Claude-skill-registry ffmpeg-glitch-distortion-effects
Complete glitch art, datamosh, and video distortion effects system. PROACTIVELY activate for: (1) Datamosh/pixel bleeding effects, (2) VHS/analog glitch simulation, (3) Digital corruption effects, (4) Displacement mapping, (5) Wave/ripple distortions, (6) Pixelation and mosaic effects, (7) Chromatic aberration, (8) Scan line effects, (9) Time-based distortions (echo, trails), (10) Lens distortion and barrel effects. Provides: minterpolate for datamosh, displacement filter, geq pixel manipulation, noise and artifacts, rgbashift/chromashift for color separation, lagfun for trails, tmix for frame blending, tblend for frame difference effects.
install
source · Clone the upstream repo
git clone https://github.com/majiayu000/claude-skill-registry
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/ffmpeg-glitch-distortion-effects" ~/.claude/skills/majiayu000-claude-skill-registry-ffmpeg-glitch-distortion-effects && rm -rf "$T"
manifest:
skills/data/ffmpeg-glitch-distortion-effects/SKILL.mdsource content
CRITICAL GUIDELINES
Windows File Path Requirements
MANDATORY: Always Use Backslashes on Windows for File Paths
When using Edit or Write tools on Windows, you MUST use backslashes (
\/Quick Reference
| Effect | Command |
|---|---|
| Datamosh | |
| Chromatic aberration | |
| VHS noise | |
| Pixelate | |
| Wave distortion | |
| Echo/trails | |
| Scan lines | |
When to Use This Skill
Use for creative distortion effects:
- Music video glitch aesthetics
- Datamosh/pixel bleeding art
- VHS/analog video simulation
- Digital corruption and artifacts
- Psychedelic and experimental video
- Horror/unsettling visual effects
FFmpeg Glitch & Distortion Effects (2025)
Complete guide to datamosh, glitch art, VHS effects, displacement, and creative video distortion with FFmpeg.
Datamosh Effects
Datamosh creates the "pixel bleeding" effect by manipulating motion compensation.
Basic Datamosh with minterpolate
# Basic datamosh effect ffmpeg -i input.mp4 \ -vf "minterpolate='mi_mode=mci:mc_mode=aobmc:me_mode=bidir:vsbmc=1'" \ -c:v libx264 -crf 18 datamosh.mp4 # Parameters explained: # mi_mode=mci: Motion compensated interpolation # mc_mode=aobmc: Adaptive overlapped block motion compensation # me_mode=bidir: Bidirectional motion estimation # vsbmc=1: Variable size block motion compensation
Intense Datamosh
# Heavy datamosh (more chaos) ffmpeg -i input.mp4 \ -vf "minterpolate='fps=60:mi_mode=mci:mc_mode=aobmc:me_mode=bidir:me=epzs:vsbmc=1:scd=none'" \ -c:v libx264 -crf 18 heavy_datamosh.mp4 # scd=none: Disable scene change detection (more bleeding across cuts) # me=epzs: Enhanced predictive zonal search (faster, rougher)
Datamosh with Frame Manipulation
# Datamosh by removing I-frames (requires re-encoding) ffmpeg -i input.mp4 \ -vf "minterpolate='mi_mode=mci:mc_mode=aobmc',\ tblend=all_mode=difference:all_opacity=0.5" \ datamosh_blend.mp4 # Combine with echo for trails ffmpeg -i input.mp4 \ -vf "minterpolate='mi_mode=mci:mc_mode=aobmc',lagfun=decay=0.9" \ datamosh_trails.mp4
Controlled Datamosh (Specific Sections)
# Datamosh only certain section ffmpeg -i input.mp4 \ -vf "minterpolate='mi_mode=mci:mc_mode=aobmc':enable='between(t,5,10)'" \ controlled_datamosh.mp4
Chromatic Aberration
Color channel separation for that "broken lens" look.
rgbashift Filter
# Horizontal chromatic aberration ffmpeg -i input.mp4 \ -vf "rgbashift=rh=-5:bh=5" \ chromatic.mp4 # Parameters: # rh/rv: Red horizontal/vertical shift # gh/gv: Green horizontal/vertical shift # bh/bv: Blue horizontal/vertical shift # ah/av: Alpha horizontal/vertical shift # Vertical chromatic aberration ffmpeg -i input.mp4 \ -vf "rgbashift=rv=-3:bv=3" \ chromatic_v.mp4 # Both directions ffmpeg -i input.mp4 \ -vf "rgbashift=rh=-4:rv=-2:bh=4:bv=2" \ chromatic_both.mp4
Animated Chromatic Aberration
# Pulsing chromatic aberration ffmpeg -i input.mp4 \ -vf "rgbashift=rh='5*sin(t*3)':bh='-5*sin(t*3)'" \ pulsing_chromatic.mp4 # Increasing aberration over time ffmpeg -i input.mp4 \ -vf "rgbashift=rh='-t*2':bh='t*2'" \ increasing_chromatic.mp4
chromashift Filter (Chroma Only)
# Shift chroma channels (U/V in YUV) ffmpeg -i input.mp4 \ -vf "chromashift=cbh=5:crh=-5" \ chroma_shift.mp4 # cbh/cbv: Cb (blue-difference) horizontal/vertical # crh/crv: Cr (red-difference) horizontal/vertical
VHS/Analog Effects
Complete VHS Simulation
# Full VHS effect ffmpeg -i input.mp4 \ -vf "\ noise=c0s=15:c0f=t:c1s=10:c1f=t,\ eq=saturation=1.4:contrast=1.1:brightness=-0.02,\ chromashift=cbh=3:crh=-3,\ rgbashift=rh=2:bh=-2,\ unsharp=3:3:-0.5,\ drawgrid=w=iw:h=2:t=1:c=black@0.3,\ curves=preset=vintage" \ -c:v libx264 -crf 20 vhs_effect.mp4
VHS Components Breakdown
# 1. VHS Noise (temporal noise) ffmpeg -i input.mp4 \ -vf "noise=c0s=20:c0f=t:c1s=15:c1f=t" \ vhs_noise.mp4 # 2. VHS Color bleeding ffmpeg -i input.mp4 \ -vf "chromashift=cbh=4:cbv=2:crh=-3:crv=1" \ vhs_color_bleed.mp4 # 3. VHS Scan lines ffmpeg -i input.mp4 \ -vf "drawgrid=w=iw:h=2:t=1:c=black@0.4" \ vhs_scanlines.mp4 # 4. VHS Tracking issues (simulated) ffmpeg -i input.mp4 \ -vf "crop=iw:ih-20:0:'20*random(1)',pad=iw:ih+20:0:10" \ vhs_tracking.mp4 # 5. VHS Oversaturated colors ffmpeg -i input.mp4 \ -vf "eq=saturation=1.5:contrast=1.1,curves=preset=vintage" \ vhs_colors.mp4
VHS Static/Snow
# Static overlay blend ffmpeg -f lavfi -i "nullsrc=s=1920x1080:d=10" \ -vf "noise=c0s=100:c0f=a+t,format=gray" \ -c:v libx264 -t 10 static.mp4 # Blend static with video ffmpeg -i input.mp4 -i static.mp4 \ -filter_complex "[0:v][1:v]blend=all_mode=screen:all_opacity=0.1" \ vhs_static.mp4
Pixelation & Mosaic
Basic Pixelation
# Pixelate entire video ffmpeg -i input.mp4 \ -vf "scale=iw/10:ih/10,scale=iw*10:ih*10:flags=neighbor" \ pixelated.mp4 # Parameters: # First scale: Reduce resolution (divide by pixelation level) # Second scale: Scale back up with nearest neighbor (no interpolation) # Variable pixelation level ffmpeg -i input.mp4 \ -vf "scale=iw/20:ih/20,scale=iw*20:ih*20:flags=neighbor" \ heavy_pixel.mp4
Animated Pixelation
# Pixelation that increases over time ffmpeg -i input.mp4 \ -vf "scale='iw/max(1,t*2)':'ih/max(1,t*2)',scale=iw:ih:flags=neighbor" \ animated_pixel.mp4 # Note: This is approximate; true animated requires geq or external scripts
Mosaic/Censoring Effect
# Mosaic specific region (face blur style) ffmpeg -i input.mp4 \ -filter_complex "\ [0:v]crop=200:200:300:200[face];\ [face]scale=iw/10:ih/10,scale=iw*10:ih*10:flags=neighbor[blurred];\ [0:v][blurred]overlay=300:200" \ mosaic_region.mp4
Wave & Ripple Distortion
Displacement Map
# Create displacement map (gradient) ffmpeg -f lavfi -i "gradients=s=1920x1080:c0=black:c1=white:x0=0:y0=540:x1=1920:y1=540" \ -vframes 1 displacement_h.png # Apply horizontal wave displacement ffmpeg -i input.mp4 -i displacement_h.png \ -filter_complex "[0:v][1:v]displace=edge=wrap" \ wave_h.mp4
Animated Wave with geq
# Horizontal wave using geq ffmpeg -i input.mp4 \ -vf "geq=lum='lum(X+10*sin(Y/20+T*5),Y)':cb='cb(X+10*sin(Y/20+T*5),Y)':cr='cr(X+10*sin(Y/20+T*5),Y)'" \ wave_animated.mp4 # Vertical wave ffmpeg -i input.mp4 \ -vf "geq=lum='lum(X,Y+10*sin(X/20+T*5))':cb='cb(X,Y+10*sin(X/20+T*5))':cr='cr(X,Y+10*sin(X/20+T*5))'" \ wave_v.mp4 # Ripple from center ffmpeg -i input.mp4 \ -vf "geq=lum='lum(X+5*sin(sqrt(pow(X-W/2,2)+pow(Y-H/2,2))/10-T*5),Y+5*cos(sqrt(pow(X-W/2,2)+pow(Y-H/2,2))/10-T*5))':cb='cb(X,Y)':cr='cr(X,Y)'" \ ripple.mp4
lenscorrection (Barrel/Pincushion)
# Barrel distortion (fisheye-like) ffmpeg -i input.mp4 \ -vf "lenscorrection=cx=0.5:cy=0.5:k1=0.5:k2=0.5" \ barrel.mp4 # Pincushion distortion (opposite of barrel) ffmpeg -i input.mp4 \ -vf "lenscorrection=cx=0.5:cy=0.5:k1=-0.3:k2=-0.3" \ pincushion.mp4 # Parameters: # cx, cy: Lens center (0-1, 0.5 = center) # k1, k2: Distortion coefficients (positive = barrel, negative = pincushion)
Echo & Trails (lagfun)
Basic Trails
# Motion trails ffmpeg -i input.mp4 \ -vf "lagfun=decay=0.95" \ trails.mp4 # Parameters: # decay: How fast trails fade (0-1, higher = longer trails) # Heavy trails ffmpeg -i input.mp4 \ -vf "lagfun=decay=0.98" \ heavy_trails.mp4 # Light trails ffmpeg -i input.mp4 \ -vf "lagfun=decay=0.85" \ light_trails.mp4
Trails with Color
# Trails with color shift ffmpeg -i input.mp4 \ -vf "lagfun=decay=0.95,hue=h=t*10" \ color_trails.mp4 # Inverted trails (bright areas leave dark trails) ffmpeg -i input.mp4 \ -vf "negate,lagfun=decay=0.95,negate" \ inverted_trails.mp4
Frame Blending (tmix, tblend)
tmix (Temporal Mix)
# Average 5 frames (motion blur effect) ffmpeg -i input.mp4 \ -vf "tmix=frames=5:weights='1 1 1 1 1'" \ motion_blur.mp4 # Echo effect (repeat previous frames) ffmpeg -i input.mp4 \ -vf "tmix=frames=10:weights='1 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1'" \ echo.mp4 # Ghosting ffmpeg -i input.mp4 \ -vf "tmix=frames=3:weights='1 0.5 0.25'" \ ghosting.mp4
tblend (Frame Difference)
# Frame difference (motion highlight) ffmpeg -i input.mp4 \ -vf "tblend=all_mode=difference" \ frame_diff.mp4 # Available modes: # addition, addition128, multiply, multiply128 # average, difference, difference128 # divide, exclusion, extremity, freeze # glow, hardlight, hardmix, heat # lighten, darken, linearlight, negation # normal, overlay, phoenix, pinlight # reflect, screen, softdifference # softlight, stain, subtract, vividlight, xor
Creative tblend Effects
# Neon edges ffmpeg -i input.mp4 \ -vf "tblend=all_mode=difference128,eq=brightness=0.1:contrast=2" \ neon_edges.mp4 # Psychedelic blend ffmpeg -i input.mp4 \ -vf "tblend=all_mode=phoenix" \ psychedelic.mp4 # Burn effect ffmpeg -i input.mp4 \ -vf "tblend=all_mode=heat" \ burn_effect.mp4
Digital Corruption
Random Artifacts
# Digital glitch noise ffmpeg -i input.mp4 \ -vf "\ noise=c0s=30:c0f=a+t:c1s=20:c1f=a+t,\ rgbashift=rh='5*random(1)':bh='-5*random(1)'" \ digital_glitch.mp4 # Note: random() generates noise, but isn't truly random between frames
Compression Artifact Simulation
# Heavy compression artifacts ffmpeg -i input.mp4 \ -c:v libx264 -crf 51 -preset ultrafast \ temp_compressed.mp4 ffmpeg -i temp_compressed.mp4 \ -c:v libx264 -crf 18 \ artifacts.mp4 # Blocky artifacts with multiple re-encodes for i in {1..5}; do ffmpeg -y -i input.mp4 -c:v libx264 -crf 40 temp.mp4 mv temp.mp4 input.mp4 done
Bit Manipulation (geq)
# Bit-depth reduction (posterization) ffmpeg -i input.mp4 \ -vf "geq=lum='floor(lum(X,Y)/32)*32':cb='floor(cb(X,Y)/32)*32':cr='floor(cr(X,Y)/32)*32'" \ bit_crush.mp4 # XOR pattern ffmpeg -i input.mp4 \ -vf "geq=lum='bitxor(lum(X,Y),X+Y)':cb='cb(X,Y)':cr='cr(X,Y)'" \ xor_pattern.mp4
Scan Lines & CRT Effects
Scan Lines
# Horizontal scan lines ffmpeg -i input.mp4 \ -vf "drawgrid=w=iw:h=2:t=1:c=black@0.5" \ scanlines.mp4 # Heavier scan lines ffmpeg -i input.mp4 \ -vf "drawgrid=w=iw:h=4:t=2:c=black@0.7" \ heavy_scanlines.mp4 # RGB scan lines (trinitron style) ffmpeg -i input.mp4 \ -vf "drawgrid=w=3:h=ih:t=1:c=black@0.3" \ rgb_scanlines.mp4
CRT Simulation
# Full CRT effect ffmpeg -i input.mp4 \ -vf "\ gblur=sigma=0.5,\ drawgrid=w=iw:h=2:t=1:c=black@0.4,\ vignette=PI/4,\ eq=saturation=1.2:contrast=1.1,\ lenscorrection=k1=0.1:k2=0.1,\ noise=c0s=5:c0f=t" \ crt_effect.mp4
Interlacing Effects
# Add interlacing artifacts ffmpeg -i input.mp4 \ -vf "interlace=scan=tff,fieldorder=bff" \ interlaced.mp4 # Fake interlacing (comb effect) ffmpeg -i input.mp4 \ -vf "tinterlace=merge" \ comb_effect.mp4
Mirror & Kaleidoscope
Mirror Effects
# Horizontal mirror (left to right) ffmpeg -i input.mp4 \ -vf "crop=iw/2:ih:0:0,split[a][b];[b]hflip[b];[a][b]hstack" \ mirror_h.mp4 # Vertical mirror (top to bottom) ffmpeg -i input.mp4 \ -vf "crop=iw:ih/2:0:0,split[a][b];[b]vflip[b];[a][b]vstack" \ mirror_v.mp4 # Quad mirror (kaleidoscope-lite) ffmpeg -i input.mp4 \ -vf "\ crop=iw/2:ih/2:0:0,split=4[a][b][c][d];\ [b]hflip[b];[c]vflip[c];[d]hflip,vflip[d];\ [a][b]hstack[top];[c][d]hstack[bottom];\ [top][bottom]vstack" \ quad_mirror.mp4
Combined Glitch Presets
Music Video Glitch
ffmpeg -i input.mp4 \ -vf "\ minterpolate='mi_mode=mci:mc_mode=aobmc':enable='lt(mod(t,2),0.2)',\ rgbashift=rh='3*sin(t*10)':bh='-3*sin(t*10)',\ lagfun=decay=0.9:enable='gt(mod(t,3),2.5)',\ noise=c0s=10:c0f=t:enable='lt(mod(t,5),0.3)'" \ -c:v libx264 -crf 18 music_glitch.mp4
Horror Glitch
ffmpeg -i input.mp4 \ -vf "\ eq=brightness=-0.1:contrast=1.2:saturation=0.7,\ chromashift=cbh='5*random(1)':crh='-3*random(1)',\ noise=c0s=15:c0f=a+t,\ tblend=all_mode=difference:all_opacity=0.1:enable='lt(mod(t,3),0.1)',\ drawgrid=w=iw:h=2:t=1:c=black@0.5" \ horror_glitch.mp4
Cyberpunk Glitch
ffmpeg -i input.mp4 \ -vf "\ eq=saturation=1.5:contrast=1.3,\ colorbalance=rs=0.2:bs=0.2,\ rgbashift=rh='-3':bh='3',\ drawgrid=w=iw:h=3:t=1:c=black@0.3,\ unsharp=5:5:1.5" \ cyberpunk.mp4
Analog TV Signal Loss
ffmpeg -i input.mp4 \ -vf "\ noise=c0s=50:c0f=t:enable='lt(mod(t,10),0.5)',\ chromashift=cbh='10*random(1)':enable='lt(mod(t,10),0.5)',\ eq=brightness='-0.3*lt(mod(t,10),0.5)'" \ signal_loss.mp4
Performance Tips
- geq is CPU-intensive - Use sparingly or on short clips
- minterpolate is slow - Consider reducing resolution first
- lagfun accumulates - May need periodic "reset" cuts
- Test on short clips before processing full videos
- Hardware encoding - Use NVENC/QSV for final encode after effects
# Process effects, then encode with hardware ffmpeg -i input.mp4 \ -vf "your_glitch_filters" \ -c:v rawvideo -f nut - | \ ffmpeg -i - \ -c:v h264_nvenc -preset p4 -cq 20 \ output.mp4
This guide covers FFmpeg glitch and distortion effects. For color grading see
ffmpeg-color-grading-chromakeyffmpeg-transitions-effects