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Indian Contribution towards Parallel Processing
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Transcript of Indian Contribution towards Parallel Processing
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INDIAN CONTRIBUTION
TOWARDS PARALLEL
PROCESSING
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INTRODUCTION
• The main fields that need advanced computing are:• Computational Fluid Dynamics
• Design of large structures
• Computational physics and Chemistry
• Climate Modeling
• Vehicle Simulation
• Image processing
• Signal Processing
• Oil reservoir Management
• Seismic data processing
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Major Indian parallel computing
projects
◦ PARAM(from CDAC, Pune)
◦ ANUPAM(from BARC, Bombay)
◦ MTPPS(from BARC, Bombay)
◦ PACE(from ANURAG, Hyderabad)
◦ CHIPPS(from CDOT, Bangalore)
◦ FLOSOLVER(from NAL, Bangalore)
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PARAM
Centre for Development of Advanced
Computing
India’s first super computer – PARAM
8000
1 GF (Giga Flops) Parallel Machine
64 node prototype i.e. had 64 CPU’s
PARAM is Sanskrit and means
“Supreme”
Programming environment called
PARAS
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Based on Transputers 800/805
Theoretically peak performance was 1
giga flops
Practically provided 100 to 200 Mflops
Hardware upgrade was given to
PRAM 8000 to produce the new
PARAM 8600
Hardware up gradation was the
integration of i860 with PARAM 8000
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PARAM 9000
Mission was to deliver teraflops range
parallel system
This architecture emphasizes flexibility
PARAM 9000SS is based on
SuperSarc Processors
Operating speed of processor is 75
Mhz
PARAM 10000 has a peak speed of
6.4 GFlops
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PARAM Padma
Introduced in April 2003
Top speed of 1024 Gflops ( 1 Tflops)
Used IBM Power4 CPU’s
Operating system was IBM AIX 5
First Indian computer to break 1 Tflops
barrier
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PARAM Yuva
Unveiled in November 2008
The maximum sustainable speed is 38.1 Tflops
The peak speed is 54 Tflops
Uses Intel 73XX with 2.9 Ghz each.
Storage capacity of 25 TB upto 200 TB
PARAM Yuva II released in February 2013
Peak performance of 524 Tflops
Uses less power compared to its predecessor
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PARAM Yuva
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ANUPAM
Developed by Bhabha Atomic
Research Centre, Bombay
200 Mflops of sustained computing
power was needed by them.
Based on standard MultiBus II i860
hardware
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ANUPAM Pentium Super Computer Placed
at BARC
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ANUPAM 860
First developed in December 1991
It made use of i860 microprocessor @ 40Mhz
Overall sustained speed of 30 Mflops
Upgraded version released on August 1992 has a computational speed of 52 Mflops
Further upgradation provided a sustained speed of 110 Mflops which was released in Novemeber 1992
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Later up gradations provided a
sustained computational speed of 400
Mflops which was equivalent to CRAY
Y/MP Vector Supercomputers
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ANUPAM Alpha
Developed in July 1997 having a
sustained speed of 1000 Mflops
Made use of Alpha 21164
microprocessor @ 400 Mhz
This system used complete servers /
workstations as compute node instead
of processor boards.
Updated version released in March
1998 had a sustained speed of 1.5
Gflops.
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ANUPAM Pentium
Started in January 1998
Main focus of its development is the
minimization of cost
The first version ANUPAM Pentium
II/4 gave a sustained speed of 248
Mflops
ANUPAM Pentium II was expanded in
march 1999 with a sustained speed of
1.3Gflops
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In April 2000 the system was
upgraded to Pentium III/16 which gave
a sustained speed of 3.5 Gflops
ANUPAM PIV 64 node has a
sustained speed of 43 Gflops
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Applications
All the three versions of ANUPAM was introduced to solve the computational problems at BARC.
The main fields that ANUPAM being used are◦ Molecular Dynamic Simulation
◦ Neutron Transport Calculation
◦ Gamma Ray Simulation by Monte Carlo Method
◦ Crystal Structure Analysis
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PACE
Developed by ANURAG (Advanced
Numerical Research and Analysis
Group) under DRDO
Developed as a result of R & D in
parallel computing
Uses VLSI
Started in 1998
Motorolla 68020 processor @ 16.67
MHz
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Processor for Aerodynamic
Computation and Evaluation (PACE)
Used to design computational Fluid
Dynamics needed in aircraft
Developed version is Pace Plus 32
used in missile development
More advanced version is PACE++
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ANAMICA - Software
ANURAG’s Medical Imaging and
Characterization Aid (ANAMICA)
Medical visualization software for data
obtained from MRI , CT and
Ultrasound
Has both two dimensional and three
dimensional visualization
Used for medical diagnosis etc
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DHRUVA 3
Set up by DRDO for solving mission
critical Defence Research and
Development applications
Used in design of aircraft
Eg: Advanced Medium Combact
Aircraft (AMCA)
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FLOSOLVER
Started in 1986 by National Aerospace
Laboratories (NAL)
Used in numerical weather prediction
Varsha GCM could predict the
weather accurately in two weeks
advance uses FS
Based on 16 bit Intel 8086 and 8087
processors
Updated versions were released to
increase the performance
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CHIPPS
Developed to have indigenous digital
switching technology
Established in rural exchanges and
secondary switching areas
Speed of 200 Mflops is acquired