com.amazonaws.services.mediaconvert.model

Class H265Settings

java.lang.Object

com.amazonaws.services.mediaconvert.model.H265Settings

All Implemented Interfaces:

StructuredPojo, Serializable, Cloneable

@Generated(value="com.amazonaws:aws-java-sdk-code-generator")
public class H265Settings
extends Object
implements Serializable, Cloneable, StructuredPojo

Settings for H265 codec

See Also:

AWS API Documentation, Serialized Form

Constructor Summary

Constructors

Constructor and Description
H265Settings()

Method Summary

Modifier and Type	Method and Description
H265Settings	clone()
boolean	equals(Object obj)
String	getAdaptiveQuantization() When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output.
String	getAlternateTransferFunctionSei() Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).
Integer	getBitrate() Specify the average bitrate in bits per second.
String	getCodecLevel() H.265 Level.
String	getCodecProfile() Represents the Profile and Tier, per the HEVC (H.265) specification.
String	getDynamicSubGop() Choose Adaptive to improve subjective video quality for high-motion content.
String	getFlickerAdaptiveQuantization() Enable this setting to have the encoder reduce I-frame pop.
String	getFramerateControl() If you are using the console, use the Framerate setting to specify the frame rate for this output.
String	getFramerateConversionAlgorithm() Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate.
Integer	getFramerateDenominator() When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
Integer	getFramerateNumerator() When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
String	getGopBReference() If enable, use reference B frames for GOP structures that have B frames > 1.
Integer	getGopClosedCadence() Specify the relative frequency of open to closed GOPs in this output.
Double	getGopSize() Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS).
String	getGopSizeUnits() Specify how the transcoder determines GOP size for this output.
Integer	getHrdBufferInitialFillPercentage() Percentage of the buffer that should initially be filled (HRD buffer model).
Integer	getHrdBufferSize() Size of buffer (HRD buffer model) in bits.
String	getInterlaceMode() Choose the scan line type for the output.
Integer	getMaxBitrate() Maximum bitrate in bits/second.
Integer	getMinIInterval() Use this setting only when you also enable Scene change detection (SceneChangeDetect).
Integer	getNumberBFramesBetweenReferenceFrames() Specify the number of B-frames that MediaConvert puts between reference frames in this output.
Integer	getNumberReferenceFrames() Number of reference frames to use.
String	getParControl() Optional.
Integer	getParDenominator() Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
Integer	getParNumerator() Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
String	getQualityTuningLevel() Optional.
H265QvbrSettings	getQvbrSettings() Settings for quality-defined variable bitrate encoding with the H.265 codec.
String	getRateControlMode() Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).
String	getSampleAdaptiveOffsetFilterMode() Specify Sample Adaptive Offset (SAO) filter strength.
String	getScanTypeConversionMode() Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate.
String	getSceneChangeDetect() Enable this setting to insert I-frames at scene changes that the service automatically detects.
Integer	getSlices() Number of slices per picture.
String	getSlowPal() Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps).
String	getSpatialAdaptiveQuantization() Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity.
String	getTelecine() This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970.
String	getTemporalAdaptiveQuantization() Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity.
String	getTemporalIds() Enables temporal layer identifiers in the encoded bitstream.
String	getTiles() Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.
String	getUnregisteredSeiTimecode() Inserts timecode for each frame as 4 bytes of an unregistered SEI message.
String	getWriteMp4PackagingType() If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting.
int	hashCode()
void	marshall(ProtocolMarshaller protocolMarshaller) Marshalls this structured data using the given ProtocolMarshaller.
void	setAdaptiveQuantization(String adaptiveQuantization) When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output.
void	setAlternateTransferFunctionSei(String alternateTransferFunctionSei) Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).
void	setBitrate(Integer bitrate) Specify the average bitrate in bits per second.
void	setCodecLevel(String codecLevel) H.265 Level.
void	setCodecProfile(String codecProfile) Represents the Profile and Tier, per the HEVC (H.265) specification.
void	setDynamicSubGop(String dynamicSubGop) Choose Adaptive to improve subjective video quality for high-motion content.
void	setFlickerAdaptiveQuantization(String flickerAdaptiveQuantization) Enable this setting to have the encoder reduce I-frame pop.
void	setFramerateControl(String framerateControl) If you are using the console, use the Framerate setting to specify the frame rate for this output.
void	setFramerateConversionAlgorithm(String framerateConversionAlgorithm) Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate.
void	setFramerateDenominator(Integer framerateDenominator) When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
void	setFramerateNumerator(Integer framerateNumerator) When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
void	setGopBReference(String gopBReference) If enable, use reference B frames for GOP structures that have B frames > 1.
void	setGopClosedCadence(Integer gopClosedCadence) Specify the relative frequency of open to closed GOPs in this output.
void	setGopSize(Double gopSize) Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS).
void	setGopSizeUnits(String gopSizeUnits) Specify how the transcoder determines GOP size for this output.
void	setHrdBufferInitialFillPercentage(Integer hrdBufferInitialFillPercentage) Percentage of the buffer that should initially be filled (HRD buffer model).
void	setHrdBufferSize(Integer hrdBufferSize) Size of buffer (HRD buffer model) in bits.
void	setInterlaceMode(String interlaceMode) Choose the scan line type for the output.
void	setMaxBitrate(Integer maxBitrate) Maximum bitrate in bits/second.
void	setMinIInterval(Integer minIInterval) Use this setting only when you also enable Scene change detection (SceneChangeDetect).
void	setNumberBFramesBetweenReferenceFrames(Integer numberBFramesBetweenReferenceFrames) Specify the number of B-frames that MediaConvert puts between reference frames in this output.
void	setNumberReferenceFrames(Integer numberReferenceFrames) Number of reference frames to use.
void	setParControl(String parControl) Optional.
void	setParDenominator(Integer parDenominator) Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
void	setParNumerator(Integer parNumerator) Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
void	setQualityTuningLevel(String qualityTuningLevel) Optional.
void	setQvbrSettings(H265QvbrSettings qvbrSettings) Settings for quality-defined variable bitrate encoding with the H.265 codec.
void	setRateControlMode(String rateControlMode) Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).
void	setSampleAdaptiveOffsetFilterMode(String sampleAdaptiveOffsetFilterMode) Specify Sample Adaptive Offset (SAO) filter strength.
void	setScanTypeConversionMode(String scanTypeConversionMode) Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate.
void	setSceneChangeDetect(String sceneChangeDetect) Enable this setting to insert I-frames at scene changes that the service automatically detects.
void	setSlices(Integer slices) Number of slices per picture.
void	setSlowPal(String slowPal) Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps).
void	setSpatialAdaptiveQuantization(String spatialAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity.
void	setTelecine(String telecine) This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970.
void	setTemporalAdaptiveQuantization(String temporalAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity.
void	setTemporalIds(String temporalIds) Enables temporal layer identifiers in the encoded bitstream.
void	setTiles(String tiles) Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.
void	setUnregisteredSeiTimecode(String unregisteredSeiTimecode) Inserts timecode for each frame as 4 bytes of an unregistered SEI message.
void	setWriteMp4PackagingType(String writeMp4PackagingType) If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting.
String	toString() Returns a string representation of this object.
H265Settings	withAdaptiveQuantization(H265AdaptiveQuantization adaptiveQuantization) When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output.
H265Settings	withAdaptiveQuantization(String adaptiveQuantization) When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output.
H265Settings	withAlternateTransferFunctionSei(H265AlternateTransferFunctionSei alternateTransferFunctionSei) Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).
H265Settings	withAlternateTransferFunctionSei(String alternateTransferFunctionSei) Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).
H265Settings	withBitrate(Integer bitrate) Specify the average bitrate in bits per second.
H265Settings	withCodecLevel(H265CodecLevel codecLevel) H.265 Level.
H265Settings	withCodecLevel(String codecLevel) H.265 Level.
H265Settings	withCodecProfile(H265CodecProfile codecProfile) Represents the Profile and Tier, per the HEVC (H.265) specification.
H265Settings	withCodecProfile(String codecProfile) Represents the Profile and Tier, per the HEVC (H.265) specification.
H265Settings	withDynamicSubGop(H265DynamicSubGop dynamicSubGop) Choose Adaptive to improve subjective video quality for high-motion content.
H265Settings	withDynamicSubGop(String dynamicSubGop) Choose Adaptive to improve subjective video quality for high-motion content.
H265Settings	withFlickerAdaptiveQuantization(H265FlickerAdaptiveQuantization flickerAdaptiveQuantization) Enable this setting to have the encoder reduce I-frame pop.
H265Settings	withFlickerAdaptiveQuantization(String flickerAdaptiveQuantization) Enable this setting to have the encoder reduce I-frame pop.
H265Settings	withFramerateControl(H265FramerateControl framerateControl) If you are using the console, use the Framerate setting to specify the frame rate for this output.
H265Settings	withFramerateControl(String framerateControl) If you are using the console, use the Framerate setting to specify the frame rate for this output.
H265Settings	withFramerateConversionAlgorithm(H265FramerateConversionAlgorithm framerateConversionAlgorithm) Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate.
H265Settings	withFramerateConversionAlgorithm(String framerateConversionAlgorithm) Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate.
H265Settings	withFramerateDenominator(Integer framerateDenominator) When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
H265Settings	withFramerateNumerator(Integer framerateNumerator) When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction.
H265Settings	withGopBReference(H265GopBReference gopBReference) If enable, use reference B frames for GOP structures that have B frames > 1.
H265Settings	withGopBReference(String gopBReference) If enable, use reference B frames for GOP structures that have B frames > 1.
H265Settings	withGopClosedCadence(Integer gopClosedCadence) Specify the relative frequency of open to closed GOPs in this output.
H265Settings	withGopSize(Double gopSize) Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS).
H265Settings	withGopSizeUnits(H265GopSizeUnits gopSizeUnits) Specify how the transcoder determines GOP size for this output.
H265Settings	withGopSizeUnits(String gopSizeUnits) Specify how the transcoder determines GOP size for this output.
H265Settings	withHrdBufferInitialFillPercentage(Integer hrdBufferInitialFillPercentage) Percentage of the buffer that should initially be filled (HRD buffer model).
H265Settings	withHrdBufferSize(Integer hrdBufferSize) Size of buffer (HRD buffer model) in bits.
H265Settings	withInterlaceMode(H265InterlaceMode interlaceMode) Choose the scan line type for the output.
H265Settings	withInterlaceMode(String interlaceMode) Choose the scan line type for the output.
H265Settings	withMaxBitrate(Integer maxBitrate) Maximum bitrate in bits/second.
H265Settings	withMinIInterval(Integer minIInterval) Use this setting only when you also enable Scene change detection (SceneChangeDetect).
H265Settings	withNumberBFramesBetweenReferenceFrames(Integer numberBFramesBetweenReferenceFrames) Specify the number of B-frames that MediaConvert puts between reference frames in this output.
H265Settings	withNumberReferenceFrames(Integer numberReferenceFrames) Number of reference frames to use.
H265Settings	withParControl(H265ParControl parControl) Optional.
H265Settings	withParControl(String parControl) Optional.
H265Settings	withParDenominator(Integer parDenominator) Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
H265Settings	withParNumerator(Integer parNumerator) Required when you set Pixel aspect ratio (parControl) to SPECIFIED.
H265Settings	withQualityTuningLevel(H265QualityTuningLevel qualityTuningLevel) Optional.
H265Settings	withQualityTuningLevel(String qualityTuningLevel) Optional.
H265Settings	withQvbrSettings(H265QvbrSettings qvbrSettings) Settings for quality-defined variable bitrate encoding with the H.265 codec.
H265Settings	withRateControlMode(H265RateControlMode rateControlMode) Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).
H265Settings	withRateControlMode(String rateControlMode) Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).
H265Settings	withSampleAdaptiveOffsetFilterMode(H265SampleAdaptiveOffsetFilterMode sampleAdaptiveOffsetFilterMode) Specify Sample Adaptive Offset (SAO) filter strength.
H265Settings	withSampleAdaptiveOffsetFilterMode(String sampleAdaptiveOffsetFilterMode) Specify Sample Adaptive Offset (SAO) filter strength.
H265Settings	withScanTypeConversionMode(H265ScanTypeConversionMode scanTypeConversionMode) Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate.
H265Settings	withScanTypeConversionMode(String scanTypeConversionMode) Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate.
H265Settings	withSceneChangeDetect(H265SceneChangeDetect sceneChangeDetect) Enable this setting to insert I-frames at scene changes that the service automatically detects.
H265Settings	withSceneChangeDetect(String sceneChangeDetect) Enable this setting to insert I-frames at scene changes that the service automatically detects.
H265Settings	withSlices(Integer slices) Number of slices per picture.
H265Settings	withSlowPal(H265SlowPal slowPal) Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps).
H265Settings	withSlowPal(String slowPal) Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps).
H265Settings	withSpatialAdaptiveQuantization(H265SpatialAdaptiveQuantization spatialAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity.
H265Settings	withSpatialAdaptiveQuantization(String spatialAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity.
H265Settings	withTelecine(H265Telecine telecine) This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970.
H265Settings	withTelecine(String telecine) This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970.
H265Settings	withTemporalAdaptiveQuantization(H265TemporalAdaptiveQuantization temporalAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity.
H265Settings	withTemporalAdaptiveQuantization(String temporalAdaptiveQuantization) Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity.
H265Settings	withTemporalIds(H265TemporalIds temporalIds) Enables temporal layer identifiers in the encoded bitstream.
H265Settings	withTemporalIds(String temporalIds) Enables temporal layer identifiers in the encoded bitstream.
H265Settings	withTiles(H265Tiles tiles) Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.
H265Settings	withTiles(String tiles) Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.
H265Settings	withUnregisteredSeiTimecode(H265UnregisteredSeiTimecode unregisteredSeiTimecode) Inserts timecode for each frame as 4 bytes of an unregistered SEI message.
H265Settings	withUnregisteredSeiTimecode(String unregisteredSeiTimecode) Inserts timecode for each frame as 4 bytes of an unregistered SEI message.
H265Settings	withWriteMp4PackagingType(H265WriteMp4PackagingType writeMp4PackagingType) If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting.
H265Settings	withWriteMp4PackagingType(String writeMp4PackagingType) If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting.

Methods inherited from class java.lang.Object

getClass, notify, notifyAll, wait, wait, wait

Constructor Detail

H265Settings

public H265Settings()

Method Detail

setAdaptiveQuantization

public void setAdaptiveQuantization(String adaptiveQuantization)

When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Parameters:

adaptiveQuantization - When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

See Also:

H265AdaptiveQuantization

getAdaptiveQuantization

public String getAdaptiveQuantization()

When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Returns:

When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

See Also:

H265AdaptiveQuantization

withAdaptiveQuantization

public H265Settings withAdaptiveQuantization(String adaptiveQuantization)

When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Parameters:

adaptiveQuantization - When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265AdaptiveQuantization

withAdaptiveQuantization

public H265Settings withAdaptiveQuantization(H265AdaptiveQuantization adaptiveQuantization)

When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Parameters:

adaptiveQuantization - When you set Adaptive Quantization (H265AdaptiveQuantization) to Auto (AUTO), or leave blank, MediaConvert automatically applies quantization to improve the video quality of your output. Set Adaptive Quantization to Low (LOW), Medium (MEDIUM), High (HIGH), Higher (HIGHER), or Max (MAX) to manually control the strength of the quantization filter. When you do, you can specify a value for Spatial Adaptive Quantization (H265SpatialAdaptiveQuantization), Temporal Adaptive Quantization (H265TemporalAdaptiveQuantization), and Flicker Adaptive Quantization (H265FlickerAdaptiveQuantization), to further control the quantization filter. Set Adaptive Quantization to Off (OFF) to apply no quantization to your output.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265AdaptiveQuantization

setAlternateTransferFunctionSei

public void setAlternateTransferFunctionSei(String alternateTransferFunctionSei)

Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Parameters:

alternateTransferFunctionSei - Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

See Also:

H265AlternateTransferFunctionSei

getAlternateTransferFunctionSei

public String getAlternateTransferFunctionSei()

Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Returns:

Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

See Also:

H265AlternateTransferFunctionSei

withAlternateTransferFunctionSei

public H265Settings withAlternateTransferFunctionSei(String alternateTransferFunctionSei)

Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Parameters:

alternateTransferFunctionSei - Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265AlternateTransferFunctionSei

withAlternateTransferFunctionSei

public H265Settings withAlternateTransferFunctionSei(H265AlternateTransferFunctionSei alternateTransferFunctionSei)

Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Parameters:

alternateTransferFunctionSei - Enables Alternate Transfer Function SEI message for outputs using Hybrid Log Gamma (HLG) Electro-Optical Transfer Function (EOTF).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265AlternateTransferFunctionSei

setBitrate

public void setBitrate(Integer bitrate)

Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

Parameters:

bitrate - Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

getBitrate

public Integer getBitrate()

Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

Returns:

Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

withBitrate

public H265Settings withBitrate(Integer bitrate)

Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

Parameters:

bitrate - Specify the average bitrate in bits per second. Required for VBR and CBR. For MS Smooth outputs, bitrates must be unique when rounded down to the nearest multiple of 1000.

Returns:

Returns a reference to this object so that method calls can be chained together.

setCodecLevel

public void setCodecLevel(String codecLevel)

H.265 Level.

Parameters:

codecLevel - H.265 Level.

See Also:

H265CodecLevel

getCodecLevel

public String getCodecLevel()

H.265 Level.

Returns:

H.265 Level.

See Also:

H265CodecLevel

withCodecLevel

public H265Settings withCodecLevel(String codecLevel)

H.265 Level.

Parameters:

codecLevel - H.265 Level.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265CodecLevel

withCodecLevel

public H265Settings withCodecLevel(H265CodecLevel codecLevel)

H.265 Level.

Parameters:

codecLevel - H.265 Level.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265CodecLevel

setCodecProfile

public void setCodecProfile(String codecProfile)

Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Parameters:

codecProfile - Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

See Also:

H265CodecProfile

getCodecProfile

public String getCodecProfile()

Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Returns:

Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

See Also:

H265CodecProfile

withCodecProfile

public H265Settings withCodecProfile(String codecProfile)

Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Parameters:

codecProfile - Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265CodecProfile

withCodecProfile

public H265Settings withCodecProfile(H265CodecProfile codecProfile)

Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Parameters:

codecProfile - Represents the Profile and Tier, per the HEVC (H.265) specification. Selections are grouped as [Profile] / [Tier], so "Main/High" represents Main Profile with High Tier. 4:2:2 profiles are only available with the HEVC 4:2:2 License.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265CodecProfile

setDynamicSubGop

public void setDynamicSubGop(String dynamicSubGop)

Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Parameters:

dynamicSubGop - Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

See Also:

H265DynamicSubGop

getDynamicSubGop

public String getDynamicSubGop()

Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Returns:

Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

See Also:

H265DynamicSubGop

withDynamicSubGop

public H265Settings withDynamicSubGop(String dynamicSubGop)

Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Parameters:

dynamicSubGop - Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265DynamicSubGop

withDynamicSubGop

public H265Settings withDynamicSubGop(H265DynamicSubGop dynamicSubGop)

Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Parameters:

dynamicSubGop - Choose Adaptive to improve subjective video quality for high-motion content. This will cause the service to use fewer B-frames (which infer information based on other frames) for high-motion portions of the video and more B-frames for low-motion portions. The maximum number of B-frames is limited by the value you provide for the setting B frames between reference frames (numberBFramesBetweenReferenceFrames).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265DynamicSubGop

setFlickerAdaptiveQuantization

public void setFlickerAdaptiveQuantization(String flickerAdaptiveQuantization)

Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Parameters:

flickerAdaptiveQuantization - Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

See Also:

H265FlickerAdaptiveQuantization

getFlickerAdaptiveQuantization

public String getFlickerAdaptiveQuantization()

Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Returns:

Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

See Also:

H265FlickerAdaptiveQuantization

withFlickerAdaptiveQuantization

public H265Settings withFlickerAdaptiveQuantization(String flickerAdaptiveQuantization)

Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Parameters:

flickerAdaptiveQuantization - Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FlickerAdaptiveQuantization

withFlickerAdaptiveQuantization

public H265Settings withFlickerAdaptiveQuantization(H265FlickerAdaptiveQuantization flickerAdaptiveQuantization)

Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Parameters:

flickerAdaptiveQuantization - Enable this setting to have the encoder reduce I-frame pop. I-frame pop appears as a visual flicker that can arise when the encoder saves bits by copying some macroblocks many times from frame to frame, and then refreshes them at the I-frame. When you enable this setting, the encoder updates these macroblocks slightly more often to smooth out the flicker. This setting is disabled by default. Related setting: In addition to enabling this setting, you must also set adaptiveQuantization to a value other than Off (OFF).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FlickerAdaptiveQuantization

setFramerateControl

public void setFramerateControl(String framerateControl)

If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Parameters:

framerateControl - If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

See Also:

H265FramerateControl

getFramerateControl

public String getFramerateControl()

If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Returns:

If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

See Also:

H265FramerateControl

withFramerateControl

public H265Settings withFramerateControl(String framerateControl)

If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Parameters:

framerateControl - If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FramerateControl

withFramerateControl

public H265Settings withFramerateControl(H265FramerateControl framerateControl)

If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Parameters:

framerateControl - If you are using the console, use the Framerate setting to specify the frame rate for this output. If you want to keep the same frame rate as the input video, choose Follow source. If you want to do frame rate conversion, choose a frame rate from the dropdown list or choose Custom. The framerates shown in the dropdown list are decimal approximations of fractions. If you choose Custom, specify your frame rate as a fraction. If you are creating your transcoding job specification as a JSON file without the console, use FramerateControl to specify which value the service uses for the frame rate for this output. Choose INITIALIZE_FROM_SOURCE if you want the service to use the frame rate from the input. Choose SPECIFIED if you want the service to use the frame rate you specify in the settings FramerateNumerator and FramerateDenominator.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FramerateControl

setFramerateConversionAlgorithm

public void setFramerateConversionAlgorithm(String framerateConversionAlgorithm)

Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Parameters:

framerateConversionAlgorithm - Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

See Also:

H265FramerateConversionAlgorithm

getFramerateConversionAlgorithm

public String getFramerateConversionAlgorithm()

Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Returns:

Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

See Also:

H265FramerateConversionAlgorithm

withFramerateConversionAlgorithm

public H265Settings withFramerateConversionAlgorithm(String framerateConversionAlgorithm)

Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Parameters:

framerateConversionAlgorithm - Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FramerateConversionAlgorithm

withFramerateConversionAlgorithm

public H265Settings withFramerateConversionAlgorithm(H265FramerateConversionAlgorithm framerateConversionAlgorithm)

Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Parameters:

framerateConversionAlgorithm - Choose the method that you want MediaConvert to use when increasing or decreasing the frame rate. We recommend using drop duplicate (DUPLICATE_DROP) for numerically simple conversions, such as 60 fps to 30 fps. For numerically complex conversions, you can use interpolate (INTERPOLATE) to avoid stutter. This results in a smooth picture, but might introduce undesirable video artifacts. For complex frame rate conversions, especially if your source video has already been converted from its original cadence, use FrameFormer (FRAMEFORMER) to do motion-compensated interpolation. FrameFormer chooses the best conversion method frame by frame. Note that using FrameFormer increases the transcoding time and incurs a significant add-on cost.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265FramerateConversionAlgorithm

setFramerateDenominator

public void setFramerateDenominator(Integer framerateDenominator)

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Parameters:

framerateDenominator - When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

getFramerateDenominator

public Integer getFramerateDenominator()

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Returns:

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

withFramerateDenominator

public H265Settings withFramerateDenominator(Integer framerateDenominator)

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Parameters:

framerateDenominator - When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateDenominator to specify the denominator of this fraction. In this example, use 1001 for the value of FramerateDenominator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Returns:

Returns a reference to this object so that method calls can be chained together.

setFramerateNumerator

public void setFramerateNumerator(Integer framerateNumerator)

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Parameters:

framerateNumerator - When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

getFramerateNumerator

public Integer getFramerateNumerator()

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Returns:

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

withFramerateNumerator

public H265Settings withFramerateNumerator(Integer framerateNumerator)

When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Parameters:

framerateNumerator - When you use the API for transcode jobs that use frame rate conversion, specify the frame rate as a fraction. For example, 24000 / 1001 = 23.976 fps. Use FramerateNumerator to specify the numerator of this fraction. In this example, use 24000 for the value of FramerateNumerator. When you use the console for transcode jobs that use frame rate conversion, provide the value as a decimal number for Framerate. In this example, specify 23.976.

Returns:

Returns a reference to this object so that method calls can be chained together.

setGopBReference

public void setGopBReference(String gopBReference)

If enable, use reference B frames for GOP structures that have B frames > 1.

Parameters:

gopBReference - If enable, use reference B frames for GOP structures that have B frames > 1.

See Also:

H265GopBReference

getGopBReference

public String getGopBReference()

If enable, use reference B frames for GOP structures that have B frames > 1.

Returns:

If enable, use reference B frames for GOP structures that have B frames > 1.

See Also:

H265GopBReference

withGopBReference

public H265Settings withGopBReference(String gopBReference)

If enable, use reference B frames for GOP structures that have B frames > 1.

Parameters:

gopBReference - If enable, use reference B frames for GOP structures that have B frames > 1.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265GopBReference

withGopBReference

public H265Settings withGopBReference(H265GopBReference gopBReference)

If enable, use reference B frames for GOP structures that have B frames > 1.

Parameters:

gopBReference - If enable, use reference B frames for GOP structures that have B frames > 1.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265GopBReference

setGopClosedCadence

public void setGopClosedCadence(Integer gopClosedCadence)

Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

Parameters:

gopClosedCadence - Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

getGopClosedCadence

public Integer getGopClosedCadence()

Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

Returns:

Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

withGopClosedCadence

public H265Settings withGopClosedCadence(Integer gopClosedCadence)

Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

Parameters:

gopClosedCadence - Specify the relative frequency of open to closed GOPs in this output. For example, if you want to allow four open GOPs and then require a closed GOP, set this value to 5. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. If you do explicitly specify a value, for segmented outputs, don't set this value to 0.

Returns:

Returns a reference to this object so that method calls can be chained together.

setGopSize

public void setGopSize(Double gopSize)

Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

Parameters:

gopSize - Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

getGopSize

public Double getGopSize()

Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

Returns:

Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

withGopSize

public H265Settings withGopSize(Double gopSize)

Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

Parameters:

gopSize - Use this setting only when you set GOP mode control (GopSizeUnits) to Specified, frames (FRAMES) or Specified, seconds (SECONDS). Specify the GOP length using a whole number of frames or a decimal value of seconds. MediaConvert will interpret this value as frames or seconds depending on the value you choose for GOP mode control (GopSizeUnits). If you want to allow MediaConvert to automatically determine GOP size, leave GOP size blank and set GOP mode control to Auto (AUTO). If your output group specifies HLS, DASH, or CMAF, leave GOP size blank and set GOP mode control to Auto in each output in your output group.

Returns:

Returns a reference to this object so that method calls can be chained together.

setGopSizeUnits

public void setGopSizeUnits(String gopSizeUnits)

Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Parameters:

gopSizeUnits - Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

See Also:

H265GopSizeUnits

getGopSizeUnits

public String getGopSizeUnits()

Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Returns:

Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

See Also:

H265GopSizeUnits

withGopSizeUnits

public H265Settings withGopSizeUnits(String gopSizeUnits)

Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Parameters:

gopSizeUnits - Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265GopSizeUnits

withGopSizeUnits

public H265Settings withGopSizeUnits(H265GopSizeUnits gopSizeUnits)

Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Parameters:

gopSizeUnits - Specify how the transcoder determines GOP size for this output. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, choose Auto (AUTO) and and leave GOP size (GopSize) blank. By default, if you don't specify GOP mode control (GopSizeUnits), MediaConvert will use automatic behavior. If your output group specifies HLS, DASH, or CMAF, set GOP mode control to Auto and leave GOP size blank in each output in your output group. To explicitly specify the GOP length, choose Specified, frames (FRAMES) or Specified, seconds (SECONDS) and then provide the GOP length in the related setting GOP size (GopSize).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265GopSizeUnits

setHrdBufferInitialFillPercentage

public void setHrdBufferInitialFillPercentage(Integer hrdBufferInitialFillPercentage)

Percentage of the buffer that should initially be filled (HRD buffer model).

Parameters:

hrdBufferInitialFillPercentage - Percentage of the buffer that should initially be filled (HRD buffer model).

getHrdBufferInitialFillPercentage

public Integer getHrdBufferInitialFillPercentage()

Percentage of the buffer that should initially be filled (HRD buffer model).

Returns:

Percentage of the buffer that should initially be filled (HRD buffer model).

withHrdBufferInitialFillPercentage

public H265Settings withHrdBufferInitialFillPercentage(Integer hrdBufferInitialFillPercentage)

Percentage of the buffer that should initially be filled (HRD buffer model).

Parameters:

hrdBufferInitialFillPercentage - Percentage of the buffer that should initially be filled (HRD buffer model).

Returns:

Returns a reference to this object so that method calls can be chained together.

setHrdBufferSize

public void setHrdBufferSize(Integer hrdBufferSize)

Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

Parameters:

hrdBufferSize - Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

getHrdBufferSize

public Integer getHrdBufferSize()

Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

Returns:

Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

withHrdBufferSize

public H265Settings withHrdBufferSize(Integer hrdBufferSize)

Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

Parameters:

hrdBufferSize - Size of buffer (HRD buffer model) in bits. For example, enter five megabits as 5000000.

Returns:

Returns a reference to this object so that method calls can be chained together.

setInterlaceMode

public void setInterlaceMode(String interlaceMode)

Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Parameters:

interlaceMode - Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

See Also:

H265InterlaceMode

getInterlaceMode

public String getInterlaceMode()

Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Returns:

Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

See Also:

H265InterlaceMode

withInterlaceMode

public H265Settings withInterlaceMode(String interlaceMode)

Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Parameters:

interlaceMode - Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265InterlaceMode

withInterlaceMode

public H265Settings withInterlaceMode(H265InterlaceMode interlaceMode)

Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Parameters:

interlaceMode - Choose the scan line type for the output. Keep the default value, Progressive (PROGRESSIVE) to create a progressive output, regardless of the scan type of your input. Use Top field first (TOP_FIELD) or Bottom field first (BOTTOM_FIELD) to create an output that's interlaced with the same field polarity throughout. Use Follow, default top (FOLLOW_TOP_FIELD) or Follow, default bottom (FOLLOW_BOTTOM_FIELD) to produce outputs with the same field polarity as the source. For jobs that have multiple inputs, the output field polarity might change over the course of the output. Follow behavior depends on the input scan type. If the source is interlaced, the output will be interlaced with the same polarity as the source. If the source is progressive, the output will be interlaced with top field bottom field first, depending on which of the Follow options you choose.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265InterlaceMode

setMaxBitrate

public void setMaxBitrate(Integer maxBitrate)

Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

Parameters:

maxBitrate - Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

getMaxBitrate

public Integer getMaxBitrate()

Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

Returns:

Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

withMaxBitrate

public H265Settings withMaxBitrate(Integer maxBitrate)

Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

Parameters:

maxBitrate - Maximum bitrate in bits/second. For example, enter five megabits per second as 5000000. Required when Rate control mode is QVBR.

Returns:

Returns a reference to this object so that method calls can be chained together.

setMinIInterval

public void setMinIInterval(Integer minIInterval)

Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

Parameters:

minIInterval - Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

getMinIInterval

public Integer getMinIInterval()

Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

Returns:

Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

withMinIInterval

public H265Settings withMinIInterval(Integer minIInterval)

Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

Parameters:

minIInterval - Use this setting only when you also enable Scene change detection (SceneChangeDetect). This setting determines how the encoder manages the spacing between I-frames that it inserts as part of the I-frame cadence and the I-frames that it inserts for Scene change detection. We recommend that you have the transcoder automatically choose this value for you based on characteristics of your input video. To enable this automatic behavior, keep the default value by leaving this setting out of your JSON job specification. In the console, do this by keeping the default empty value. When you explicitly specify a value for this setting, the encoder determines whether to skip a cadence-driven I-frame by the value you set. For example, if you set Min I interval (minIInterval) to 5 and a cadence-driven I-frame would fall within 5 frames of a scene-change I-frame, then the encoder skips the cadence-driven I-frame. In this way, one GOP is shrunk slightly and one GOP is stretched slightly. When the cadence-driven I-frames are farther from the scene-change I-frame than the value you set, then the encoder leaves all I-frames in place and the GOPs surrounding the scene change are smaller than the usual cadence GOPs.

Returns:

Returns a reference to this object so that method calls can be chained together.

setNumberBFramesBetweenReferenceFrames

public void setNumberBFramesBetweenReferenceFrames(Integer numberBFramesBetweenReferenceFrames)

Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

Parameters:

numberBFramesBetweenReferenceFrames - Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

getNumberBFramesBetweenReferenceFrames

public Integer getNumberBFramesBetweenReferenceFrames()

Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

Returns:

Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

withNumberBFramesBetweenReferenceFrames

public H265Settings withNumberBFramesBetweenReferenceFrames(Integer numberBFramesBetweenReferenceFrames)

Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

Parameters:

numberBFramesBetweenReferenceFrames - Specify the number of B-frames that MediaConvert puts between reference frames in this output. Valid values are whole numbers from 0 through 7. When you don't specify a value, MediaConvert defaults to 2.

Returns:

Returns a reference to this object so that method calls can be chained together.

setNumberReferenceFrames

public void setNumberReferenceFrames(Integer numberReferenceFrames)

Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

Parameters:

numberReferenceFrames - Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

getNumberReferenceFrames

public Integer getNumberReferenceFrames()

Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

Returns:

Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

withNumberReferenceFrames

public H265Settings withNumberReferenceFrames(Integer numberReferenceFrames)

Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

Parameters:

numberReferenceFrames - Number of reference frames to use. The encoder may use more than requested if using B-frames and/or interlaced encoding.

Returns:

Returns a reference to this object so that method calls can be chained together.

setParControl

public void setParControl(String parControl)

Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Parameters:

parControl - Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

See Also:

H265ParControl

getParControl

public String getParControl()

Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Returns:

Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

See Also:

H265ParControl

withParControl

public H265Settings withParControl(String parControl)

Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Parameters:

parControl - Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265ParControl

withParControl

public H265Settings withParControl(H265ParControl parControl)

Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Parameters:

parControl - Optional. Specify how the service determines the pixel aspect ratio (PAR) for this output. The default behavior, Follow source (INITIALIZE_FROM_SOURCE), uses the PAR from your input video for your output. To specify a different PAR in the console, choose any value other than Follow source. To specify a different PAR by editing the JSON job specification, choose SPECIFIED. When you choose SPECIFIED for this setting, you must also specify values for the parNumerator and parDenominator settings.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265ParControl

setParDenominator

public void setParDenominator(Integer parDenominator)

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

Parameters:

parDenominator - Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

getParDenominator

public Integer getParDenominator()

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

Returns:

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

withParDenominator

public H265Settings withParDenominator(Integer parDenominator)

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

Parameters:

parDenominator - Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parDenominator is 33.

Returns:

Returns a reference to this object so that method calls can be chained together.

setParNumerator

public void setParNumerator(Integer parNumerator)

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

Parameters:

parNumerator - Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

getParNumerator

public Integer getParNumerator()

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

Returns:

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

withParNumerator

public H265Settings withParNumerator(Integer parNumerator)

Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

Parameters:

parNumerator - Required when you set Pixel aspect ratio (parControl) to SPECIFIED. On the console, this corresponds to any value other than Follow source. When you specify an output pixel aspect ratio (PAR) that is different from your input video PAR, provide your output PAR as a ratio. For example, for D1/DV NTSC widescreen, you would specify the ratio 40:33. In this example, the value for parNumerator is 40.

Returns:

Returns a reference to this object so that method calls can be chained together.

setQualityTuningLevel

public void setQualityTuningLevel(String qualityTuningLevel)

Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Parameters:

qualityTuningLevel - Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

See Also:

H265QualityTuningLevel

getQualityTuningLevel

public String getQualityTuningLevel()

Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Returns:

Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

See Also:

H265QualityTuningLevel

withQualityTuningLevel

public H265Settings withQualityTuningLevel(String qualityTuningLevel)

Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Parameters:

qualityTuningLevel - Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265QualityTuningLevel

withQualityTuningLevel

public H265Settings withQualityTuningLevel(H265QualityTuningLevel qualityTuningLevel)

Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Parameters:

qualityTuningLevel - Optional. Use Quality tuning level (qualityTuningLevel) to choose how you want to trade off encoding speed for output video quality. The default behavior is faster, lower quality, single-pass encoding.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265QualityTuningLevel

setQvbrSettings

public void setQvbrSettings(H265QvbrSettings qvbrSettings)

Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

Parameters:

qvbrSettings - Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

getQvbrSettings

public H265QvbrSettings getQvbrSettings()

Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

Returns:

Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

withQvbrSettings

public H265Settings withQvbrSettings(H265QvbrSettings qvbrSettings)

Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

Parameters:

qvbrSettings - Settings for quality-defined variable bitrate encoding with the H.265 codec. Use these settings only when you set QVBR for Rate control mode (RateControlMode).

Returns:

Returns a reference to this object so that method calls can be chained together.

setRateControlMode

public void setRateControlMode(String rateControlMode)

Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Parameters:

rateControlMode - Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

See Also:

H265RateControlMode

getRateControlMode

public String getRateControlMode()

Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Returns:

Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

See Also:

H265RateControlMode

withRateControlMode

public H265Settings withRateControlMode(String rateControlMode)

Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Parameters:

rateControlMode - Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265RateControlMode

withRateControlMode

public H265Settings withRateControlMode(H265RateControlMode rateControlMode)

Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Parameters:

rateControlMode - Use this setting to specify whether this output has a variable bitrate (VBR), constant bitrate (CBR) or quality-defined variable bitrate (QVBR).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265RateControlMode

setSampleAdaptiveOffsetFilterMode

public void setSampleAdaptiveOffsetFilterMode(String sampleAdaptiveOffsetFilterMode)

Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Parameters:

sampleAdaptiveOffsetFilterMode - Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

See Also:

H265SampleAdaptiveOffsetFilterMode

getSampleAdaptiveOffsetFilterMode

public String getSampleAdaptiveOffsetFilterMode()

Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Returns:

Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

See Also:

H265SampleAdaptiveOffsetFilterMode

withSampleAdaptiveOffsetFilterMode

public H265Settings withSampleAdaptiveOffsetFilterMode(String sampleAdaptiveOffsetFilterMode)

Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Parameters:

sampleAdaptiveOffsetFilterMode - Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SampleAdaptiveOffsetFilterMode

withSampleAdaptiveOffsetFilterMode

public H265Settings withSampleAdaptiveOffsetFilterMode(H265SampleAdaptiveOffsetFilterMode sampleAdaptiveOffsetFilterMode)

Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Parameters:

sampleAdaptiveOffsetFilterMode - Specify Sample Adaptive Offset (SAO) filter strength. Adaptive mode dynamically selects best strength based on content

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SampleAdaptiveOffsetFilterMode

setScanTypeConversionMode

public void setScanTypeConversionMode(String scanTypeConversionMode)

Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Parameters:

scanTypeConversionMode - Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

See Also:

H265ScanTypeConversionMode

getScanTypeConversionMode

public String getScanTypeConversionMode()

Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Returns:

Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

See Also:

H265ScanTypeConversionMode

withScanTypeConversionMode

public H265Settings withScanTypeConversionMode(String scanTypeConversionMode)

Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Parameters:

scanTypeConversionMode - Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265ScanTypeConversionMode

withScanTypeConversionMode

public H265Settings withScanTypeConversionMode(H265ScanTypeConversionMode scanTypeConversionMode)

Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Parameters:

scanTypeConversionMode - Use this setting for interlaced outputs, when your output frame rate is half of your input frame rate. In this situation, choose Optimized interlacing (INTERLACED_OPTIMIZE) to create a better quality interlaced output. In this case, each progressive frame from the input corresponds to an interlaced field in the output. Keep the default value, Basic interlacing (INTERLACED), for all other output frame rates. With basic interlacing, MediaConvert performs any frame rate conversion first and then interlaces the frames. When you choose Optimized interlacing and you set your output frame rate to a value that isn't suitable for optimized interlacing, MediaConvert automatically falls back to basic interlacing. Required settings: To use optimized interlacing, you must set Telecine (telecine) to None (NONE) or Soft (SOFT). You can't use optimized interlacing for hard telecine outputs. You must also set Interlace mode (interlaceMode) to a value other than Progressive (PROGRESSIVE).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265ScanTypeConversionMode

setSceneChangeDetect

public void setSceneChangeDetect(String sceneChangeDetect)

Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Parameters:

sceneChangeDetect - Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

See Also:

H265SceneChangeDetect

getSceneChangeDetect

public String getSceneChangeDetect()

Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Returns:

Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

See Also:

H265SceneChangeDetect

withSceneChangeDetect

public H265Settings withSceneChangeDetect(String sceneChangeDetect)

Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Parameters:

sceneChangeDetect - Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SceneChangeDetect

withSceneChangeDetect

public H265Settings withSceneChangeDetect(H265SceneChangeDetect sceneChangeDetect)

Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Parameters:

sceneChangeDetect - Enable this setting to insert I-frames at scene changes that the service automatically detects. This improves video quality and is enabled by default. If this output uses QVBR, choose Transition detection (TRANSITION_DETECTION) for further video quality improvement. For more information about QVBR, see https://docs.aws.amazon.com/console/mediaconvert/cbr-vbr-qvbr.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SceneChangeDetect

setSlices

public void setSlices(Integer slices)

Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

Parameters:

slices - Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

getSlices

public Integer getSlices()

Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

Returns:

Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

withSlices

public H265Settings withSlices(Integer slices)

Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

Parameters:

slices - Number of slices per picture. Must be less than or equal to the number of macroblock rows for progressive pictures, and less than or equal to half the number of macroblock rows for interlaced pictures.

Returns:

Returns a reference to this object so that method calls can be chained together.

setSlowPal

public void setSlowPal(String slowPal)

Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Parameters:

slowPal - Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

See Also:

H265SlowPal

getSlowPal

public String getSlowPal()

Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Returns:

Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

See Also:

H265SlowPal

withSlowPal

public H265Settings withSlowPal(String slowPal)

Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Parameters:

slowPal - Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SlowPal

withSlowPal

public H265Settings withSlowPal(H265SlowPal slowPal)

Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Parameters:

slowPal - Ignore this setting unless your input frame rate is 23.976 or 24 frames per second (fps). Enable slow PAL to create a 25 fps output. When you enable slow PAL, MediaConvert relabels the video frames to 25 fps and resamples your audio to keep it synchronized with the video. Note that enabling this setting will slightly reduce the duration of your video. Required settings: You must also set Framerate to 25. In your JSON job specification, set (framerateControl) to (SPECIFIED), (framerateNumerator) to 25 and (framerateDenominator) to 1.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SlowPal

setSpatialAdaptiveQuantization

public void setSpatialAdaptiveQuantization(String spatialAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Parameters:

spatialAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

See Also:

H265SpatialAdaptiveQuantization

getSpatialAdaptiveQuantization

public String getSpatialAdaptiveQuantization()

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Returns:

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

See Also:

H265SpatialAdaptiveQuantization

withSpatialAdaptiveQuantization

public H265Settings withSpatialAdaptiveQuantization(String spatialAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Parameters:

spatialAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SpatialAdaptiveQuantization

withSpatialAdaptiveQuantization

public H265Settings withSpatialAdaptiveQuantization(H265SpatialAdaptiveQuantization spatialAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Parameters:

spatialAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on spatial variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas that can sustain more distortion with no noticeable visual degradation and uses more bits on areas where any small distortion will be noticeable. For example, complex textured blocks are encoded with fewer bits and smooth textured blocks are encoded with more bits. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen with a lot of complex texture, you might choose to disable this feature. Related setting: When you enable spatial adaptive quantization, set the value for Adaptive quantization (adaptiveQuantization) depending on your content. For homogeneous content, such as cartoons and video games, set it to Low. For content with a wider variety of textures, set it to High or Higher.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265SpatialAdaptiveQuantization

setTelecine

public void setTelecine(String telecine)

This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Parameters:

telecine - This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

See Also:

H265Telecine

getTelecine

public String getTelecine()

This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Returns:

This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

See Also:

H265Telecine

withTelecine

public H265Settings withTelecine(String telecine)

This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Parameters:

telecine - This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265Telecine

withTelecine

public H265Settings withTelecine(H265Telecine telecine)

This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Parameters:

telecine - This field applies only if the Streams > Advanced > Framerate (framerate) field is set to 29.970. This field works with the Streams > Advanced > Preprocessors > Deinterlacer field (deinterlace_mode) and the Streams > Advanced > Interlaced Mode field (interlace_mode) to identify the scan type for the output: Progressive, Interlaced, Hard Telecine or Soft Telecine. - Hard: produces 29.97i output from 23.976 input. - Soft: produces 23.976; the player converts this output to 29.97i.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265Telecine

setTemporalAdaptiveQuantization

public void setTemporalAdaptiveQuantization(String temporalAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Parameters:

temporalAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

See Also:

H265TemporalAdaptiveQuantization

getTemporalAdaptiveQuantization

public String getTemporalAdaptiveQuantization()

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Returns:

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

See Also:

H265TemporalAdaptiveQuantization

withTemporalAdaptiveQuantization

public H265Settings withTemporalAdaptiveQuantization(String temporalAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Parameters:

temporalAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265TemporalAdaptiveQuantization

withTemporalAdaptiveQuantization

public H265Settings withTemporalAdaptiveQuantization(H265TemporalAdaptiveQuantization temporalAdaptiveQuantization)

Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Parameters:

temporalAdaptiveQuantization - Keep the default value, Enabled (ENABLED), to adjust quantization within each frame based on temporal variation of content complexity. When you enable this feature, the encoder uses fewer bits on areas of the frame that aren't moving and uses more bits on complex objects with sharp edges that move a lot. For example, this feature improves the readability of text tickers on newscasts and scoreboards on sports matches. Enabling this feature will almost always improve your video quality. Note, though, that this feature doesn't take into account where the viewer's attention is likely to be. If viewers are likely to be focusing their attention on a part of the screen that doesn't have moving objects with sharp edges, such as sports athletes' faces, you might choose to disable this feature. Related setting: When you enable temporal quantization, adjust the strength of the filter with the setting Adaptive quantization (adaptiveQuantization).

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265TemporalAdaptiveQuantization

setTemporalIds

public void setTemporalIds(String temporalIds)

Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Parameters:

temporalIds - Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

See Also:

H265TemporalIds

getTemporalIds

public String getTemporalIds()

Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Returns:

Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

See Also:

H265TemporalIds

withTemporalIds

public H265Settings withTemporalIds(String temporalIds)

Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Parameters:

temporalIds - Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265TemporalIds

withTemporalIds

public H265Settings withTemporalIds(H265TemporalIds temporalIds)

Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Parameters:

temporalIds - Enables temporal layer identifiers in the encoded bitstream. Up to 3 layers are supported depending on GOP structure: I- and P-frames form one layer, reference B-frames can form a second layer and non-reference b-frames can form a third layer. Decoders can optionally decode only the lower temporal layers to generate a lower frame rate output. For example, given a bitstream with temporal IDs and with b-frames = 1 (i.e. IbPbPb display order), a decoder could decode all the frames for full frame rate output or only the I and P frames (lowest temporal layer) for a half frame rate output.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265TemporalIds

setTiles

public void setTiles(String tiles)

Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Parameters:

tiles - Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

See Also:

H265Tiles

getTiles

public String getTiles()

Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Returns:

Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

See Also:

H265Tiles

withTiles

public H265Settings withTiles(String tiles)

Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Parameters:

tiles - Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265Tiles

withTiles

public H265Settings withTiles(H265Tiles tiles)

Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Parameters:

tiles - Enable use of tiles, allowing horizontal as well as vertical subdivision of the encoded pictures.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265Tiles

setUnregisteredSeiTimecode

public void setUnregisteredSeiTimecode(String unregisteredSeiTimecode)

Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Parameters:

unregisteredSeiTimecode - Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

See Also:

H265UnregisteredSeiTimecode

getUnregisteredSeiTimecode

public String getUnregisteredSeiTimecode()

Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Returns:

Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

See Also:

H265UnregisteredSeiTimecode

withUnregisteredSeiTimecode

public H265Settings withUnregisteredSeiTimecode(String unregisteredSeiTimecode)

Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Parameters:

unregisteredSeiTimecode - Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265UnregisteredSeiTimecode

withUnregisteredSeiTimecode

public H265Settings withUnregisteredSeiTimecode(H265UnregisteredSeiTimecode unregisteredSeiTimecode)

Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Parameters:

unregisteredSeiTimecode - Inserts timecode for each frame as 4 bytes of an unregistered SEI message.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265UnregisteredSeiTimecode

setWriteMp4PackagingType

public void setWriteMp4PackagingType(String writeMp4PackagingType)

If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Parameters:

writeMp4PackagingType - If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

See Also:

H265WriteMp4PackagingType

getWriteMp4PackagingType

public String getWriteMp4PackagingType()

If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Returns:

If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

See Also:

H265WriteMp4PackagingType

withWriteMp4PackagingType

public H265Settings withWriteMp4PackagingType(String writeMp4PackagingType)

If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Parameters:

writeMp4PackagingType - If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265WriteMp4PackagingType

withWriteMp4PackagingType

public H265Settings withWriteMp4PackagingType(H265WriteMp4PackagingType writeMp4PackagingType)

If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Parameters:

writeMp4PackagingType - If the location of parameter set NAL units doesn't matter in your workflow, ignore this setting. Use this setting only with CMAF or DASH outputs, or with standalone file outputs in an MPEG-4 container (MP4 outputs). Choose HVC1 to mark your output as HVC1. This makes your output compliant with the following specification: ISO IECJTC1 SC29 N13798 Text ISO/IEC FDIS 14496-15 3rd Edition. For these outputs, the service stores parameter set NAL units in the sample headers but not in the samples directly. For MP4 outputs, when you choose HVC1, your output video might not work properly with some downstream systems and video players. The service defaults to marking your output as HEV1. For these outputs, the service writes parameter set NAL units directly into the samples.

Returns:

Returns a reference to this object so that method calls can be chained together.

See Also:

H265WriteMp4PackagingType

toString

public String toString()

Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be redacted from this string using a placeholder value.

Overrides:

toString in class Object

Returns:

A string representation of this object.

See Also:

Object.toString()

equals

public boolean equals(Object obj)

Overrides:

equals in class Object

hashCode

public int hashCode()

Overrides:

hashCode in class Object

clone

public H265Settings clone()

Overrides:

clone in class Object

marshall

public void marshall(ProtocolMarshaller protocolMarshaller)

Description copied from interface: StructuredPojo

Marshalls this structured data using the given ProtocolMarshaller.

Specified by:

marshall in interface StructuredPojo

Parameters:

protocolMarshaller - Implementation of ProtocolMarshaller used to marshall this object's data.