Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Masaki Hirabaru and Yasuhiro Koyama PFLDnet 2006 Febrary 2, 2006 International e-VLBI Experience.

Published byEgbert Woods Modified over 8 years ago

Similar presentations

Presentation on theme: "1 Masaki Hirabaru and Yasuhiro Koyama PFLDnet 2006 Febrary 2, 2006 International e-VLBI Experience."— Presentation transcript:

1 1 Masaki Hirabaru and Yasuhiro Koyama {masaki,koyama}@nict.go.jp PFLDnet 2006 Febrary 2, 2006 International e-VLBI Experience

2 2 e-VLBI (Very Long Baseline Interferometry) e-VLBI geographically distributed observation, interconnecting radio antennas over the world ASTRONOMY GEODESY delay radio signal from a star correlator A/D clock A/D Internet clock ~Gbps A B A B d Large Bandwidth-Delay Product Network issue

3 3 Observing Bandwidth  (Precision of Time Delay) -1  (SNR) 1/2  Data rate Wave Length / Baseline Length  Angular Resolution Baseline Length  (EOP Precision) -1 VLBI - Characteristics Faster Data Rate = Higher Sensitivity Longer Distance = Better Resolution

4 4 Recent e-VLBI System Developments K5 by NICT ADS1000 (1024Msample/sec 1ch 1bit or 2bits) ADS2000 (64Msample/ch·sec, 16ch, 1bit or 2bits) IP-VLBI Board (~16Msample/ch·sec, ~4ch, ~8bits) PC VSI-H Correlator other DAS Internet PC-VSI Board (Supports VSI-H specifications) VSI-E VTP (RTP/RTCP)

5 5 e-VLBI Data Transfer Real-time e-VLBI – flat-rate live data streaming Internet Synchronize Correlation Traditional e-VLBI – file transfer Carry a disk to the nearest station to put on-line

6 6 Typical Network Usage Traditional e-VLBI (off-line) - File transfer e.g. 64 Mbps x 24 hours = 691 GB e.g. 512 Mbps x 2 hours = 460 GB Quasi-Real-time - Turnaround time ( observation + transfer + correlation) e.g. 4.5 hours for UT1-UT Periodical (e.g. once a week) - Utilize available b/w Real-time - two one-way streaming - loss allowance depending on S/N (~0.1% OK) - time allowance to retransmit (~ sec?) - e.g. Huygens tracking

7 7 Transfer Examples NICT, JP - Haystack, US (Aug. 2003) ~100 Mbps by TCP [parallel] [test] JIVE, NL – NICT, Japan (Dec. 2004) by HUT ~400Mbps by tsunami CISRO, AU – JIVE, NL (Jan. 2005) by AARNET ~450 Mbps by TCP over UCLP [test] Haystack,US - NICT, JP (Jan. 2005) ~700 Mbps by TCP [no fringe] NICT, JP - Haystack, US (SC2005) ~512Mbps by VTP (RTP) via GMPLS

8 8 TCP Experience A single flow TCP did not get the performance as expected because the network is designed with a short queue (cheap?) L2/L3 switch. The queue holds for ~1ms (Routers ~100 ms or more) RouterSwitch 1Gbps (10G) 100Mbps (1G) b) RouterSwitch a) Queue ~100p VLANs Queue ~10000p Bottleneck

9 9 UDP Experience Difficulty in rate-control: Bursts from data source CPU/ MEM PCI Board Network one sec. interval shaped? Difficulty in identifying a location of lost packets along a path

10 10 Future e-VLBI Data Transfer Correlate among many combinations concurrently to get more precise data (like a virtual huge antenna) multicast and automated

Download ppt "1 Masaki Hirabaru and Yasuhiro Koyama PFLDnet 2006 Febrary 2, 2006 International e-VLBI Experience."

Similar presentations

e-VLBI Deployments with Research Internet

e-VLBI Deployments with Research Internet
SCARIe: Realtime software correlation Nico Kruithof, Damien Marchal.

SCARIe: Realtime software correlation Nico Kruithof, Damien Marchal.
Internet Measurement Conference 2003 Source-Level IP Packet Bursts: Causes and Effects Hao Jiang Constantinos Dovrolis (hjiang,

Internet Measurement Conference 2003 Source-Level IP Packet Bursts: Causes and Effects Hao Jiang Constantinos Dovrolis (hjiang,
E-VLBI down-under Tasso Tzioumis ATNF, CSIRO July 2005 Towards e-VLBI.

E-VLBI down-under Tasso Tzioumis ATNF, CSIRO July 2005 Towards e-VLBI.
Project Partners Project Collaborators The Council for the Central Laboratory of the Research Councils Funded by EPSRC GR/T04465/01 www.eslea.uklight.ac.uk.

Project Partners Project Collaborators The Council for the Central Laboratory of the Research Councils Funded by EPSRC GR/T04465/01
The CVN Real Time Correlator Zhang Xiuzhong, Chen Zhong Shanghai Astronomical Observatory China 4th e-VLBI Workshop Sydney 2005.7.

The CVN Real Time Correlator Zhang Xiuzhong, Chen Zhong Shanghai Astronomical Observatory China 4th e-VLBI Workshop Sydney
JIVE VLBI Network Meeting 15 Jan 2003 R. Hughes-Jones Manchester The EVN-NREN Project Richard Hughes-Jones The University of Manchester.

JIVE VLBI Network Meeting 15 Jan 2003 R. Hughes-Jones Manchester The EVN-NREN Project Richard Hughes-Jones The University of Manchester.
Traffic Characterization Dr. Abdulaziz Almulhem. Almulhem©20012 Agenda Traffic characterization Switching techniques Internetworking, again.

Traffic Characterization Dr. Abdulaziz Almulhem. Almulhem©20012 Agenda Traffic characterization Switching techniques Internetworking, again.
Current plan for e-VLBI demonstrations at iGrid2005 and SC2005 Yasuhiro Koyama *1, Tetsuro Kondo *1, Hiroshi Takeuchi *1, Moritaka Kimura, Masaki Hirabaru.

Current plan for e-VLBI demonstrations at iGrid2005 and SC2005 Yasuhiro Koyama *1, Tetsuro Kondo *1, Hiroshi Takeuchi *1, Moritaka Kimura, Masaki Hirabaru.
Ongoing e-VLBI Developments with K5 VLBI System Hiroshi Takeuchi, Tetsuro Kondo, Yasuhiro Koyama, and Moritaka Kimura Kashima Space Research Center/NICT.

Ongoing e-VLBI Developments with K5 VLBI System Hiroshi Takeuchi, Tetsuro Kondo, Yasuhiro Koyama, and Moritaka Kimura Kashima Space Research Center/NICT.
Chapter 4 Queuing, Datagrams, and Addressing

Chapter 4 Queuing, Datagrams, and Addressing
E-VLBI Development at Haystack Observatory Alan Whitney Chet Ruszczyk Kevin Dudevoir Jason SooHoo MIT Haystack Observatory 24 March 2006 EVN TOG meeting.

E-VLBI Development at Haystack Observatory Alan Whitney Chet Ruszczyk Kevin Dudevoir Jason SooHoo MIT Haystack Observatory 24 March 2006 EVN TOG meeting.
E-VLBI Development at Haystack Observatory Alan Whitney Chet Ruszczyk MIT Haystack Observatory 10 Jan 2006 IVS General Meeting Concepion, Chile.

E-VLBI Development at Haystack Observatory Alan Whitney Chet Ruszczyk MIT Haystack Observatory 10 Jan 2006 IVS General Meeting Concepion, Chile.
Electronic Transmission of Very- Long Baseline Interferometry Data National Internet2 day, March 18, 2004 David LapsleyAlan Whitney MIT Haystack Observatory,

Electronic Transmission of Very- Long Baseline Interferometry Data National Internet2 day, March 18, 2004 David LapsleyAlan Whitney MIT Haystack Observatory,
E-VLBI Development at Haystack Observatory 5 th Annual e-VLBI Workshop Haystack Observatory 20 September 2006 Alan R. Whitney Kevin Dudevoir Chester Ruszczyk.

E-VLBI Development at Haystack Observatory 5 th Annual e-VLBI Workshop Haystack Observatory 20 September 2006 Alan R. Whitney Kevin Dudevoir Chester Ruszczyk.
Current LBA Developments Chris Phillips CSIRO ATNF 13/7/2005.

Current LBA Developments Chris Phillips CSIRO ATNF 13/7/2005.
E-VLBI developments with the K5 VLBI system Koyama Yasuhiro *1, Kondo Tetsuro *1, Kimura Moritaka *1, Takeuchi Hiroshi *1, and Masaki Hirabaru *2 *1 Kashima.

E-VLBI developments with the K5 VLBI system Koyama Yasuhiro *1, Kondo Tetsuro *1, Kimura Moritaka *1, Takeuchi Hiroshi *1, and Masaki Hirabaru *2 *1 Kashima.
Masaki Hirabaru NICT The 3rd International HEP DataGrid Workshop August 26, 2004 Kyungpook National Univ., Daegu, Korea High Performance.

Masaki Hirabaru NICT The 3rd International HEP DataGrid Workshop August 26, 2004 Kyungpook National Univ., Daegu, Korea High Performance.
ICOM 6115©Manuel Rodriguez-Martinez ICOM 6115 – Computer Networks and the WWW Manuel Rodriguez-Martinez, Ph.D. Lecture 8.

ICOM 6115©Manuel Rodriguez-Martinez ICOM 6115 – Computer Networks and the WWW Manuel Rodriguez-Martinez, Ph.D. Lecture 8.
E-VLBI: Connecting the Global Array of Radio Telescopes through High-Speed Networks Participating U.S. organizations: MIT Haystack Observatory MIT Lincoln.

E-VLBI: Connecting the Global Array of Radio Telescopes through High-Speed Networks Participating U.S. organizations: MIT Haystack Observatory MIT Lincoln.

Similar presentations

Ads by Google