MixMasterAIHyperpop Mastering for Spotify
Target: -14 LUFS · True Peak: -1 dBTP · Dynamic Range: 4-7 LU
No signup · WAV + MP3 · -14 LUFS auto-applied
Hyperpop Mastering Specification — Spotify
| Parameter | Hyperpop Specification |
|---|---|
| Loudness Target | -14 LUFS integrated (Spotify optimized) |
| True Peak Ceiling | -1 dBTP — inter-sample peak limit |
| Dynamic Range | 4-7 LU LU — genre-appropriate |
| EQ Focus | Distortion Character (all frequencies) & Digital Brightness (above 10 kHz) |
| Stereo Image | Extreme width, Haas delay — mono-check mandatory |
| Platform Algorithm | Spotify normalizes to -14 LUFS. |
Why Hyperpop on Spotify Needs Specialized Mastering
Hyperpop mastering intentionally deconstructs every standard mastering convention — the genre's digital distortion, clipping aesthetics, and maximum compression are features to enhance, not problems to solve. The core technical challenge is that hyperpop productions frequently exceed 0 dBFS in the mix stage, using soft clipper saturation as a creative tool. When these already-clipped signals go through a mastering limiter at -1 dBTP, the double-clipping creates harsh digital artifacts that were not intended. The solution: measure the actual peak level of the incoming mix after saturation, then apply sufficient gain reduction to bring the true peak to -1 dBTP as a single-stage process rather than compressing further into existing saturation. The high-frequency extension in hyperpop — boosted above 12 kHz, often with harmonic saturation extending to 20 kHz — causes inter-sample peaks during AAC encoding that are 2–3 dB above the sample peak reading. True peak monitoring and limiting at -1 dBTP is non-negotiable. The stereo width is frequently extreme, with Haas delay effects creating phase differences above 50% — check mono compatibility carefully, as the genre's core audience listens on mono phone speakers. Dynamic range targets of 4–7 LU reflect the genre's maximal sonic identity.
Spotify context: Spotify normalizes to -14 LUFS. Louder masters are turned down — not up. Do not over-limit to -8 LUFS; you lose dynamics with no loudness gain.
Hyperpop EQ Profile for Spotify
Extreme high-end: Boost 8–12 kHz aggressively (3–5 dB) for the piercing digital brightness. Hyperpop intentionally sounds harsh and extreme — this is correct.
Distorted sub-bass: Heavy sub-bass distortion at 40–80 Hz. Allow intentional harmonic saturation for the blown-out low-end character of the genre.
Pitch-shifted vocals: Heavy pitch-shifted vocals dominate. Boost 4–8 kHz for the extreme high vocal presence and maintain the processed, artificial quality.
No warmth: High-pass aggressively at 60–80 Hz on most elements. Hyperpop avoids natural low-mid warmth — keep the frequency picture sharp and extreme.
Compression & Limiting for Spotify
Maximum limiting: 3–6 LU dynamic range. Hyperpop is maximally compressed and distorted — this is aesthetically correct and intentional. Do not attempt to add dynamics.
Extreme sidechain: Sidechain pumping of 5–8 dB is more aggressive than any other genre. Verify the pump effect is exaggerated and audible in the master.
Clip distortion: Some hyperpop producers intentionally clip the master bus before limiting. If the distortion sounds intentional and correct for the track, it is correct.
Hyperpop LUFS Targets — All Platforms Compared
How Hyperpop mastering specs differ across every major streaming platform.
| Platform | Integrated LUFS | True Peak | Current page |
|---|---|---|---|
🟢Spotify | -14 LUFS | -1 dBTP | You are here |
| -16 LUFS | -1 dBTP | View guide → | |
▶️YouTube | -14 LUFS | -1 dBTP | View guide → |
| -14 LUFS | -1 dBTP | View guide → | |
| -11 LUFS | -0.5 dBTP | View guide → | |
| -14 LUFS | -1 dBTP | View guide → | |
| -13 LUFS | -0.5 dBTP | View guide → | |
🎛️Beatport | -9 LUFS | -0.3 dBTP | View guide → |
| -14 LUFS | -1 dBTP | View guide → | |
| -14 LUFS | -1 dBTP | View guide → | |
| -14 LUFS | -1 dBTP | View guide → | |
| -15 LUFS | -1 dBTP | View guide → |
Skip the manual settings
Apply these exact specs automatically.
-14 LUFS · -1 dBTP · Hyperpop EQ — in 60 seconds. Free.
Master Free NowTechnical Methodology — Hyperpop Mastering for Spotify
Target: -14 LUFS integrated · -1 dBTP true peak · EBU R128 / ITU-R BS.1770-4 compliant
We measure integrated LUFS using K-weighted filtering per ITU-R BS.1770-4: a high-shelf pre-filter at 1681.97 Hz (+3.9998 dB gain) followed by a 75 Hz high-pass (Q=0.5) to remove DC offset and low-frequency rumble. The mean square of the filtered signal gives us integrated loudness in LUFS.
True peak (dBTP) is measured at 4× oversampling to detect inter-sample peaks that occur between digital samples. Sample-peak measurement alone misses these peaks, which cause audible clipping during AAC and MP3 lossy encoding on streaming platforms. We enforce the true peak ceiling at -1 dBTP for all standard platforms.
Genre EQ profiles apply frequency-specific gain based on each genre's sonic characteristics: mud reduction at 250–400 Hz for hip-hop and trap, presence enhancement at 2–4 kHz for vocal clarity on phone speakers, sub-bass high-pass at 30–35 Hz for all genres to remove inaudible subsonic content that wastes headroom.
Master bus compression uses a VCA-style algorithm with genre-tuned attack and release times. Lo-fi and jazz use 50 ms attack to preserve transients; EDM and techno use 5–10 ms for density. Parallel compression blends the compressed signal at 20–40% wet to lift room sound without eliminating the uncompressed transient attack.
The final limiter stage uses lookahead limiting (3–5 ms) to catch transient peaks before they exceed the true peak ceiling. The limiter targets platform-specific LUFS: -14 LUFS for Spotify, -16 LUFS for Apple Music, -11 LUFS for SoundCloud, -9 LUFS for Beatport. Gain reduction is transparent at 1–2 dB of limiting; beyond 3 dB audible artifacts require reducing the input drive.
All processing runs in your browser via Web Audio API — no audio data is uploaded to any server.
Hyperpop Mastering FAQ — Spotify
What LUFS for hyperpop on Spotify?
Target -14 LUFS integrated. Hyperpop benefits from a very narrow 3–6 LU dynamic range — the genre is maximally compressed. Loudness normalization on Spotify means going louder than the target only loses dynamics with no perceived benefit.
How do I master hyperpop without losing the intentional harshness?
The harshness IS the genre — don't try to fix it. Boost 8–12 kHz, allow the high-end to be aggressive, and use a transparent limiter that doesn't round off the extreme transients. Heavy sidechain pumping of 5–8 dB should be audible and exaggerated. The goal is controlled chaos.
Does hyperpop's extreme high-end survive Spotify's compression?
Generally yes — the 8–12 kHz harshness survives streaming compression on Spotify. The frequencies are strong enough to survive AAC/OGG encoding.