<T>) -> U
Creates this layout type from another layout type.
§impl<T> Downcast for Twhere
T: Any,
impl<T> Downcast for Twhere
T: Any,
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fn into_any(self: Box<T>) -> Box<dyn Any>
Convert
Box<dyn Trait>
(where Trait: Downcast
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can
then be further downcast
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where ConcreteType
implements Trait
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Convert
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fn as_any(&self) -> &(dyn Any + 'static)
Convert
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) to &Any
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Convert
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(where Trait: Downcast
) to &Any
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impl<T> DowncastSync for T
source§impl<Q, K> Equivalent<K> for Q
impl<Q, K> Equivalent<K> for Q
source§fn equivalent(&self, key: &K) -> bool
fn equivalent(&self, key: &K) -> bool
Compare self to
key
and return true
if they are equal.§impl<Q, K> Equivalent<K> for Q
impl<Q, K> Equivalent<K> for Q
§fn equivalent(&self, key: &K) -> bool
fn equivalent(&self, key: &K) -> bool
Checks if this value is equivalent to the given key. Read more
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impl<Q, K> Equivalent<K> for Q
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fn equivalent(&self, key: &K) -> bool
Compare self to
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and return true
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source§impl<T> IntoEither for T
impl<T> IntoEither for T
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Converts
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source§fn into_request(self) -> Request<T>
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