mihai lucian cristea, on behalf of scarie team university of amsterdam terena conference ‘10,...
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Looking at the Sky through Clouds
Mihai Lucian Cristea, on behalf of SCARIe teamUniversity of Amsterdam
TERENA CONFERENCE ‘10, Vilnius, 1 June 2010
eVLBI on the Grid: SCARIe
Problems when running SCARIe on Grid
Workflow management: WS-VLAM
Experiments
Conclusions
Overview
eVLBI
eVLBI on the Grid:SCARIe
Telescopes
Bring the data from telescopes:Current: 4x256MBpsMid-target: 16x1GbpsFuture scenario: 32x4Gbps
Correlator
Input nodes
Correlator nodes
Output node
Result
Software Correlator Architecture Research and Implementation for e-VLBI
Requirement: constant throughput
Optimizing the SCARIe application on Grid
Jitter due to network congestion
Telescope
Correlator
Input node
Correlator nodes
Output node
80% 80% 95% 80%
Jitter due to network overload at ingress
2
3
1
NE
Specific services to applications:◦ Only the App knows how to optimally use the
resources
Solutions to meet the specific network demands:◦ Schedule network resources (e.g., parallelize the
link usage, not only the CPU usage, tradeoffs link connectivity vs. energy budget)
◦ Application controls the network resources
Network as a service in Grid
NetBroker-Topology-Bandwidth
NetBroker-Topology-Bandwidth
Grid NGrid 1
GridBroker-CPU-Storage
GridBroker-CPU-Storage
WS-VLAM
Actuator Profiler
Scheduler
experiment
2
13
4 5
0
WS-VLAM
App.2App.1
ACsNEs
App.4App.3
Workflow management: WS-VLAM
Workflow management: WS-VLAM
Experiments: Testbed
DAS1
DAS3
DAS5
DAS7
10.1.0.27
10.1.0.29
10.1.0.31
10.1.0.33
10.1
.0.x
100M
bps S
witc
h
DAS2
DAS4
DAS6
DAS8
10.1.0.30
10.1.0.32
10.1.0.34
10.1.0.28
IXDP2850
1Gbps 10.10.0.32
10.10.0.30
10.10.0.28
10.10.0.34
10.10.0.31
10.10.0.29
10.10.0.27
10.10.0.33
Network Broker
DAS1
DAS3
DAS5
DAS7
10.1.0.27
10.1.0.29
10.1.0.31
10.1.0.33
10.1
.0.x
100M
bps S
witc
h
DAS2
DAS4
DAS6
DAS8
10.1.0.30
10.1.0.32
10.1.0.34
10.1.0.28
IXDP2850
1Gbps 10.10.0.32
10.10.0.30
10.10.0.28
10.10.0.34
10.10.0.31
10.10.0.29
10.10.0.27
10.10.0.33
Network Broker
W1
W2
W3
W4
R1
R2
R3
R4
A
B
C
D
E
Experiments
Results
Playback Demos:http://staff.science.uva.nl/~gvlam/wsvlam/demos/wsvlam-dynamic-bw.htmlhttp://staff.science.uva.nl/~gvlam/wsvlam/demos/wsvlam-vlc-demo.html
Close interactions between applications and networks enables better usage of resources
We support it in Grids by enabling networks as a service
When network resources are not transparent to applications, the interfaces between sensors, networks, and computational resources in the Grid can be managed in order to achieve an optimal interworking
Conclusions