DWDM-RAM:DARPA-Sponsored Research for

Data Intensive Service-on-Demand Advanced Optical Networks

DWDMRAM

DWDMRAM

Data@LIGHTspeed

The Data Intensive App Challenge: Emerging data intensive applications in the field of HEP,astro-physics, astronomy, bioinformatics, computational chemistry, etc., require extremely high performance andlong term data flows, scalability for huge data volume,global reach, adjustability to unpredictable traffic behavior, and integration with multiple Grid resources.

Response: DWDM-RAM An architecture for data intensive Grids enabled by next generation dynamic optical networks, incorporating new methods for lightpath provisioning. DWDM-RAM is designed to meet the networking challenges of extremely large scale Grid applications. Traditional network infrastructure cannot meet these demands, especially, requirements for intensive data flows

Data-Intensive Applications

DWDM-RAM

Abundant Optical Bandwidth

PBs Storage

Tbs on single fiber strand

Optical Abundant Bandwidth Meets Grid

The DWDM-RAM architecture identifies two distinct planes over the dynamic underlying optical network: 1) the Data Grid Plane that speaks for the diverse requirements of a data-intensive

application by providing generic data-intensive interfaces and services and 2) the Network Grid Plane that marshals the raw bandwidth of the underlying

optical network into network services, within the OGSI framework, and that matches the complex requirements specified by the Data Grid Plane.

At the application middleware layer, the Data Transfer Service (DTS) presents an interface between the system and an application. It receives high-level client requests, policy-and-access filtered, to transfer specific named blocks of data with specific advance scheduling constraints.

The network resource middleware layer consists of three services: the Data Handler Service (DHS), the Network Resource Service (NRS) and the Dynamic Lambda Grid Service (DLGS). Services of this layer initiate and control sharing of resources.

DWDM-RAM Architecture

DataCenter

1

n

1

n

DataCenter

Data-Intensive Applications

Dynamic Lambda, Optical Burst, etc., Grid services

Dynamic Optical Network OMNInet

DataTransfer Service

Basic NetworkResource

Service

NetworkResource Scheduler

Network Resource Service

DataHandlerService

Information S

erviceApplication MiddlewareLayer

Network ResourceMiddlewareLayer

Connectivity and Fabric Layers

OGSI-ification API

NRS Grid Service API

DTS API

Optical path control

DWDM-RAM Architecture

Application

Fabric“Controlling things locally”: Access to, & control of, resources

Connectivity

“Talking to things”: communication (Internet protocols) & security

Resource

“Sharing single resources”: negotiating access, controlling use

Collective

“Coordinating multiple resources”: ubiquitous infrastructure services, app-specific distributed services

Data TransferService

NetworkResource

Service

Data Path ControlService

Layered DWDM-RAM Layered Grid

’s

Application

Optical ControlPlane

Application MiddlewareLayer

Network ResourceMiddlewareLayer

Connectivity &Fabric Layer

OGSI-ification API

NRS Grid Service API

DTS API

DWDM-RAM vs. Layered Grid Architecture

Optical Control Network

Optical Control Network

Network Service Request

Data Transmission Plane

OmniNet Control PlaneODIN

UNI-N

ODIN

UNI-N

Connection Control

L3 router

L2 switch

Data storageswitch

DataPath

Control

DataPath Control

DATA GRID SERVICE PLANEDATA GRID SERVICE PLANE

1 n

1

n

1

n

DataPath

DataCenter

ServiceControl

ServiceControl

NETWORK SERVICE PLANENETWORK SERVICE PLANE

GRID Service Request

DataCenter

DWDM-RAM Service Control Architecture

4x10GE

Northwestern U

OpticalSwitchingPlatform

Passport8600

ApplicationCluster

• A four-node multi-site optical metro testbed network in Chicago -- the first 10GE service trial!• A test bed for all-optical switching and advanced high-speed services• OMNInet testbed Partners: SBC, Nortel, iCAIR at Northwestern, EVL, CANARIE, ANL

ApplicationCluster

OpticalSwitchingPlatform

Passport8600

4x10GE

StarLight

OPTera Metro5200

ApplicationCluster

OpticalSwitchingPlatform

Passport8600

4x10GE8x1GE

UIC

CA*net3--Chicago

OpticalSwitchingPlatform

Passport8600

Closed loop

4x10GE8x1GE

8x1GE

8x1GELoop

OMNInet Core Nodes

Fiber

KM MI1* 35.3 22.02 10.3 6.43* 12.4 7.74 7.2 4.55 24.1 15.06 24.1 15.07* 24.9 15.58 6.7 4.29 5.3 3.3

NWUEN Link

Span Length

CAMPUSFIBER (16)

CAMPUSFIBER (4)

GridClusters10/100/

GIGE

10 GE

10 GE

To Ca*Net 4

Lake Shore

Photonic Node

S. Federal

Photonic Node

W Taylor SheridanPhotonic

Node 10/100/GIGE

10/100/GIGE

10/100/GIGE

10 GE

Optera5200

10Gb/sTSPR

Photonic Node

PP

8600

10 GEPP

8600

PP

8600

Optera5200

10Gb/sTSPR

10 GE

10 GE

Optera5200

10Gb/sTSPR

Optera5200

10Gb/sTSPR

1310 nm 10 GbEWAN PHY interfaces

10 GE

10 GE

PP

8600

…

EVL/UICOM5200

LAC/UICOM5200

INITIALCONFIG:10 LAMBDA(all GIGE)

StarLightInterconnect

with otherresearchnetworks

10GE LAN PHY (Dec 03)

TECH/NU-EOM5200

CAMPUSFIBER (4)

INITIALCONFIG:10 LAMBDAS(ALL GIGE)

Optera Metro 5200 OFA

NWUEN-1

NWUEN-5

NWUEN-6NWUEN-2

NWUEN-3

NWUEN-4

NWUEN-8 NWUEN-9

NWUEN-7

Fiber in use

Fiber not in use

5200 OFA

5200 OFA

Optera 5200 OFA

5200 OFA

• 8x8x8 Scalable photonic switch• Trunk side – 10 G WDM

• OFA on all trunks

OMNInet

Data Management ServicesOGSA/OGSI compliant, capable of receiving and understanding application requests, have complete knowledge of network resources, transmit signals to intelligent middleware, understand communications from Grid infrastructure, adjust to changing requirements, understands edge resources, on-demand or scheduled processing, support various models for scheduling, priority setting, event synchronization

Intelligent Middleware for Adaptive Optical NetworkingOGSA/OGSI compliant, integrated with Globus, receives requests from data services and applications, knowledgeable about Grid resources, has complete understanding of dynamic lightpath provisioning, communicates to optical network services layer, can be integrated with GRAM for co-management, architecture is flexible and extensible

Dynamic Lightpath Provisioning ServicesOptical Dynamic Intelligent Networking (ODIN), OGSA/OGSI compliant, receives requests from middleware services, knowledgeable about optical network resources, provides dynamic lightpath provisioning, communicates to optical network protocol layer, precise wavelength control, intradomain as well as interdomain, contains mechanisms for extending lightpaths through E-Paths - electronic paths, incorporates specialized signaling, utilizes IETF – GMPLS for provisioning, new photonic protocols

DWDM-RAM Components

Network and Data Transfers scheduled• Data Management schedule coordinates network, retrieval, and sourcing services (using their schedulers)• Scheduled data resource reservation service (“Provide 2 TB storage between 14:00 and 18:00 tomorrow”)

Network Management has own schedule• Variety of request models:

• Fixed – at a specific time, for specific duration• Under-constrained – e.g. ASAP, or within a window

Auto-rescheduling for optimization• Facilitated by under-constrained requests• Data Management reschedules for its own requests or on request of Network Management

Design for Scheduling

• Request for 1/2 hour between 4:00 and 5:30 on Segment D granted to User W at 4:00

• New request from User X for same segment for 1 hour between 3:30 and 5:00

• Reschedule user W to 4:30; user X to 3:30. Everyone is happy.

Route allocated for a time slot; new request comes in; 1st route can be rescheduled for a later slot within window to accommodate new request

4:30 5:00 5:304:003:30

W

4:30 5:00 5:304:003:30

X

4:30 5:00 5:304:003:30

WX

Example: Lightpath Scheduling

0.5s 3.6s 0.5s 174s 0.3s 11s

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End-to-end Transfer Time

20GB File TransferSet up: 29.7s

Transfer: 174.0sTear down: 11.3s

20GB File Transfer