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Deep Vintage:拥有深厚复古灵魂的传奇硬件模拟

Deep Vintage 是一套传奇硬件模拟插件,将你带入真正的模拟魔法世界。它不仅仅追求真实的电路复刻或特定音色特质,而是模拟整个声音,以在数字世界中再现复古的“灵魂”。深度、光泽、低频饱和感……硬件音色的每一个细微之处都在等待你点燃,且占用极少的CPU资源和延迟。

APNN 2.0 凭借Three-Body Tech的专有APNN(音频处理神经网络)2.0技术,Deep Vintage通过声音本身进行学习,创造出与原始硬件几乎无法区分的聆听体验。

APNN 2.0 是一种专门用于模拟模拟硬件的神经网络。在训练过程中,APNN 2.0和硬件会输入相同的音频,APNN 2.0将学习硬件如何在波形和频谱维度上改变音频。这意味着,经过良好训练的APNN 2.0实例能够捕捉硬件的动态和音色特征。下图展示了随着训练的进行,APNN 2.0的波形和频谱响应偏差逐渐减少,最终与原始硬件无异。请查看下方相应的演示,聆听APNN 2.0如何逐步学习和复制硬件的声音。

当APNN 2.0实例完成训练后,我们进行严格的人工测试并进行调整,直到整个团队无法通过ABX测试。这让我们自豪地宣布:

在数字音频领域,Deep Vintage是最接近真实硬件的产品。

Tape S 灵感源自80年代末到90年代初的1/4英寸磁带机,许多专业人士因其独特的音色特质而青睐Tape S。在混音中表现出色,Tape S以其温暖的中频、顺滑的高频和丰富的谐波而闻名,它增强了任何总线或主混音的深度和厚度。

亮点

  • 多重饱和、多阶段着色 凭借APNN 2.0的强大功能,Deep Vintage不仅模拟特定的频率响应或着色,还涵盖所有微妙的硬件“魔力”:动态感、空气感、相移、电子管电压衰减、变压器的“铁音”等。无论是轻微的着色、中等的饱和,还是让整个音频彻底失真,它的真实表现会让你忘记这是一款数字插件。
  • 独立谐波控制 在真实的硬件中,谐波量在给定的旋钮设置下是固定的。然而,Deep Vintage通过引入独立的谐波控制提供了超现实的灵活性,与其他音色特性分离。这让你可以在保持纯净音色的同时,调整到高驱动设置的力量感。
  • 低频饱和 音频变压器的“铁音”——温和的低频厚度和饱和感——是硬件音色的精髓所在。Deep Vintage不仅精确捕捉了这一点,还提供了开启或关闭“铁音”的选项,让你可以在变压器或无变压器版本之间切换,无论你追求厚重或清晰的音色,它始终呈现出卓越的品质。
  • 重采样/超采样 大多数音频处理网络只能在固定的采样率下运行,但通过优化我们的网络,重采样成为可能。Deep Vintage中的全新重采样算法确保在所有采样率下保持一致的精度和保真度,使其完全无采样率依赖性。此外,支持高达8倍的超采样,有效消除任何混叠问题。
  • EQ协同训练 大多数神经网络只能捕捉硬件的离散状态,因而只能提供有限的EQ组合。然而,Deep Vintage独特地通过额外的EQ模拟支持完全连续的EQ调整。对于带有EQ的模型,“协同训练算法”同时学习硬件原型的饱和特性,并根据电路对预建的EQ模块进行微调。这让你在享受真实硬件音色的同时,拥有对EQ调整的完全自由。
  • 磁带抖动/波动协同训练 磁带机中的抖动和波动是由于磁带传输系统的机械不稳定性而产生的音高变化。抖动指较慢、较明显的音高波动,而波动则是更快的速度变化。

    与EQ协同训练相同,APNN 2.0使用物理建模的抖动/波动模拟,并与神经网络协同训练。这不仅使神经网络训练的结果更为真实,还让建模的抖动/波动效果更接近原始硬件。

  • 可调噪声底 Deep Vintage系列模拟了硬件的固有噪声底,并可以根据需要调整噪声量。
  • “复古DAW”模拟 这个按钮的灵感来自于约2000年经典DAW引入的极其微小的变化(小于-140 dB)。虽然变化微乎其微,但我们也没有忽略它。你可以根据需要启用或禁用此功能。
  • 低CPU使用率 无需昂贵的云端GPU集群——Deep Vintage像其他插件一样本地运行,且占用极少的CPU资源。你可以轻松地在每个轨道上插入它!

更多功能

  • 原生支持Apple silicon
  • 撤销/重做功能
  • A/B切换
  • 输入/输出电平表
  • 单声道模式
  • LR/MS处理
  • 相位反转
  • GUI缩放调整
  • 延迟:26采样点,约0.6毫秒(44100 Hz下)

Deep Vintage

Legendary Hardware Simulations with a Deep Vintage Soul

Deep Vintage is a suite of legendary hardware simulation plugins that will immerse you in real analog magic. Not merely pursuing bona fide circuit replication or specific tonal qualities, Deep Vintage simulates the entirety of sound to reproduce the vintage “soul” in a digital world. Depth, sheen, low-end saturation…every nuance of the hardware’s sonic spirit is ready for you to ignite, with minimal CPU usage and latency.

APNN 2.0

Trained with Three-Body Tech’s proprietary APNN (Audio Processing Neural Network) 2.0, Deep Vintage learns on sound, and sound alone, creating an indistinguishable listening experience from the original hardwares.

APNN 2.0 is a neural network specializes in simulating analog hardwares. During the training process, APNN 2.0 and the hardware will be inputted with the same audio, and APNN 2.0 will learn how the hardware changes the audio in both waveform and spectrum dimensions. This means that a well-trained APNN 2.0 instance can capture both the dynamic and tonal characteristics of its source hardware. The following diagram demonstrates how, as training progresses, APNN 2.0’s waveform and spectrum response deviation gradually decrease, eventually becoming indistinguishable from that of the original hardware. Check out the corresponding demos below to hear how APNN 2.0 progressively learns and replicates the sound of the hardware.

After an APNN 2.0 instance completes its training, we conduct rigorous human testing and make adjustments until our entire team fails the ABX test. This allows us to proudly announce:

in the realm of digital audio, nothing comes closer to real hardware than Deep Vintage.Tape S

Inspired by a 1/4-inch tape machine from the late ’80s – early ’90s which is favored by many professionals for its unique sonic signature, Tape S delivers exceptional sound quality in mixing. Characterized by its warm midranges, smooth high ends, and rich harmonics, it enhances depth and richness in any bus or master mix.

HighlightsMultiplex Saturation, Multistage Coloration

With the power of APNN 2.0, Deep Vintage simulates not just specific frequency responses or coloration, but all the subtle ‘hardware mojos’: dynamics, airness, phase shifts, tube voltage sag, transformer’s “iron sound,“ and more. Whether for subtle coloration, moderate saturation, or crushing the entire audio, its authentic performance will make you forget it’s digital.

Independent Harmonics Control

With real hardware, the amount of harmonics is fixed at a given knob setting. However, Deep Vintage introduces surreal flexibility by allowing independent control over harmonics, separate from all other tonal characteristics. This lets you dial in the sonic power of high drive settings while maintaining the purity of a clean tone.

Low Frequency Saturation

The ‘iron’ sound of audio transformers – gently added low-end girth and saturation – epitomizes the sonic character of real hardware. Deep Vintage not only accurately captures this, but also provides you with the ability to toggle this ‘iron’ sound on or off, allowing you to switch between transformer or transformer-less versions. Whether you’re aiming for a thick or clear tone, it always delivers with exceptional quality.

Re-sampling/Up-sampling

Almost all audio processing networks operates in fixed sample rates, but we’ve made resampling possible by optimizing our networks. The completely redesigned resampling algorithm in Deep Vintage ensures consistent accuracy and fidelity across all sample rates, making the simulation fully sample rate agnostic. Additionally, up to 8x oversampling is supported, effectively eliminating any aliasing issues.

EQ Co-training

Most neural networks can only capture discrete states of the hardware, thus providing only limited EQ combinations. However, Deep Vintage uniquely supports fully continous EQ adjustment through extra EQ simulations. For models with EQ, the “co-training algorithm” simultaneously learns the hardware prototype’s saturation characteristics while fine-tuning a pre-modeled EQ module based on the circuit. This allows you to enjoy the authentic hardware sound while having complete freedom over EQ adjustment.

Tape Wow/Flutter Co-training

Wow/Flutter are pitch variations that occur in tape machines due to mechanical inconsistencies in the tape transport system. Wow refers to slower, more noticeable pitch fluctuations, while flutter on the other hand, is a faster form of speed variation.

Just like EQ co-training, APNN 2.0 uses a physically modeled wow/flutter simulation and co-trains it with the neural network. This not only makes the results of neural network training sound more authentic but also brings the modeled wow/flutter effect closer to the original hardware.

Adjustable Noise Floor

The Deep Vintage series simulates the hardware’s inherent noise floor, which you can adjust in amount as needed.

“Retro DAW” Simulation

This button is inspired by the extremely subtle changes (less than -140 dB) introduced by a classic DAW from around the year 2000. While the changes are infinitesimal, we didn’t overlook them. You can enable or disable this feature as needed.

Low CPU usage

No need for expensive cloud-based GPU clusters – Deep Vintage runs locally just like any other plugin, with extremely low CPU usage. You can easily insert it on every track!

More Features

  • Apple silicon native support
  • Undo/redo
  • A/B switching
  • Input/output level meter
  • Mono mode
  • LR/MS processing
  • Phase invert
  • GUI re-scaling

Latency

26 sample points, about 0.6ms at 44100 Hz

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