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2026-07-13 13:28:46 +08:00

126 lines
4.4 KiB
Swift

// For licensing see accompanying LICENSE.md file.
// Copyright (C) 2022 Apple Inc. All Rights Reserved.
import Foundation
import CoreML
/// MMDiT noise prediction model for stable diffusion
@available(iOS 16.2, macOS 13.1, *)
public struct MultiModalDiffusionTransformer: ResourceManaging {
/// Model used to predict noise residuals given an input, diffusion time step, and conditional embedding
///
/// It can be in the form of a single model or multiple stages
var models: [ManagedMLModel]
/// Creates a MMDiT noise prediction model
///
/// - Parameters:
/// - url: Location of single MMDiT compiled Core ML model
/// - configuration: Configuration to be used when the model is loaded
/// - Returns: MMDiT model that will lazily load its required resources when needed or requested
public init(modelAt url: URL,
configuration: MLModelConfiguration)
{
self.models = [ManagedMLModel(modelAt: url, configuration: configuration)]
}
/// Load resources.
public func loadResources() throws {
for model in models {
try model.loadResources()
}
}
/// Unload the underlying model to free up memory
public func unloadResources() {
for model in models {
model.unloadResources()
}
}
/// Pre-warm resources
public func prewarmResources() throws {
// Override default to pre-warm each model
for model in models {
try model.loadResources()
model.unloadResources()
}
}
var latentImageEmbeddingsDescription: MLFeatureDescription {
try! models.first!.perform { model in
model.modelDescription.inputDescriptionsByName["latent_image_embeddings"]!
}
}
/// The expected shape of the models latent sample input
public var latentImageEmbeddingsShape: [Int] {
latentImageEmbeddingsDescription.multiArrayConstraint!.shape.map { $0.intValue }
}
var tokenLevelTextEmbeddingsDescription: MLFeatureDescription {
try! models.first!.perform { model in
model.modelDescription.inputDescriptionsByName["token_level_text_embeddings"]!
}
}
/// The expected shape of the geometry conditioning
public var tokenLevelTextEmbeddingsShape: [Int] {
tokenLevelTextEmbeddingsDescription.multiArrayConstraint!.shape.map { $0.intValue }
}
/// Batch prediction noise from latent samples
///
/// - Parameters:
/// - latents: Batch of latent samples in an array
/// - timeStep: Current diffusion timestep
/// - hiddenStates: Hidden state to condition on
/// - Returns: Array of predicted noise residuals
func predictNoise(
latents: [MLShapedArray<Float32>],
timeStep: Float,
tokenLevelTextEmbeddings: MLShapedArray<Float32>,
pooledTextEmbeddings: MLShapedArray<Float32>
) throws -> [MLShapedArray<Float32>] {
// Match time step batch dimension to the model / latent samples
let t = MLShapedArray<Float32>(scalars: [timeStep, timeStep], shape: [2])
// Form batch input to model
let inputs = try latents.enumerated().map {
let dict: [String: Any] = [
"latent_image_embeddings": MLMultiArray($0.element),
"timestep": MLMultiArray(t),
"token_level_text_embeddings": MLMultiArray(tokenLevelTextEmbeddings),
"pooled_text_embeddings": MLMultiArray(pooledTextEmbeddings),
]
return try MLDictionaryFeatureProvider(dictionary: dict)
}
let batch = MLArrayBatchProvider(array: inputs)
// Make predictions
let results = try models.predictions(from: batch)
// Pull out the results in Float32 format
let noise = (0..<results.count).map { i in
let result = results.features(at: i)
let outputName = result.featureNames.first!
let outputNoise = result.featureValue(for: outputName)!.multiArrayValue!
// To conform to this func return type make sure we return float32
// Use the fact that the concatenating constructor for MLMultiArray
// can do type conversion:
let fp32Noise = MLMultiArray(
concatenating: [outputNoise],
axis: 0,
dataType: .float32
)
return MLShapedArray<Float32>(fp32Noise)
}
return noise
}
}