• Welcome to TechPowerUp Forums, Guest! Please check out our forum guidelines for info related to our community.

Ranger Supercomputer Marks New Era for Petascale Science

malware

New Member
Joined
Nov 7, 2004
Messages
5,422 (0.74/day)
Location
Bulgaria
Processor Intel Core 2 Quad Q6600 G0 VID: 1.2125
Motherboard GIGABYTE GA-P35-DS3P rev.2.0
Cooling Thermalright Ultra-120 eXtreme + Noctua NF-S12 Fan
Memory 4x1 GB PQI DDR2 PC2-6400
Video Card(s) Colorful iGame Radeon HD 4890 1 GB GDDR5
Storage 2x 500 GB Seagate Barracuda 7200.11 32 MB RAID0
Display(s) BenQ G2400W 24-inch WideScreen LCD
Case Cooler Master COSMOS RC-1000 (sold), Cooler Master HAF-932 (delivered)
Audio Device(s) Creative X-Fi XtremeMusic + Logitech Z-5500 Digital THX
Power Supply Chieftec CFT-1000G-DF 1kW
Software Laptop: Lenovo 3000 N200 C2DT2310/3GB/120GB/GF7300/15.4"/Razer
Ranger, the most powerful supercomputing system in the world for open science research, today will be dedicated by the National Science Foundation (NSF) and the Texas Advanced Computing Center (TACC) at The University of Texas at Austin. This first-of-its-kind system entered full production on Feb. 4.


Ranger's deployment marks the beginning of the Petascale Era in high-performance computing (HPC) where systems will approach a thousand trillion floating point operations per second and manage a thousand trillion bytes of data.

Ranger is the largest HPC computing resource on the NSF TeraGrid, a nationwide network of academic HPC centers that provides scientists and researchers access to large-scale computing power and resources. Ranger will provide more than 500 million processor hours of computing time to the science community, performing more than 200,000 years of computational work over its four-year lifetime.

"Ranger is the first of the new 'Path to Petascale' systems that NSF provides to open science. It is out in front on the pathway to sustained petascale performance," said Daniel Atkins, director of the NSF's Office of Cyberinfrastructure. "This system and others to come underscore NSF's commitment to world-class, high-performance computing ensuring that the U.S. is a leader in computational science. No longer used by a handful of elite researchers in a few research communities on select problems, advanced computing has become essential to the way science and engineering research and education are accomplished." Ranger is a collaboration among TACC, The University of Texas at Austin's Institute for Computational and Engineering Sciences (ICES), Sun Microsystems, Advanced Micro Devices, Arizona State University and Cornell University. The $59 million award covers the system and four years of operating costs.

TACC Director Jay Boisseau said, "Ranger provides incredible new capabilities for computational researchers across the nation and world. Its computational power, memory and storage capacity greatly exceed anything the open science community has had access to. It takes tremendous expertise to deploy and support research on such a system as well as to use it effectively, but it is an awesome honor and responsibility for us at TACC. Together with our partners, we are excited about fulfilling the promise of Ranger by helping researchers achieve breakthrough science across domains and disciplines -discoveries that will really change the world as well as our understanding of it."

At more than one-half a petaflop of peak performance (504 teraflops), Ranger is up to 50,000 times more powerful than today's PCs, and five times more capable than any open-science computer available to the national science community. Ranger is built on the Sun Constellation System which combines ultra-dense, high-performance compute, networking, storage and software into an integrated general purpose system. Ranger comprises 3,936 compute nodes in a Sun Blade 6048 Modular System with 15,744 Quad-Core AMD Opteron processors, and Sun Fire x4500 servers providing 1.7 petabytes of storage. More information on the Sun Constellation System is available at: http://www.sun.com.

Ranger offers more than six times the performance of the previous largest system for open science research. The boost in performance offered by Ranger relative to the previously largest open science machine is comparable to reducing the flight time from New York to London to just one hour.

Ranger and other petascale systems to follow will address many of society's most pervasive grand challenges including global climate change, water resource management, new energy sources, natural disasters, new materials and manufacturing processes, tissue and organ engineering, patient-specific medical therapies, and drug design. These issues cannot be addressed or overcome without modeling and simulation.

"Our world is facing great challenges and grappling with big questions across a broad spectrum," said William Powers Jr., president of The University of Texas at Austin. "Advances in computer technology, like the new Ranger supercomputer at UT Austin, will help us manage and understand the vast streams of data flowing into our research. Ranger will attract the nation's leading researchers and accelerate their work to produce faster, more probing analyses of the information they generate. There is no question that Ranger's massive computing power will lead to some of the most significant discoveries of our time. We are pleased that UT Austin and the Texas Advanced Computing Center are playing a leadership role in this endeavor."

The award for Ranger represents the largest NSF grant given to The University of Texas at Austin.

Omar Ghattas, professor of geological sciences and mechanical engineering and director of the Center for Computational Geosciences at ICES, said computational scientists have been making the case for petascale systems for more than a decade.

"NSF has responded with an aggressive campaign to provide U.S. computational scientists with the most powerful open science systems in the world," Ghattas said. "The age of petascale computing - which began when Ranger went live on Feb. 4 - brings with it tremendous opportunities for addressing societal problems and boosting national competitiveness, as well as a tremendous responsibility to society to fulfill the promise of petascale computing. This is undoubtedly the most exciting time in history to be working as a computational scientist."

Ghattas leads a team that will produce the highest resolution models of convection in the Earth's mantle to date, enabling a better understanding of the evolution of tectonic deformation. Their work is emblematic of how larger HPC systems allow for more accurate simulations, finer-grained models, shorter time to results, better statistical analysis, higher-resolution visualization - in other words, bigger, better science.

The additional power, memory and storage of Ranger will enable new research in at least three ways: First, it will allow finer grids for resolution-starved problems, leading to more accurate solution of models. Second, it will permit additional physics to be incorporated into these models, leading to higher-fidelity simulations. Third, it will allow scientists to conduct parameter sweeps for very large-scale models, which are essential for data assimilation and uncertainty quantification, leading to better tools to support decision making.

Ninety percent of Ranger is dedicated to the TeraGrid (http://www.teragrid.org). Ten percent of Ranger's time is allocated by TACC, with five percent going to research projects at Texas higher education institutions, and five percent going to help industrial partners develop more advanced computational practices.

Any researcher at a U.S. institution can submit a proposal to request an allocation of cycles on the system. The request must describe the research, justify the need for such a powerful system to achieve new scientific discoveries and demonstrate that the proposer's team has the expertise to use the resource effectively. To submit a proposal to request an allocation, please visit the TeraGrid website.

View at TechPowerUp Main Site
 
Joined
Feb 12, 2007
Messages
1,192 (0.18/day)
Location
scotland
System Name spuds K8-X2
Processor amd athlon X2 4200+ toledo s939 2794mhz 254x11 1.4 vcore
Motherboard MSI K8N Neo4-F v1.0 (MS-7125) nforce4 sata2 mod, laptop cpu heatpipe copper nb cooler
Cooling akasa evo "blue" + 90mm fan, 2x120mm front, 250mm side, 120mm rear, 120mm in psu, pci slot exhaust.
Memory OCZ Platinum XTC DDR PC3200 4GB(4x1024) @254mhz 3-3-3-8 2T
Video Card(s) sapphire HD3870 512mb GDDR4 vf900cu, several ramsinks on components / nvidia 7300gt 256mb secondary
Storage hitachi 160gb (slightly fried) / hitachi 120gb ATA / Seagate 160gb / 2x ps3 seagate 60gb
Display(s) CTX EX1300F 20" flat CRT, 1280x1024@100hz / 19" benq FP91G X / 19" hanns-g (all free)
Case mesh server/gaming black case, 9x 5.25' drive bays, silvestone auto fan controller
Audio Device(s) onboard realtek alc850 7.1/soundblaster LIVE! ct4780 + kxaudio - sony home theatre surround
Power Supply winpower 650w, system draws around 470-500w under load(+all screens)
Software win7 64bit
Benchmark Scores ~16m trips/sec using mty trip generator. triple monitor gaming using SoftTH. 3840x1024
another supercomputer filled with opterons, :rockout:
 

Solaris17

Super Dainty Moderator
Staff member
Joined
Aug 16, 2005
Messages
27,098 (3.83/day)
Location
Alabama
System Name RogueOne
Processor Xeon W9-3495x
Motherboard ASUS w790E Sage SE
Cooling SilverStone XE360-4677
Memory 128gb Gskill Zeta R5 DDR5 RDIMMs
Video Card(s) MSI SUPRIM Liquid X 4090
Storage 1x 2TB WD SN850X | 2x 8TB GAMMIX S70
Display(s) 49" Philips Evnia OLED (49M2C8900)
Case Thermaltake Core P3 Pro Snow
Audio Device(s) Moondrop S8's on schitt Gunnr
Power Supply Seasonic Prime TX-1600
Mouse Razer Viper mini signature edition (mercury white)
Keyboard Monsgeek M3 Lavender, Moondrop Luna lights
VR HMD Quest 3
Software Windows 11 Pro Workstation
Benchmark Scores I dont have time for that.
that is just lovely. no fold for TPU!!
 
Joined
Dec 15, 2006
Messages
1,703 (0.26/day)
Location
Oshkosh, WI
System Name ChoreBoy
Processor 8700k Delided
Motherboard Gigabyte Z390 Master
Cooling 420mm Custom Loop
Memory CMK16GX4M2B3000C15 2x8GB @ 3000Mhz
Video Card(s) EVGA 1080 SC
Storage 1TB SX8200, 250GB 850 EVO, 250GB Barracuda
Display(s) Pixio PX329 and Dell E228WFP
Case Fractal R6
Audio Device(s) On-Board
Power Supply 1000w Corsair
Software Win 10 Pro
Benchmark Scores A million on everything....
They really just use this thing to play "Crysis," right?
 

cdawall

where the hell are my stars
Joined
Jul 23, 2006
Messages
27,680 (4.11/day)
Location
Houston
System Name All the cores
Processor 2990WX
Motherboard Asrock X399M
Cooling CPU-XSPC RayStorm Neo, 2x240mm+360mm, D5PWM+140mL, GPU-2x360mm, 2xbyski, D4+D5+100mL
Memory 4x16GB G.Skill 3600
Video Card(s) (2) EVGA SC BLACK 1080Ti's
Storage 2x Samsung SM951 512GB, Samsung PM961 512GB
Display(s) Dell UP2414Q 3840X2160@60hz
Case Caselabs Mercury S5+pedestal
Audio Device(s) Fischer HA-02->Fischer FA-002W High edition/FA-003/Jubilate/FA-011 depending on my mood
Power Supply Seasonic Prime 1200w
Mouse Thermaltake Theron, Steam controller
Keyboard Keychron K8
Software W10P
They really just use this thing to play "Crysis," right?

nah they are trying to play dirt they still probably aren't getting a good framerate :roll:
 
Joined
Dec 15, 2006
Messages
1,703 (0.26/day)
Location
Oshkosh, WI
System Name ChoreBoy
Processor 8700k Delided
Motherboard Gigabyte Z390 Master
Cooling 420mm Custom Loop
Memory CMK16GX4M2B3000C15 2x8GB @ 3000Mhz
Video Card(s) EVGA 1080 SC
Storage 1TB SX8200, 250GB 850 EVO, 250GB Barracuda
Display(s) Pixio PX329 and Dell E228WFP
Case Fractal R6
Audio Device(s) On-Board
Power Supply 1000w Corsair
Software Win 10 Pro
Benchmark Scores A million on everything....
They should stick Quad-Crossfire in each of the nodes. Can't they use GPU's now to compute data too?
 

kwchang007

New Member
Joined
Jan 27, 2007
Messages
3,962 (0.61/day)
Location
Severn, MD, USA.
Processor C2D T7200@2 ghz vcore: .9875
Motherboard generic laptop board
Cooling fan control and antec notebook cooler
Memory 2 GBs@ 533 mhz ddr2
Video Card(s) x1400 mobile, overclocked: 526mhz core/ 882mhz ddr
Storage 120 GB@ 5400 rpm fujitsu
Display(s) 15.4" 1440x900
Audio Device(s) integrated
Software vista 32 bit home premium
They should stick Quad-Crossfire in each of the nodes. Can't they use GPU's now to compute data too?

It's hard to program I believe. Also you have to go through the cpu anyways to "translate" the information from x86 (or 64) to w/e the gpus use. I think it's just more cost effective to stick a bunch of cpus in there.
 
Joined
Jun 17, 2007
Messages
7,336 (1.15/day)
Location
C:\Program Files (x86)\Aphexdreamer\
System Name Unknown
Processor AMD Bulldozer FX8320 @ 4.4Ghz
Motherboard Asus Crosshair V
Cooling XSPC Raystorm 750 EX240 for CPU
Memory 8 GB CORSAIR Vengeance Red DDR3 RAM 1922mhz (10-11-9-27)
Video Card(s) XFX R9 290
Storage Samsung SSD 254GB and Western Digital Caviar Black 1TB 64MB Cache SATA 6.0Gb/s
Display(s) AOC 23" @ 1920x1080 + Asus 27" 1440p
Case HAF X
Audio Device(s) X Fi Titanium 5.1 Surround Sound
Power Supply 750 Watt PP&C Silencer Black
Software Windows 8.1 Pro 64-bit
What ever happen to TRIPS, the 1,000,000,000,000 calculations per second processor by 2012? I thought thats what this would be about.
 

btarunr

Editor & Senior Moderator
Staff member
Joined
Oct 9, 2007
Messages
47,310 (7.52/day)
Location
Hyderabad, India
System Name RBMK-1000
Processor AMD Ryzen 7 5700G
Motherboard ASUS ROG Strix B450-E Gaming
Cooling DeepCool Gammax L240 V2
Memory 2x 8GB G.Skill Sniper X
Video Card(s) Palit GeForce RTX 2080 SUPER GameRock
Storage Western Digital Black NVMe 512GB
Display(s) BenQ 1440p 60 Hz 27-inch
Case Corsair Carbide 100R
Audio Device(s) ASUS SupremeFX S1220A
Power Supply Cooler Master MWE Gold 650W
Mouse ASUS ROG Strix Impact
Keyboard Gamdias Hermes E2
Software Windows 11 Pro
Almost 16K AMD Barcelona units :rockout:
.
.
.
.
.
.
.
They could've done it with 8K Harpertown units :wtf: but anyway, an impressive feat at the 0.5 PFlops monstrosity.
 

jbunch07

New Member
Joined
Feb 22, 2008
Messages
5,260 (0.85/day)
Location
Chattanooga,TN
Processor i5-2500k
Motherboard ASRock z68 pro3-m
Cooling Corsair A70
Memory Kingston HyperX 8GB 2 x 4GB 1600mhz
Storage OCZ Agility3 60GB(boot) 2x320GB Raid0(storage)
Display(s) Samsung 24" 1920x1200
Case Custom
Power Supply PC Power and Cooling 750w
Software Win 7 x64
can i buy one?
:respect: AMD
 

russianboy

New Member
Joined
Dec 9, 2005
Messages
1,799 (0.26/day)
Processor AMD 3500+ Venice at stock
Motherboard ECS K8T890-A
Memory 1 Gb Corsair Valueram CAS 3
Video Card(s) Connect3d X800 GTO OC'd to 551.25/551.25
Storage 4 mixed up drives
Display(s) Acer AL2216W 22"LCD
Case Generic noname crap
Audio Device(s) Realtec AC'97
Power Supply 500 watt Ultra PSU
Software Win2k Pro, XP, Ubuntu linux, and Vista
Wait, did AMD charge for those processors?

I'd like to see how much money AMD makes off of one of these, if any.
 

jbunch07

New Member
Joined
Feb 22, 2008
Messages
5,260 (0.85/day)
Location
Chattanooga,TN
Processor i5-2500k
Motherboard ASRock z68 pro3-m
Cooling Corsair A70
Memory Kingston HyperX 8GB 2 x 4GB 1600mhz
Storage OCZ Agility3 60GB(boot) 2x320GB Raid0(storage)
Display(s) Samsung 24" 1920x1200
Case Custom
Power Supply PC Power and Cooling 750w
Software Win 7 x64
im sure AMD gave them an insane discount for buying that many!
 
Joined
Dec 15, 2006
Messages
1,703 (0.26/day)
Location
Oshkosh, WI
System Name ChoreBoy
Processor 8700k Delided
Motherboard Gigabyte Z390 Master
Cooling 420mm Custom Loop
Memory CMK16GX4M2B3000C15 2x8GB @ 3000Mhz
Video Card(s) EVGA 1080 SC
Storage 1TB SX8200, 250GB 850 EVO, 250GB Barracuda
Display(s) Pixio PX329 and Dell E228WFP
Case Fractal R6
Audio Device(s) On-Board
Power Supply 1000w Corsair
Software Win 10 Pro
Benchmark Scores A million on everything....
Well, the sure cant sell em... they may as well give em away... hahaha.
 

kwchang007

New Member
Joined
Jan 27, 2007
Messages
3,962 (0.61/day)
Location
Severn, MD, USA.
Processor C2D T7200@2 ghz vcore: .9875
Motherboard generic laptop board
Cooling fan control and antec notebook cooler
Memory 2 GBs@ 533 mhz ddr2
Video Card(s) x1400 mobile, overclocked: 526mhz core/ 882mhz ddr
Storage 120 GB@ 5400 rpm fujitsu
Display(s) 15.4" 1440x900
Audio Device(s) integrated
Software vista 32 bit home premium
Almost 16K AMD Barcelona units :rockout:
.
.
.
.
.
.
.
They could've done it with 8K Harpertown units :wtf: but anyway, an impressive feat at the 0.5 PFlops monstrosity.

AMD is better than core 2 at server stuff because of HTT and it's better at floating point per clock than core 2.
 

hat

Enthusiast
Joined
Nov 20, 2006
Messages
21,747 (3.29/day)
Location
Ohio
System Name Starlifter :: Dragonfly
Processor i7 2600k 4.4GHz :: i5 10400
Motherboard ASUS P8P67 Pro :: ASUS Prime H570-Plus
Cooling Cryorig M9 :: Stock
Memory 4x4GB DDR3 2133 :: 2x8GB DDR4 2400
Video Card(s) PNY GTX1070 :: Integrated UHD 630
Storage Crucial MX500 1TB, 2x1TB Seagate RAID 0 :: Mushkin Enhanced 60GB SSD, 3x4TB Seagate HDD RAID5
Display(s) Onn 165hz 1080p :: Acer 1080p
Case Antec SOHO 1030B :: Old White Full Tower
Audio Device(s) Creative X-Fi Titanium Fatal1ty Pro - Bose Companion 2 Series III :: None
Power Supply FSP Hydro GE 550w :: EVGA Supernova 550
Software Windows 10 Pro - Plex Server on Dragonfly
Benchmark Scores >9000
Yeah but Intel loads thier processors up with cache to bring thier processor bus around the same level of performance.

It's like having one really fast cargo boat (AMD) that can make like 10 trips in the same time 10 normal cargo boats (Intel) can, but in the end the same amount of stuff gets shipped in the same amount of time.
 

ChillyMyst

New Member
Joined
Jan 20, 2008
Messages
551 (0.09/day)
Wait, did AMD charge for those processors?

I'd like to see how much money AMD makes off of one of these, if any.
Well, the sure cant sell em... they may as well give em away... hahaha.


id..ts, at server related stuff, or some common server tasks per clock amds barc chips are BETTER then intels versions, also note that for this kinda app the bugg has ZERO effect, same as with most servers, it dosnt need a bios patch, because they tend to use linux/unix based os's on them, those os's are compiled with the patch built in and it has zero effect on performance.

stop thinking like overclocking fanbois' and start thinking about the use they are being put to........


its like saying a celeron is better then a semperon because its core2 not k8/k10, when the benchmarks clearly show thats not true(look in the asus buying large order of sempy chips new thred, theres a review link)


as to the main artical, sweet, amd makes alot off of these server/super puter deals, thats why they are making $ off the barc chips dispite the desktop side not having hot sales to enthusists.

people need to stop ASSuming that whats true for an overclocking enthusist is true for every sagment of the market, its just not true, fact is that most of the market dosnt overclock, and isnt effected the same way but things that make us choose one chip over another.
 

russianboy

New Member
Joined
Dec 9, 2005
Messages
1,799 (0.26/day)
Processor AMD 3500+ Venice at stock
Motherboard ECS K8T890-A
Memory 1 Gb Corsair Valueram CAS 3
Video Card(s) Connect3d X800 GTO OC'd to 551.25/551.25
Storage 4 mixed up drives
Display(s) Acer AL2216W 22"LCD
Case Generic noname crap
Audio Device(s) Realtec AC'97
Power Supply 500 watt Ultra PSU
Software Win2k Pro, XP, Ubuntu linux, and Vista
I didn't say anything about overclocking and whatnot, I was asking about how much AMD was charging for the processors!

Man, don't call someone an idiot until you absolutely know they are one.
 

ChillyMyst

New Member
Joined
Jan 20, 2008
Messages
551 (0.09/day)
i didnt say idiot i said id..ot ;)

and sorry but what you said implyed they shouldnt be changing anything for them.

sorry if i was mistaken :)
 

ChillyMyst

New Member
Joined
Jan 20, 2008
Messages
551 (0.09/day)
Ranger, the most powerful supercomputing system in the world for open science research, today will be dedicated by the National Science Foundation (NSF) and the Texas Advanced Computing Center (TACC) at The University of Texas at Austin. This first-of-its-kind system entered full production on Feb. 4.


Ranger’s deployment marks the beginning of the Petascale Era in high-performance computing (HPC) where systems will approach a thousand trillion floating point operations per second and manage a thousand trillion bytes of data.

Ranger is the largest HPC computing resource on the NSF TeraGrid, a nationwide network of academic HPC centers that provides scientists and researchers access to large-scale computing power and resources. Ranger will provide more than 500 million processor hours of computing time to the science community, performing more than 200,000 years of computational work over its four-year lifetime.

"Ranger is the first of the new 'Path to Petascale’ systems that NSF provides to open science. It is out in front on the pathway to sustained petascale performance," said Daniel Atkins, director of the NSF’s Office of Cyberinfrastructure. "This system and others to come underscore NSF's commitment to world-class, high-performance computing ensuring that the U.S. is a leader in computational science. No longer used by a handful of elite researchers in a few research communities on select problems, advanced computing has become essential to the way science and engineering research and education are accomplished." Ranger is a collaboration among TACC, The University of Texas at Austin’s Institute for Computational and Engineering Sciences (ICES), Sun Microsystems, Advanced Micro Devices, Arizona State University and Cornell University. The $59 million award covers the system and four years of operating costs.

TACC Director Jay Boisseau said, “Ranger provides incredible new capabilities for computational researchers across the nation and world. Its computational power, memory and storage capacity greatly exceed anything the open science community has had access to. It takes tremendous expertise to deploy and support research on such a system as well as to use it effectively, but it is an awesome honor and responsibility for us at TACC. Together with our partners, we are excited about fulfilling the promise of Ranger by helping researchers achieve breakthrough science across domains and disciplines —discoveries that will really change the world as well as our understanding of it.”

At more than one-half a petaflop of peak performance (504 teraflops), Ranger is up to 50,000 times more powerful than today’s PCs, and five times more capable than any open-science computer available to the national science community. Ranger is built on the Sun™ Constellation System which combines ultra-dense, high-performance compute, networking, storage and software into an integrated general purpose system. Ranger comprises 3,936 compute nodes in a Sun Blade™ 6048 Modular System with 15,744 Quad-Core AMD Opteron™ processors, and Sun Fire™ x4500 servers providing 1.7 petabytes of storage. More information on the Sun Constellation System is available at: www.sun.com.

Ranger offers more than six times the performance of the previous largest system for open science research. The boost in performance offered by Ranger relative to the previously largest open science machine is comparable to reducing the flight time from New York to London to just one hour.

Ranger and other petascale systems to follow will address many of society's most pervasive grand challenges including global climate change, water resource management, new energy sources, natural disasters, new materials and manufacturing processes, tissue and organ engineering, patient-specific medical therapies, and drug design. These issues cannot be addressed or overcome without modeling and simulation.

“Our world is facing great challenges and grappling with big questions across a broad spectrum,” said William Powers Jr., president of The University of Texas at Austin. “Advances in computer technology, like the new Ranger supercomputer at UT Austin, will help us manage and understand the vast streams of data flowing into our research. Ranger will attract the nation’s leading researchers and accelerate their work to produce faster, more probing analyses of the information they generate. There is no question that Ranger’s massive computing power will lead to some of the most significant discoveries of our time. We are pleased that UT Austin and the Texas Advanced Computing Center are playing a leadership role in this endeavor.”

The award for Ranger represents the largest NSF grant given to The University of Texas at Austin.

Omar Ghattas, professor of geological sciences and mechanical engineering and director of the Center for Computational Geosciences at ICES, said computational scientists have been making the case for petascale systems for more than a decade.

“NSF has responded with an aggressive campaign to provide U.S. computational scientists with the most powerful open science systems in the world,” Ghattas said. “The age of petascale computing — which began when Ranger went live on Feb. 4 — brings with it tremendous opportunities for addressing societal problems and boosting national competitiveness, as well as a tremendous responsibility to society to fulfill the promise of petascale computing. This is undoubtedly the most exciting time in history to be working as a computational scientist.”

Ghattas leads a team that will produce the highest resolution models of convection in the Earth’s mantle to date, enabling a better understanding of the evolution of tectonic deformation. Their work is emblematic of how larger HPC systems allow for more accurate simulations, finer-grained models, shorter time to results, better statistical analysis, higher-resolution visualization — in other words, bigger, better science.

The additional power, memory and storage of Ranger will enable new research in at least three ways: First, it will allow finer grids for resolution-starved problems, leading to more accurate solution of models. Second, it will permit additional physics to be incorporated into these models, leading to higher-fidelity simulations. Third, it will allow scientists to conduct parameter sweeps for very large-scale models, which are essential for data assimilation and uncertainty quantification, leading to better tools to support decision making.

Ninety percent of Ranger is dedicated to the TeraGrid (www.teragrid.org). Ten percent of Ranger’s time is allocated by TACC, with five percent going to research projects at Texas higher education institutions, and five percent going to help industrial partners develop more advanced computational practices.

Any researcher at a U.S. institution can submit a proposal to request an allocation of cycles on the system. The request must describe the research, justify the need for such a powerful system to achieve new scientific discoveries and demonstrate that the proposer's team has the expertise to use the resource effectively. To submit a proposal to request an allocation, please visit the TeraGrid website.

Source: R A N G E R


 

jbunch07

New Member
Joined
Feb 22, 2008
Messages
5,260 (0.85/day)
Location
Chattanooga,TN
Processor i5-2500k
Motherboard ASRock z68 pro3-m
Cooling Corsair A70
Memory Kingston HyperX 8GB 2 x 4GB 1600mhz
Storage OCZ Agility3 60GB(boot) 2x320GB Raid0(storage)
Display(s) Samsung 24" 1920x1200
Case Custom
Power Supply PC Power and Cooling 750w
Software Win 7 x64

jbunch07

New Member
Joined
Feb 22, 2008
Messages
5,260 (0.85/day)
Location
Chattanooga,TN
Processor i5-2500k
Motherboard ASRock z68 pro3-m
Cooling Corsair A70
Memory Kingston HyperX 8GB 2 x 4GB 1600mhz
Storage OCZ Agility3 60GB(boot) 2x320GB Raid0(storage)
Display(s) Samsung 24" 1920x1200
Case Custom
Power Supply PC Power and Cooling 750w
Software Win 7 x64
haha
good times!
 

ChillyMyst

New Member
Joined
Jan 20, 2008
Messages
551 (0.09/day)
the kitten reminds me of zek lol, he should use it as his avatar!!!!
 

jbunch07

New Member
Joined
Feb 22, 2008
Messages
5,260 (0.85/day)
Location
Chattanooga,TN
Processor i5-2500k
Motherboard ASRock z68 pro3-m
Cooling Corsair A70
Memory Kingston HyperX 8GB 2 x 4GB 1600mhz
Storage OCZ Agility3 60GB(boot) 2x320GB Raid0(storage)
Display(s) Samsung 24" 1920x1200
Case Custom
Power Supply PC Power and Cooling 750w
Software Win 7 x64
Top