optiputer networks
DESCRIPTION
OptIPuter Networks. Overview of Initial Stages to Include OptIPuter Nodes OptIPuter Networks OptIPuter Expansion. OPtIPuter All Hands Meeting February 6-7 UCSD. Compute + Data + Viz Grid: Building Block. Commodity GigE Switch. Generic OptIPuter node is one or more of: - PowerPoint PPT PresentationTRANSCRIPT
OptIPuter Networks
Overview of Initial Stages to Include
OptIPuter Nodes
OptIPuter Networks
OptIPuter Expansion
OPtIPuter All Hands Meeting
February 6-7
UCSD
Compute + Data + Viz Grid: Building Block
• Generic OptIPuter node is one or more of:– Cluster: 16 – 128 nodes (160GF – 1.2 TF)– Storage: 0.5TB – 10 TB– Visualization: Desktop, Wall, Immersive– Specialized data source/sink instruments
• Connected to other nodes via the OptIPuter Network
Commodity GigE Switch
switch switch
switchswitch
• Cluster – Disk
• Disk – Disk
• Viz – Disk
• DB – Cluster
• Cluster – Cluster
School of Med
Chemistry, Preuss, 6th College, Engineering, Arts
SDSCSIO, SDSU
High-end
DB
S
erver
switch
ChiaroRouter
Nodes Connected by Optical Routers or Switches
UCSD OptIPuter
½ Mile
Initial UCSD OptIPuter Deployment
SIO
SDSC
CRCA
Phys. Sci -Keck
SOM
JSOE Preuss
6th College
Phase I, Fall/Winter 2002-03
Phase II, 2003
SDSCAnnex
To Other OptIPuter Sites
Central hub/router
Node M
UCSD OptIPuter Fiber and Nodes
SDSC90 Nodes
JSOE24 Nodes
Keck Chem39 Nodes
SIO IGPP Viz
BIRN SOM32 Nodes + EM
SDSC Annex16 Nodes
Preuss Viz
SDSU Viz
CRCA Viz
6th College Viz
4
4
4
4 BondedGigE Linksover fiberpairs
4
4
4
4
4
UCI
CalREN-HPRNational Light Rail
OptIPuter UCSD / San Diego Network
1/12/03 -grh
Chiaro
4 GigE
GigE
Teraburst
Teraburst
1
OC-48/192
Future
4
UCSD OptIPuter Network Expansions
• Initial anticipated network deployments (Fall 2002, Winter 2003)– 4 GigE connections (using 4 fiber pairs) to high performance nodes– 1 GigE connections (using 1 fiber pair) to other nodes– Each node's OPPP (OptIPuter Point of Presence) is initially a local GigE
switch with 4 bondable GigE (GBIC) uplinks– Above nodes uplinks connected to a central GigE aggregate switch– Above is a separate research network (not connected to campus network)
• During 2003, upgrade OptIPuter network as required …– N x 10 GigE (over existing fiber pairs?, N could be up to 4) ... and/or– Add lambda gear to conserve fiber (supporting 1 or 10 GigE x N lambdas) – Add management to support dynamic lambda allocation – Add edge (of OptIPuter) router for connecting to campus or remote
OptIPuter sites
• Late 2003 and 2004– Interconnect multiple OptIPuter sites (NU, EVL, USC/ISI, UCI, …)– Expand network/lambda management to span sites
[Inter]-National OptIPuter Expansion
Internet 2Abilene(today)
SDSC90 Nodes
JSOE24 Nodes
Keck Chem39 Nodes
SIO IGPP Viz
BIRN SOM32 Nodes + EM
SDSC Annex16 Nodes
Preuss Viz
SDSU Viz
CRCA Viz
6th College Viz
4 Bonded GigELinks each
Cluster[s]
NWU32 Nodes
EVL32 Nodes
Cisco 6509
Foundry
Juniper
GlimmerGlass ONI DWDM ONI DWDM
Calient
Cisco 6509
Star LightChicagoEVL ChicagoUCSD
NWUChicago
LAC UICChicago
UCI
USC
ISI
U of Amsterdam
Amsterdam32 Nodes
Cisco 6509
Calient
2x OC-192
LAC16 Nodes
Foundry
FoundryLA POPI Wilshire
ISI1152 Nodes
ISI64 SMP
ISI32 Nodes
ISIxTB
CalREN-HPRNLR?
(tomorrow)
1/12/03 -grh
Chiaro
10GigE
OC-192
4 GigE
GigE
SDSU
Teraburst
Teraburst
OC-48/192
Future
San Diego
Los Angelas
ChicagoEurope
CalREN Fiber Paths
CalREN Southern California Paths
15808 Terminal, Regen or OADM site (OpAmp sites not shown)Fiber route
PITPIT
PORPOR
FREFRE
RALRAL
WALWAL
NASNASPHOPHO
OLGOLG ATLATL
CHICHI
CLECLE
KANKAN
OGDOGD
SACSAC BOSBOSNYCNYC
WDCWDC
STRSTR
DALDAL
DENDEN
LAXLAX
SVLSVL
SEASEA
SDGSDG
NLR Footprint and Layer 1 Topology
New OptIPuter Participate and Nodes
• Research requirements – Contribute to existing OptIPuter goals as defined in
– OptIPuter Proposal – NSF Statement of Work
– Involve collaboration with existing OptIPuter PI and Co-PIs– Expand OptIPuter project to address new areas of research
– Supported by new proposals and resources– Providing new application drivers– Providing integration with new infrastructure– Expanding the optical network testbed
• Technical and operational requirements – Network connectivity
– Dedicated research fiber/lambda path to OptIPuter network– Appropriate network electronics to support connectivity
– Ability to work within experimental network environment • Financial requirements
– Impose no financial burden on existing grant– Develop support for
– hardware– manpower – connectivity to OptIPuter network