澳洲工作汇报(张海龙,新疆天文台) - Chinese Virtual Observatory

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Transcript 澳洲工作汇报(张海龙,新疆天文台) - Chinese Virtual Observatory 

中国科学院新疆天文台
China-VO and Astroinformatics 2013
2013.11.13-17 雅安
澳洲工作介绍
2013.5.20-2013.11.10
报告人:张海龙
单 位:中国科学院新疆天文台
二零一三年十一月
中国科学院新疆天文台
Outline:
ICRAR,MRO,MWA,IVEC
NGAS
GAVO
Our DC
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
ICRAR
The International Centre for Radio Astronomy Research is a collaborative centre
based in Perth, Western Australia.
Already achieving research excellence in
astronomical science and engineering, ICRAR has grown steadily since its launch in
September 2009.
MRO
The Murchison Radio-astronomy Observatory (MRO) is the home of the Australian
SKA Pathfinder (ASKAP) and the Murchison Widefield Array (MWA). It will shortly also
be the home of a significant part of the Square Kilometre Array (SKA) itself (South Africa
will also host part of the SKA). It is located in Western Australia’s Mid West,
approximately 300km north east of the coastal city of Geraldton, within the Shire of
Murchison. This outback region is roughly the size of the Netherlands with a resident
population of around 140 people and a population density of around one person for
every 350 sq.km. The centre of the 70 km radius circle defining the MRO is at
S26o42’15”, E 116o39’32”. The MRO and the surrounding landscape are protected
through federal legislation from any activities that might interfere with the operation of
radio telescopes within 150km of the core site. The establishment of this ‘Radio Quiet
Zone’ (RQZ) combined with a very low and sparse local population means the MRO is
the perfect place for constructing and operating the most sensitive radio telescopes the
world has ever seen.
中国科学院新疆天文台
MWA
The MWA consists of 2048 dual-polarization dipole antennas optimized for the 80-300
MHz frequency range, arranged as 128 "tiles", each a 4x4 array of dipoles.
The array has no moving parts, and all telescope functions including pointing are
performed by electronic manipulation of dipole signals, each of which contains
information from nearly four steradians of sky centered on the zenith. Each tile performs
an analog beamforming operation, narrowing the field of view to a fully steerable 25
degrees at 150 MHz.
The majority of the tiles (112) are scattered across a roughly 1.5 km core region,
forming an array with very high imaging quality, and a field of view of several hundred
square degrees at a resolution of several arcminutes. The remaining 16 tiles are placed
at locations outside the core, yielding baseline distances of about 3 km to allow higher
angular resolution for solar burst measurements.
中国科学院新疆天文台
中国科学院新疆天文台
ASKAP
ASKAP is designed to be a high speed survey instrument with high dynamic
range. This requires an extremely wide field-of-view interferometer with Phased
Array Feeds (PAFs). The PAF has a total of 188 elements, 94 in each of two
polarizations.
The specification for ASKAP is:
A total collecting area of approximately 4,000 square metres, from 36 antennas
each 12 metres in diameter
System temperature less than 50 K
Frequency range from 700 MHz to 1.8 GHz
300 MHz instantaneous bandwidth
36 independent beams, each of about 1 square degree, yield overlapping to a
30 square degree field-of-view at 1.4 GHz
Maximum baseline of approximately 6 km
Full cross-correlation of all antennas
Possible remote array station capability located in NSW, approximately 3,000
km from the core site.
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
IVEC
iVEC is an unincorporated joint venture between CSIRO, Curtin University, Edith
Cowan University, Murdoch University and the University of Western Australia
and is supported by the Western Australian Government.
Fornax
The SGI supercomputer comprises 96 nodes, each containing two 6-core Intel
Xeon X5650 CPUs, an NVIDIA Tesla C2075 GPU and 72 GB RAM, resulting in
a system containing 1152 cores and 96 GPUs.
Storage
Data Stores @ iVEC also includes the Petabyte Data Store (PB Store) which is
a scalable storage solution based on Sun’s SAM-QFS (Storage and Archive
Manager File System & Quick File System) software, and consists of a 70TB of
disk cache and a second 100TB file system. The SAM-QFS software automates
the migration and retrieval of files across multiple tiers of storage from the online
disk cache, to near-line tape storage, to offline tape archival. This system allows
researchers to see their complete directory hierarchy and have seamless
access to their files within a single file system. Each file that is placed on the
system has a copy written to two separate tapes. LTO4 and StorageTek
SL8500
中国科学院新疆天文台
中国科学院新疆天文台
NGAS
(Next
Generation
Archiving System)
ESO’s answer to the data
explosion challenge. It is an
integrated system consisting of
hardware and software.
Andreas wicenec
[email protected]
Research Winthrop Professor
UWA
data intensive research expert.
Specialisation: Data flow and
storage design and HPC
integration
中国科学院新疆天文台
NGAS, NG/AMS, NGAST????
•
•
•
•
Next Generation Archive System: ESO’s answer to the
data explosion challenge. It is an integrated system
consisting of hardware and software.
NG/AMS: Next Generation Archive Management System;
this is the NGAS software.
NGAST: The name of the ESO project leading to the
NGAS. Started in 2000. First prototype system installed on
La Silla in 2001. Now there are >100 NGAS servers in the
ESO Archive.
Never call something NG? True, but the intention is to
keep this at the forefront of technology.
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中国科学院新疆天文台
Scope of NGAS

Secure, scalable, distributed and affordable file
store.

Secure: Do not lose files.

Scalable: Be prepared for peta-bytes of data.

Distributed: Operate transparently across
physically and logically separated locations.

Affordable: TCO at least comparable to DVDs in
juke-boxes.

Lowest component of the archive.
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中国科学院新疆天文台
NGAS concepts

Distributed storage, but not global file system.

Almost complete separation of storage and
business logic:

NGAS stores many files on many media, which may
be distributed and moved around the globe.
 Knowledge and functionality to extract the contents,
do groupings and associations is somewhere else.

NGAS deals only with file names, IDs, sizes,
locations, media IDs, capacity…. And that
information is stored in a data base.
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中国科学院新疆天文台
NGAS concepts

No user knowledge required about the physical location of a given file.
In an operational environment there is one central access point
(master), which passes requests to the correct NGAS server using
HTTP proxy or HTTP redirect. Any server can be used as a master.

Ensure that there are always at least two copies on two different media
of any given file in the system.
» Special
commands for file and media removal.

Active health check of media and files.

Active consistency checks of media contents vs. DB.

NG/AMS uses modular plug-in architecture.
» Very
flexible and easy adjustments to hardware and environment
changes.
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中国科学院新疆天文台
Advanced NGAS features
•
Subscription service:
–One NGAS server can subscribe
to another.
Data flow
NGAS
Archiving
Subscription
Parallel cluster mirroring.
• Disk and file cloning.
• Processing plug-in.
• Power saving mode:
NGAS
•
NGAS
NGAS
NGAS
–Automatic sleep and wakeup system built in.
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中国科学院新疆天文台
NG/AMS Interfaces

All user I/F and APIs are based on HTTP.

Management information is kept in a DB.

Interfaces for five DBs.

Interface to syslog

E-mail notification services.

Message and config-file format is XML.
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中国科学院新疆天文台
NGAS as an Embedded System

NGAS is a tightly integrated system in order to be
ready for operations:
 Minimal
boot time
 Automated
 Hardware
monitoring
 Integration
 Media
boot and shutdown procedures
of raid controller
verification using access to on-disk BIOS
 Cluster
configuration
VirtualEnv
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中国科学院新疆天文台
Implementation

100% Python

about 25,000 lines + 15,000 lines of in-line
documentation

advanced system integration tests

two person team, plus some help from system
admin people.

additional code added for mirroring

Advanced fully automatic installation procedure.
中国科学院新疆天文台
Data Intensive
Research Pathfinder
Hierarchical Storage
Manager
中国科学院新疆天文台
What’s Unique?

Transparent global distribution of archival data.

Global mirroring service over slow networks

Fully traceable disk based data transfer

Very robust and flexible (plugins)

Full control of code

Used to store VLT, ALMA, MWA, VLA, eVLA and
VLBI data.

Supports processing inside archive
中国科学院新疆天文台
Where Does it Fit?
40T
MRO
MWA
IVEC-DC
Raw Visibilities 1Gb/s
80T
Raw Visibilities 10Gb/s
MRO
MWA
IVEC-DC
中国科学院新疆天文台
GAVO
(The German
Astrophysical Virtual
Observatory (GAVO)
Dr.
Markus Demleitner
Astronomisches Rechen-Institut
in Heidelberg.
Woring on the GAVO project, an
effort to contribute to Virtual
Observatory, e.g., through the
operation of the GAVO data
center and developing the
DaCHS multiprotocol server
suite.
http://www.tfiu.de/homepage/
[email protected]
中国科学院新疆天文台
GAVO (The German Astrophysical Virtual Observatory (GAVO)
GAVO is the German contribution to the IVOA (International Virtual
Observatory Association), the international effort to create and expand the
Virtual Observatory (VO). )
The goals of the Virtual Observatory are to allow or improve access to
astronomical data of all kinds (astrometry, photometry, spectroscopy, time
series,...), from everywhere, in well-defined protocols, let astronomers easily
discover, access and use data relevant to them, ensure that data does not
simply disappear, that it is properly described and can be accessed and
understood in the future, provide software to help astronomers to use all this.
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
中国科学院新疆天文台
Tier 0
Online processing
Online
archive
25M
Correlator
Nan Shan
PFB
Receiver
10Gb/s
Data
Capture
NGAS
Client
10Gb/s
Tier 2
Tier 1
1G/10Gbps
Mirrored Archive
(All Data)
Publish Data
1Gbps
Dedicated
Network
Qi Tai Site
Nan Shan
Other Places
MS Backup
Raw Data
NGAS
Client
Long-term archive
R
S
Q
A
VO
M
S
VO Based
WEB
Interface
Catalog
Data
Query
Web
XAO Headquarters
(Storage Arrays)
R
V
local storage
Computing
resources
Processed
Data
Scripting
UI
Image, Time sequence
HPC
XAO’s Future Data Archiving, Processing and Query System
Zhanghailong
中国科学院新疆天文台
ICRAR
NGAS
MRO
GAVO
MWA
OUR DC
Question?
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