CineGrid for Digital Cinema and Beyond : CineGrid for Digital Cinema and Beyond
Tom DeFanti
Research Scientist
California Institute for Telecommunications and Information Technology
University of California, San Diego
Distinguished Professor Emeritus of Computer Science
University of Illinois at Chicago
The CineGrid Initiative: The CineGrid Initiative
CineGrid is an initiative to provide media professionals access to global cyber-infrastructure capable of carrying ultra-high performance digital media using the photonic networks, middleware, transport protocols and collaboration tools originally developed for scientific research, visualization, and Grid computing.
In the process, “learn by doing,” train the next generation, and cultivate global inter-disciplinary communities to help advance the state of the art
CineGrid is people, facilities, networks and a not-for-profit organization
Economic Impact of Cinema in California � Major Employment from Movie Industry in California by County : Economic Impact of Cinema in California Major Employment from Movie Industry in California by County In 2004, more than 236 new movies were produced in the State of California.
In 2005 movie production provided employment for over 245,000 Californians, with an associated payroll of more than $17 billion.
Typical big movies each spend more than $60 million on production, have a long-term $200 million economic impact, create more than 900 full-time jobs, and yield $11 million in state sales taxes and income taxes when fully made in California. http://www.google.com/maps?q=http://research.calit2.net/a2i/ca.kmz
CENIC Already Connects �California Schools and Research Labs: CENIC Already Connects California Schools and Research Labs Calit2
UCI USC SFSU Calit2
UCSD Systems developed for CineGrid can be applied to scientific visualization and distance learning in many fields
Useful information exchange between communities looking at “extreme” digital media problems from different perspectives
CineGrid demonstrations will focus developers, driving a virtuous cycle of “learning by doing”
The CineGrid Node at UCSD/Calit2: The CineGrid Node at UCSD/Calit2 200 Seats, 8.2 Sound, Sony SXRD 4K projector, SGI Prism w/21TB, 10GE connectivity, NTT JPEG 2000 codecs
The CineGrid Node at Keio University, Tokyo Japan: The CineGrid Node at Keio University, Tokyo Japan SXRD-105
4K Projector
Imagica 4K
Film Scanner Sony 4K Projectors Olympus
4K Cameras NTT JPEG2000 Codec
SAGE OptIPortal Software: �10 Wireless Laptop Users All Pushing Their Desktops to the EVL OptIPortal--Goal is a Distributed Gigapixel in 2007: SAGE OptIPortal Software: 10 Wireless Laptop Users All Pushing Their Desktops to the EVL OptIPortal--Goal is a Distributed Gigapixel in 2007 Source: Luc Renambot, EVL A possible model for 4K workflow?
CineGrid Infrastructure: Los Angeles Seattle CineGrid Cisco 6506
10GigE Cisco NLR Wave
1& 10 GigE CENIC Waves
IEEAF Wave via PNWGP/TLEX
CAVEwave (CENIC and NLR via PNWGP) CineGrid Infrastructure Sunnyvale CalIT2
San Diego Cisco is building two 10 GigE "Cisco Waves” on NLR on the West Coast and switches for access points in San Diego, Los Angeles, Sunnyvale, & Seattle for CineGrid CENIC is making available persistent 1 GigE access ports in San Diego, Los Angeles, Sunnyvale, & San Francisco for CineGrid and the fiber for 2x10GigE between UCSD and LA Via GLIF, CineGrid extends to Japan via Seattle & Chicago; to Canada via Seattle & Chicago;
to Europe via Chicago & Amsterdam.
Further extension likely to China, Korea, Singapore, India, New Zealand, Australia, others. Tokyo Chicago Toronto JGN2
CA*net4
CineGrid Drivers: CineGrid Drivers High-performance media is historically driven by three markets
1) Entertainment, media, art and culture
2) Science, medicine, education and research
3) Military, intelligence, security and police
All three are in digital convergence and all need:
Fast networking with similar profiles
Access shared instruments, specialized computers and massive storage
Collaboration tools for distributed, remote teams
Robust security to protect intellectual property
Upgraded systems to allow higher quality, greater speed, more distributed applications
A next generation of trained professionals
CineGrid Target Applications: CineGrid Target Applications Store-and-forward secure content delivery
Streaming secure content transmission
Pre-production collaborative design & planning
Studio and remote production of sound and picture
Digital dailies, interactive viewing & mark-up
Distributed post production of audio/video
Digital film scanning and restoration
Digital media archiving
Remote calibration and quality control of audio/video
Education of next generation professionals These and other CineGrid applications will challenge the engineering of networked systems at every level
DCI Digital Cinema Specification�2005: DCI Digital Cinema Specification 2005 “DIGITAL CINEMA INITIATIVES (DCI) ANNOUNCES FINAL OVERALL SYSTEM REQUIREMENTS AND SPECIFICATIONS FOR DIGITAL CINEMA
Agreement Gives Manufacturers of Digital Projectors and Theater Equipment One Universal Standard in Creating the Next Generation of Cinemas (Hollywood, CA - July 27, 2005)
Digital Cinema Initiatives, LLC (DCI) is a joint venture of Disney, Fox, Paramount, Sony Pictures Entertainment, Universal and Warner Bros. Studios. DCI's primary purpose is to establish and document voluntary specifications for an open architecture for digital cinema that ensures a uniform and high level of technical performance, reliability and quality control.”
Image format: 2048x1080 (2K) and 4096x2160 (4K)
Color: 12-bits/color, 4:4:4, SMPTE XYZ
Frame rate: 24fps or 48fps for stereo
Compression: JPEG 2000 up to maximum of 250 Mbps for distribution
Encryption: AES 128 for Digital Cinema Package; SHA-2 (256bit) for Key
Watermarking: invisible injection of time/screen ID in projected image
More: TV and Motion Picture Bit Rates�(Data from Laurin Herr, Pacific Interface, Inc.): More: TV and Motion Picture Bit Rates (Data from Laurin Herr, Pacific Interface, Inc.)
Slide13: Test your existing network connection to Calit2, for example.
Use IPERF several times to test UDP and TCP performance.
If performance is sub-gigabit/s, use NLR and CENIC, for example, to connect to Calit2. Engineering CineGrid Example You
Slide14: Create a new vlan for your local network
This will bypass local firewalls, expose local switches’ capabilities, motivate new fiber/copper runs, allow fat UDP
Remember, GigE is more than most campuses or businesses connect to the outside. Engineering CineGrid: 2 You
Slide15: Either extend this new vlan to Calit2 or route this local vlan to a shared vlan with Calit2.
This obviously takes great cooperation among the institutions and circuit owners.
CineGrid is ALL about arranging cooperation.
Engineering CineGrid: 3 You
Slide16: Ensure all vlans support Maximum Transmission Unit (mtu) of 9216 (“jumbo frame enabled”).
Ensure all physical interfaces have mtu 9216 support as well. Engineering CineGrid: 4 You
Slide17: Set up at least one IP interface to the vlan.
Test the end-to-end connection again with IPERF. IP interface Engineering CineGrid: 5 You
Slide18: Send / receive content IP interface Engineering CineGrid: Finale Source: Brian Dunne, Calit2 You
CineGrid.org Starting in 2007: CineGrid.org Starting in 2007 CineGrid will be established as a non-profit international membership organization administratively based in California, starting early 2007.
To support members’ research, CineGrid will organize network testbeds prepared to host a variety of experimental digital media projects designed to require very high bandwidth with appropriate security safeguards between a limited number of “trusted” users and systems around the globe.
CineGrid will periodically organize inter-disciplinary workshops and demonstrations to share results and identify new avenues of research. Education and training of next-generation media professionals is our explicit goal.
Thank You Very Much!: Thank You Very Much! Our planning, research, and education efforts are made possible, in major part, by funding from:
US National Science Foundation (NSF) awards ANI-0225642, EIA-0115809, and SCI-0441094
State of California, Calit2 UCSD Division
State of Illinois I-WIRE Program, and major UIC cost sharing
Argonne National Laboratory and Northwestern University for StarLight and I-WIRE networking and management
National Lambda Rail, Pacific Wave and CENIC
NTT Network Innovations Lab
Cisco Systems, Inc.
Pacific Interface, Inc.
CineGrid Networking�As Prototyped by the OptIPuter Project: CineGrid Networking As Prototyped by the OptIPuter Project 4K JPEG2000 compressed video is 500Mb/s—peaks to a gigabit/s
Uncompressed needs 6Gb/s or more
Most campus networks use 10-100Mb/s lans to labs. Some have 1Gb/s.
Most campus networks have 155Mb/s, 622Mb/s or 1Gb/s connections
Internet connectivity is usually 10s to 100s of Mb/s
Internet2 connectivity is usually 100s of Mb/s to 1Gb/s
A few campuses have 10Gb/s connectivity to Internet2 and/or NLR
Future connections will widely support 10Gb/s, but not today
However, bandwidth is not the only issue
Need to use protocols that handle the bandwidth (UDP, not TCP)
It’s rude to use large-flow UDP on shared networks
Firewalls are a problem; large-flows are often shut down
Need fiber/copper to the end device(s) from the campus main switch
So, at this point, we use virtual local area network (vlan) “layer2” tech
Arguably not scalable, but works, controllable by GMPLS
MPLS has been shown to work as well (with big core routers)