OpenCable™ Is this the future…? The Birth of OpenCable™ In September of 1997, CableLabs and its members established OpenCable,. a project aimed at obtaining interoperable set-tops. “The lure of billion-dollar markets that can only be tapped with standards-based gear is doing wonders for the previously non-existent colaborative spirit of cable operators.” Brian Robinson, Contributing Editor tele.com Magazine, Apr,98 The OpenCable™ Initiative To develop interoperability among set-tops from multiple vendors for use in two-way cable networks. OpenCable™ is consistent with, and furthers the goals of, Section 629 of the Telecommunications Act of 1996 that requires competitive availability of navigation devices OpenCable™ was established to develop the key interface specifications for the use of advanced digital set top box terminals in broadband two-way cable networks Telecommunications Act of 1996 “The Commission shall, in consultation with appropriate industry standard-setting organizations, adopt regulations to assure the commercial availability of equipment used by consumers to access multichannel video programming from vendors not affiliated with any multichannel video programming distributor.” Goals of OpenCable™ Competitive set-top box marketplace Scaleable STB design New services Retail availability Branding OpenCable™ Specification Process Industry consensus. Open spec writing process - Cable MSOs - Vendor companies - CableLabs Submission to standards bodies - SCTE, ITU, etc. Bilateral MSO/vendor negotiations. Consensus Areas MPEG-2 Harmony Agreement for Security. DOCSIS Cable Modem Services will be implemented at the middleware layer: HTML, CGI, JavaScript, etc. OpenCable will not specify a single microprocessor or operating system. Instead, it will spell out "rules of the road" for operating system vendors to follow. OpenCable™ RFI Respondents Microsoft NextLevel, Inc. Scientific-Atlanta Group(IBM, Pioneer Electronics, PowerTV, Sun, Toshiba) Scientific-Atlanta Intel Group (Cisco, Netscape, Network Computer Inc., (NCI) Oracle, Thomson CE Intel/NCI Oracle/NCI/Netscape Thomson CE/NCI Sony Thomson Sun (OpenTV) Samsung Pioneer Digital ACTV/Sarnoff IBM (IP issues only) Criterion Software Lucent Technologies SCM Microsystems Zenith Electronics Worldgate Communications Wink Communications Texas Instruments Oh no…Mr Bill!! Microsoft has been maneuvering furiously to influence the design of the new set -top boxes that will help bring the Internet to the nation's living rooms through cable wires. -- The Wall Street Journal Application Programming Interfaces The purpose of defining APIs is to enable the cable MSOs to purchase and deploy the nextgeneration set-top box, while ensuring their ability to keep costs low, choose between flexible architectures, maintain a multi-vendor, modular environment, and to not have to compromise on feature sets and functionality. Extra! Extra! AT&T Merges With TCI… The Telecom Industry Is Giddy... Is This Broadband’s Validation? OpenCable™ Interfaces OC-H1 Operations OC-H2 Internet Content Video Content OC-N Headend Security Module(s) Applications Other Content OC-H3 OC-C2 OC-C1 Display Remote Other Headends Supporting Software & Hardware ASTB OC-C3 Q. How does OpenCable™ account for High Definition Television? HDTV is foreseen as a key component of the cable television's programming service for the future. The cable industry is format agnostic on HDTV. So, the OpenCable™ boxes will pass through any of the formats approved for advanced television by the Advanced Television Systems Committee. The industry intends to pass signals without impairing either the audio or video quality to a HDTV set. The cable industry through CableLabs has been involved in the HDTV process since its inception Key Elements of the OpenCable™ Interface MPEG-2 format for digital cable television signals IEEE Standard 1394-1995 as the link between set-top boxes and digital devices – peer to peer communication – data transfer rates of 400Mbps 64/256QAM OpenCable™ Set-Tops OpenCable™ set-top boxes will be based on high performance microprocessors with real-time operating systems. OpenCable™ will not specify a single microprocessor or operating system. Instead, it will spell out "rules of the road" for operating system vendors to follow. Most interactive services will be implemented at the middleware layer using existing open Internet specifications, including HTML, CGI, JavaScript, and popular plug-ins. Standardization “In recent years, standardization has been a huge intangible glowering above the seemingly unlimited potential of advanced services over cable’s HFC networks…” LK Hamilton Communications Technology, May,1998 “Critical Harmony” technology, such as the agreed upon modulation and MPEG formats, has been tested. The Harmony core decryptor has been designed and initial testing has been performed. GI and SA are in the process of implementing an architecture that will allow an operator to use DigiCipher II and PowerKEY in the same system. Possibilities Possibilities... OpenCable™ Consumer Models Basic TV Users – reception of digital and analog programs TV Plus Users – Basic plus graphics and central processing power TV and PC Users – Dual use TV/PC, such as pc card with MCNS modem and digital tv for simultaneous use General Instrument OpenCable Devices The Current Crop DCT-1000: Digital Interactive Consumer Terminal DCT 1000 Offers real-time interactivity for revenue-generating applications such as: impulse PPV, video-on-demand, Internet access, educational services and more Expands channel capacity: 64QAM for the DCT-1000, 64/256QAM modulation for the DCT-1200. Provides improved audio/video quality: MPEG-2 decoding technology / Dolby Digital Audio. Enables popular onscreen programming guides, menus and navigators. Supports downloadable third party software applications through an open architecture. Enables interactive applications such as Internet access, VOD, community networking, electronic commerce, and more. DCT 1000 Equipped with either STARVUE II RF return path or STARFONE telephone return path modem. Backward compatible with existing analog systems. Clear analog capability (standard) Analog descrambling (optional) Forward-upgradable via Application Interface Port (AIP) which opens door for future revenue-enhancing products and services. Easily upgradable TV Pass™ Card security capability. Able to interoperate with other DCT models to provide maximum flexibility in deploying digital networks. The Next Generation DCT-5000: The Advanced Interactive Digital Set-Top DCT 5000 Builds upon GI's digital interactive platform to provide a powerful processing and networking platform for advanced digital applications High-powered processing platform High-powered central processor 3D and animation capable graphics engine High volume internal memory Field upgradable memory architecture Built-in internal IDE hard drive for local storage capability (optional) High-end networking capabilities TDMA return path for dedicated upstream bandwidth Dual digital tuner to enable watch & talk/surf capability Built-in MCNS compliant cable modem DCT 5000 Powerful applications enabler for advanced revenue generating services Enables operators to choose their operating system to best meet their service deployment needs Supports OpenCable software interfaces such as JavaScripting and HTML to further enable applications development Additional interfaces to offer operators maximum flexibility in their digital service deployments 1394 (FireWire) interface (optional) Universal Serial Bus to provide connection for peripherals such as keyboards, joysticks, printers, etc. Complete compatibility with currently installed base of GI digital settops Industry-wide, high-volume platform Attracts more developer interest Drives down product costs quickly OpenCable™ OpenCable will be the umbrella under which everything will happen in digital services. The cable industry’s confidence in its digital future seems unlimited. This is the future… A TCI/ Saxman Production Presented by Chris Dickhoff of Plano Copyright 1998 All Rights Reserved