Mobile Image Processing at London Web Perf Meetup, 2016 - Speaker Deck

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MOBILE IMAGE PROCESSING https://ﬂic.kr/p/qRJKUz Tim Kadlec | @tkadlec

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https://ﬂic.kr/p/aShfSP

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https://ﬂic.kr/p/oPn6ZV

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10% of photos ever 2012 Source: http://time.com/3445111/#1

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Source: http://time.com/3445111/#1 1839 2012

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Source: http://time.com/3445111/#1 1839 2012 2011 172 years, 90%

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Source: http://time.com/3445111/#1 1839 2012 2011 1 year, 10%

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Source: http://time.com/3445111/#1 1839 2012 2011 1 year, 10%

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0.1 Source: http://www.kpcb.com/internet-trends

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1.8 billion photos PER DAY Source: http://www.kpcb.com/internet-trends

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360px x 510px

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1300px x 1024px

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Request Decode Copy to GPU Display

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Request Copy to GPU Display Decode

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Request Copy to GPU Display Decode

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Source: May 1st run of http://httparchive.org 46% JPG 29% PNG 23% GIF 2% Other

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RGB to YUV Chroma Subsampling DCT / Quantization Huffman Encoding

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RGB to YUV Chroma Subsampling DCT / Quantization Huffman Encoding

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RGB to YUV Chroma Subsampling DCT / Quantization Huffman Encoding

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RGB to YUV Chroma Subsampling DCT / Quantization Huffman Encoding

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RGB to YUV Chroma Subsampling DCT / Quantization Huffman Encoding

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YUV to RGB Chroma Upsampling iDCT / Dequantization Huffman Decoding

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Resized: 7.86ms

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Resized: 7.86ms Double: 26.34ms

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Resized: 7.86ms Double: 26.34ms Large: 266.49ms

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Resized: 7.86ms Double: +235.1% Large: +3291.7%

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2GB RAM Quad-core 1.5 GHz Krait CPU Adreno 320 GPU

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Resized: 30.38ms

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Resized: 30.38ms Double: 102.77ms

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Resized: 30.38ms Double: 102.77ms Large (6x): 1,534.99ms

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Resized: 30.38ms Double: +238.3% Large (6x): +4952.6%

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RESIZE IMAGES

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“HUGER”

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ROOTER

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ROUTER

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COLOUR

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COLOUR

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Request Display Decode Copy to GPU

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Request Display Decode Copy to GPU

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Request Copy to GPU Display Store in memory Decode

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R: 45 G: 48 B: 46 A: 1 R: 177 G: 167 B: 157 A: 1 R: 190 G: 187 B: 181 A: 1

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W x H x 4

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1300px x 1024px

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1300 x 1024 x 4

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5,324,800 1300 x 1024 x 4

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5.1 MB 1300 x 1024 x 4

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360 x 510 x 4

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734,400

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- 734,400 5,324,800 4,590,400

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4.38 MB

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“…25% of new Android phones have only 512MB of RAM.” Jen Fitzpatrick VP of product management for Google Maps

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270px x 936px 987 kb

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RESIZE IMAGES

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COLOR

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600px x 600px 200px x 200px

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550px x 550px 150px x 150px

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(600 x 600 - 550 x 550) x 4 = 230,000 wasted bytes

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(200 x 200 - 150 x 150) x 4 = 70,000 wasted bytes 230,000 wasted bytes

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70,000 wasted bytes 230,000 wasted bytes

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700px 1200px 200px

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1200px 200px 700px

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MEMORY BATTERY LIFE OF DEVICE CPU/GPU OVERHEAD

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iDCT / Dequantization Huffman Decoding Chroma Upsampling YUV to RGB

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iDCT / Dequantization Huffman Decoding Chroma Upsampling YUV to RGB

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Luma (light) Chroma (color)

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Y CB CR

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Chroma Subsampling

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J : a : b

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4 : a : b

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4 : 4 : 4

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4

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4 4

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4 4 4 8 total

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4 : 2 : 2

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4

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4 2

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2 2 4 4 total (50% savings)

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4 : 1 : 1

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4

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4 1

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4 1 1 2 total (75% savings)

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4 : 2 : 0

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4

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4 2 0 2 total (75% savings)

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Request Decode Copy to GPU Display

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Request Decode Copy to GPU Display Decode

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(W x H x 3) - (W x H x SUBSAMPLE_LEVEL x 2)

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RGBA 5,324,800 4:4:4 3,993,600 4:2:2 2,662,400 4:2:0 1,996,800 1300px x 1024px

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62.5% memory savings 4:2:0 Source: http://time.com/3445111/#1

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https://ﬂic.kr/p/aaThYm

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https://ﬂic.kr/p/aaThYm

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Source: May 1st run of http://calendar.perfplanet.com/2015/why-arent-your-images-using-chroma-subsampling/ 39.3% 4:2:0 0.9% Other 59.7% 4:4:4

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> 26MB

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Browser OS

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Browser OS Psst….need some memory?

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Browser OS Yeah, I’ll take some of that.

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iDCT / Dequantization Huffman Decoding Chroma Upsampling YUV to RGB

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Resized: 30.38ms

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Resized: 5.62ms

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Resized: 5.62ms Double: 102.77ms

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Resized: 5.62ms Double: 27.74ms

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Resized: 5.62ms Double: 27.74ms Large (6x): 1534.99ms

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Resized: 5.62ms Double: 27.74ms Large (6x): 462.11ms

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Resized: 5.62ms Double: +393.6% Large (6x): +8122.6%

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MICRO-OPTIMIZATIONS?

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“…as bandwidth grows, and as processing power grows, and as browsers get better we just keep filling everything up. ” Jeff Veen

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NETWORK MEMORY BATTERY LIFE OF DEVICE CPU/GPU OVERHEAD

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RESIZE IMAGES 1

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RESIZE IMAGES 1 2 SMALL BREAKPOINTS FOR LARGE IMAGES

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RESIZE IMAGES 1 2 META VIEWPORT IS YOUR FRIEND 3 SMALL BREAKPOINTS FOR LARGE IMAGES

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RESIZE IMAGES 1 2 META VIEWPORT IS YOUR FRIEND 3 USE 4:2:0 SUBSAMPLING 4 SMALL BREAKPOINTS FOR LARGE IMAGES

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THANK YOU Tim Kadlec | @tkadlec