henp sig austin, tx september 27th, 2004shawn mckee the ultralight program ultralight: an overview...
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HENP SIG Austin, TX September 27th, 2004 Shawn McKee UltraLight is a program to explore the integration of cutting-edge network technology with the grid computing and data infrastructure of HEP/Astronomy The program intends to explore network configurations from common shared infrastructure (current IP networks) thru dedicated optical paths point-to-point. A critical aspect of UltraLight is its integration with two driving application domains in support of their national and international eScience collaborations: LHC-HEP and eVLBI- Astronomy The Collaboration includes: —Caltech —Florida Int. Univ. —MIT —Univ. of Florida —Univ. of Michigan What is UltraLight? ― UC Riverside ― BNL ― FNAL ― SLAC ― UCAID/Internet2TRANSCRIPT
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
The UltraLight Program
UltraLight: An Overview and Update
Shawn McKee
University of Michigan
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Topics
• Introduction: What is the UltraLight Program?
• History
• Program Goals and Details
• Current Status and Summary
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
• UltraLight is a program to explore the integration of cutting-edge network technology with the grid computing and data infrastructure of HEP/Astronomy
• The program intends to explore network configurations from common shared infrastructure (current IP networks) thru dedicated optical paths point-to-point.
• A critical aspect of UltraLight is its integration with two driving application domains in support of their national and international eScience collaborations: LHC-HEP and eVLBI-Astronomy
• The Collaboration includes:— Caltech— Florida Int. Univ.— MIT — Univ. of Florida— Univ. of Michigan
What is UltraLight?
― UC Riverside― BNL― FNAL― SLAC― UCAID/Internet2
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
Some History…
• The UltraLight Collaboration was originally formed in Spring 2003 in response to an NSF Experimental Infrastructure in Networking (EIN) RFP in ANIR
• After not being selected, the program was refocused on LHC/HEP and eVLBI/Astronomy and submitted to “Physics at the Information Frontier” (PIF) in MPS at NSF
• Collaboration was notified at the end of 2003 that the PIF program was being postponed 1 year. Suggested that proposals be redirected to the NSF ITR program.
• ITR Deadline was February 25th, 2004.• We were selected for funding and official started on
September 15, 2004!
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
HENP Network Roadmap
Table 1: Bandwidth Roadmap (Gbps) for Major HENP Network Links Year Production Experimental Remarks
2001 0.155 0.622 – 2.5 SONET/SDH
2002 0.622 2.5 SONET/SDH; DWDM; GigE Integration
2003 2.5 10 DWDM; 1 & 10 GigE Integration
2005 10 2-4 10 Switch, Provisioning
2007 2–4 10 ~10 10 (and 40) 1st Gen. Grids
2009 ~10 10 (or 1–2 40) ~5 40 (or 20–50 10) 40 Gbps Switching
2011 ~5 40 (or ~20 10) ~5 40 (or 100 10) 2nd Gen. Grids, Terabit networks
2013 ~Terabit ~Multi-Terabit ~Fill one fiber
LHC Physics will require large bandwidth capability over a globally distributed network. The HENP Bandwidth Roadmap is shown in the table below:
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Architecture
UltraLight envisions extending and augmenting the existing grid computing infrastructure (currently focused on CPU/storage) to include the network as an integral component.
A second aspect is strengthening and extending “end-to-end” monitoring and planning
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
Workplan and Phased Deployment
• UltraLight UltraLight envisions a 4 year program to deliver a new, high-performance, network-integrated infrastructure:
• Phase I will last 12 months and focus on deploying the initial network infrastructure and bringing up first services
• Phase II will last 18 months and concentrate on implementing all the needed services and extending the infrastructure to additional sites
• Phase III will complete UltraLightUltraLight and last 18 months. The focus will be on a transition to production in support of LHC Physics and eVLBI Astronomy
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Network: PHASE I
• Implementation via “sharing” with HOPI/NLR
• MIT not yet “optically” coupled
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Network: PHASE II
• Move toward multiple “lambdas”
• Bring in BNL and MIT
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Network: PHASE III
• Move into production
• Optical switching fully enabled amongst primary sites
• Integrated international infrastructure
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Network
• UltraLight is a hybrid packet- and circuit-switched network infrastructure employing ultrascale protocols and dynamic building of optical paths to provide efficient fair-sharing on long range networks up to the 10 Gbps range, while protecting the performance of real-time streams and enabling them to coexist with massive data transfers.
• Circuit switched: “Intelligent photonics” (using wavelengths dynamically to construct and tear down wavelength paths rapidly and on demand through cost-effective wavelength routing) are a natural match to the peer-to-peer interactions required to meet the needs of leading-edge, data-intensive science.
• Packet switched: Many applications can effectively utilize the existing, cost effective networks provided by shared packet switched infrastructure. A subset of applications require more stringent guarantees than a best-effort network can provide, and so we are planning to utilize MPLS as an itermediate option
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
UltraLight Optical Exchange Point
• L1, L2 and L3 services• Interfaces
— 1GE and 10GE— 10GE WAN-PHY (SONET friendly)
• Hybrid packet- and circuit-switched PoP— Interface between packet- and circuit-switched networks
• Control plane is L3• Locations: Los-Angeles, Geneva, Chicago (in the future)
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
MPLS Topology• Current network engineering
knowledge is insufficient to predict what combination of “best-effort” packet switching, QoS-enabled packet switching, MPLS and dedicated circuits will be most effective in supporting these applications.
• We will use MPLS and other modes of bandwidth management, along with dynamic adjustments of optical paths and their provisioning, in order to develop the means to optimize end-to-end performance among a set of virtualized disk servers, a variety of real-time processes, and other traffic flows.
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
MPLS deployment
• Compute path from one given node to another such that the path does not violate any constraints (bandwidth/administrative requirements)
• Ability to set the path the traffic will take through the network (with simple configuration, management, and provisioning mechanisms)
— Take advantage of the multiplicity of waves/L2 channels across the US (NLR, HOPI, Ultranet and Abilene/ESnet MPLS services)
• VPLS: Single broadcast domain for users who want to deploy their own L2 private network
• EoMPLS will be used to build layer2 paths• ?? natural step toward the deployment of GMPLS ??
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
SC2004
Targets: Targets: 100 Gbps of aggregated throughput to Caltech & SLAC/FNAL booths100 Gbps of aggregated throughput to Caltech & SLAC/FNAL booths 1-2 GByte/s of disk to disk transfers.1-2 GByte/s of disk to disk transfers.
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
Summary and Status
• UltraLight promises to deliver the critical missing component for future eScience: the integrated, managed network
• We have a strong team in place, as well as a detailed plan, to provide the needed infrastructure and services for production use by LHC turn-on at the end of 2007
• Currently we are ramping up to “turn on” UltraLight• The SC2004 demo will help jumpstart UltraLight and
provide a glimpse of what we hope to enable• We plan to augment the proposal thru additional
grants to enable us to reach our goal of having UltraLight be a pervasive and effective infrastructure for LHC physics
HENP SIG • Austin, TX • September 27th, 2004Shawn McKee
Questions?
Questions? (or Answers)?