A 10Gbps SMPTE 292M compatible optical interface

1. A 10Gbps SMPTE 292M compatible optical interface July.13.2005 Sony Corporation

2. Basic Concept for the interface • Shares same structure as 1.5Gb/s SDI. • A low delay real-time interface with timing reference signals up to 10Gb/s. • Transmission length up to 2 km. • Adopts existing transmission module. • Uses “XFP” designed for 10Gb-E or Fibre channel • Primary payloads. • 4k2k D-Cinema image • 1080/50P and 1080/60P HDTV image • Up to 5 channels of 1.5Gb/s SDI

3. Real-Time Synchronous Interface • Clock Frequency • Fck = 74.25 MHz144 = 10.692GHz • Complies with S274M digital representation. • Locked to 74.25MHz Image Sampling clock. • 7.2 times Fck with S292M ( 1.5Gb/s SDI ) • I/O stream for the interface is 1.5Gb/s SDI. • SMPTE 292M or SMPTE 372M can be embedded. • 1.5Gb/s Timing Reference Signals are completely maintained through 10Gb/s SDI.

4. Description Specification Dimension 78188mm Power Consumption 2 W(Transceiver) LASER wavelength 1,310 nm Transmission module for 10Gbps • XFP MSA v3.1 XFP is used for • OC192/STM-64 9.95 Gb/s • 10 Gigabit FC 10.5 Gb/s • ITU-T G.709 10.7 Gb/s • IEEE802.3ae 10.3 Gb/s (10 Gigabit Ethernet ) And… • 10Gb/s-SDI 10.69Gb/s

5. Trend of XFP market price  This forecast is derived from one of Japanese manufacturer.

6. Applications beyond 1.5Gb/s • Applicable image formats

7. 1.5Gb/s HD  5ch. (1080/50~60i) 3Gb/s HD  2ch. (1080/50~60P) 7.7 Gb/s DCDM (4k  2k/24P) Timing Reference Signal 10Gb/s fiber Byte Array Formatter 8B/10B Encoder Serializer Sync inserter E to O ( XFP ) 1.5Gb/s SDI  N 10Gb/s fiber 1.5Gb/s SDI  N O to E ( XFP ) Deserializer Sync separator 8B/10B Decoder SDI Stream generator Timing Reference Signal Block diagram for the 10Gbps interface

8. 1 Line 280 sample 1,920 sample 10bit each for Y and C SDI data EAV HANC SAV Active Video 10bit -> 8bit array 350 2,400 Byte array 8bit x 2 stream EAV HANC SAV Active Video 8B/10B Encode 350 2,400 10bit x 2 stream Coded data EAV HANC SAV Active Video x 5 channels ( 10 stream total ) 35k 240k 41.8k 10G serial data EAV HANC SAV Active Video Stuffing 1 bit 316,800 bit Line structure of 1.5Gb/s SDI@30Hz Note: 10.692×109 bit/s  30 frame  1125 line = 316,800 bit/line

9. 4k2k @24Hz DCDM Mapping DCDM Level 1 DCDM level 3  4 Map to S372M  4 ( S292M  8 ) Map to 10Gb/s interface

10. 1 Line ( 8192 pixel x 3 = 24,576 sample ) Image data for a line X0 Y0 Z0 X1 Y1 …… X8191 Y8191 Z8191 12bit TRS / ANC addition 12bit EAV HANC SAV Active Video 24,576 sample 1,824 sample 12bit -> 8bit array-> 8B/10B Encode Coded data 10bit EAV HANC SAV Active Video 2,736 36,864 27,360 368,640 10G serial data EAV HANC SAV Active Video 1 bit 396,000 bit 4k2k @24Hz Line structure Note: 10.692×109 bit/s  24 frame  1125 line = 396,000 bit/line

11. 4k2k @24Hz Frame structure Sample number 26,399 24,576 24,575 0 1 41 Data for Line 1 42: Line number : 1121 1122 1125 1,824 sample 24,576 sample

12. Experimental Hardware  Every component used in the hardware is a commercial product.

13. Transmission performance • 24h transmission test with 2km fiber was completed with no error.

14. Summary • Practical optical interface for 10 Gb/s image transmission was confirmed by experiments. • All Formats defined in S274M ( e.g. 4:4:4, 1080/60P ) and 4k2k D-Cinema image can be transmitted. • Error free transmission over 2km has been confirmed. • No exclusive component is needed for the interface. • Estimated hardware cost would be around twice as much as current 1.5Gb/s SDI. Is the interface worth standardizing?