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

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Presentation transcript:

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

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