project status report€¦ · • electra was 100% utilized with a power draw of 353 kilowatts...
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Project Status ReportHigh End Computing CapabilityStrategic Capabilities Assets Program
Dr. Rupak Biswas – Project ManagerNASA Ames Research Center, Moffett Field, CARupak.Biswas@nasa.gov(650) 604-4411
October 10, 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra Supercomputer Augmented with New Skylake Processors
Mission Impact: To meet NASA’s rapidly increasing requirements for high-performance computing, HECC must regularly and significantly upgrade and replace the supercomputing resources provided to the agency.
The expansion of Electra utilizes HPE’s E-cell design, which is a liquid cooled, high-density design. An E-cell consists of two 42U E-racks, which are separated by a cooling rack. The E-Cell is a sealed unit and uses a closed-loop cooling system to provide efficient heat removal.
POCs: Bob Ciotti, bob.ciotti@nasa.gov, (650) 604-4408, NASA Advanced Supercomputing (NAS) Division; Davin Chan, davin.chan@nasa.gov, (650) 604-3613, NAS Division, CSRA LLC
• The HECC Supercomputing Systems team augmented the Electra supercomputer with the latest generation Intel Xeon Gold 6148 (Skylake) processors.
• This expansions adds 1,152 Skylake nodes to Electra, increasing the system’s total peak performance from 1.23 to 4.78 petaflops.
• The Skylake nodes have the latest generation Extended Data Rate (EDR) InfiniBand (IB) and is interoperable with Electra’s existing Fourteen Data Rate (FDR) IB. EDR IB provides a 100 Gb/s interconnect and is backwards compatible with Electra’s existing FDR 56 Gb/s fabric.
• The augmentation will be available to the general user community in mid-October after system testing and an SBU rate calculation.
2
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
The Heat is on, But Electra Keeps Cool!
Mission Impact: Electra is already providing NASA its return on investment by providing a stable robust modular supercomputing facility for HECC users.
Photographs of the control screen for the Electra module; showing CPU utilization and operating conditions.
POC: Leigh Ann Tanner, leighann.tanner@nasa.gov, (650) 604-4468, NASA Advanced Supercomputing Division, CSRA LLC
• The Modular Supercomputing Facility was designed to use outside air to cool the Electra supercomputer.
• On September 1, 2017, at 4:34 p.m., the outside air temperature at NASA Ames reached a record high of 104°F. The MSF cooled the outside air by evaporating water into the incoming air stream.‒ Evaporative media saturated with water yielded a
25°F temperature drop.‒ Cold aisle temperature stayed within the American
Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) Operational Guidelines of 59°-81°, without mechanical refrigeration.
• Electra was 100% utilized with a power draw of 353 kilowatts (kW).
• Approximately 2,500 gallons of water and 8 kW of power were used to cool Electra on Sept.1.‒ If Electra had been in building N258, 5,000 gallons
of water and 120 kW of power to cool would have been used.
• The MSF is providing NASA users with a robust facility that is environmentally friendly, saves money in utilities, and is dependable.
3
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
HECC Property Management Achievements in 2017
Mission Impact: Accurate tracking of assets through their life cycle and removal of NASA data prior to system disposal ensures control of government equipment and prevents loss of NASA data.
During the annual equipment inventory, HECC property custodians account for all equipment associated with the NASA Advanced Supercomputing (NAS) facility, including all components of the Pleiades supercomputers and associated hardware.
POC: Judy Kohler, judy.j.kohler@nasa.gov, (650) 604-4303, NASA Advanced Supercomputing Division, CSRA LLC
• Property custodians responsible for HECC/NAS property tracked more than 1,500 pieces of decaled equipment with a value of more than $128.7 million. Each piece of equipment requires multiple updates through the life cycle of its use.
• Custodians successfully completed the Annual equipment inventory three months earlier than last year’s inventory, with a 99.93% scan rate, an improvement over 2016 numbers.
• HECC/NAS custodians were interviewed by Ames Logistics department staff for best practices and innovative onsite procedures, to be shared with other Ames Custodians.
• The ongoing tracking and management of equipment during FY17 included:– RFID retagging of more than 130 pieces of
equipment.– Ames Logistics used HECC’s property waiver memo
as the best-practice example for all other groups.– Tagging 181 new pieces of equipment.– Excessing 197 pieces of equipment.– Resolution of more than 750 tickets, most relating to
equipment location and ownership updates.
4
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
HECC Facility Hosts Several Visitors andTours in September 2017
Christopher Buchanan, HECC networking, security, and facilities lead, gives a computer room presentation to NASA student interns.
POC: Gina Morello, gina.f.morello@nasa.gov, (650) 604-4462, NASA Advanced Supercomputing Division
• HECC hosted 8 tour groups in September; guests learned about the agency-wide missions being supported by HECC assets, and some groups also viewed the D-Wave 2X quantum computer system. Visitors this month included:– Richard J. Gilbrech, Director, Stennis Space Center, Ken
Human, Associate Director, and Rodney McKellip, Assistant to the Director, visited the NAS facility as part of their tour of NASA Ames.
– Navin Shenoy, Vice President and General Manager of the Data Center Group at Intel Corporation, was briefed by NAS Division management.
– Three computer science researchers from the Japan Aerospace Exploration Agency (JAXA) were given a technical review of HECC/NAS.
– Daniel Ramos, FBI supervisory special agent, Joint Terrorism Task Force (JTTF) for the San Francisco Office, accompanied by his JTTF Squad comprised of approximately six special agents and intelligence analysts who received a HECC/NAS overview, tour, and security plan brief.
– Jeff Volosin and Juan Cifuentes, members of the Transiting Exoplanet Survey Satellite (TESS) team from Goddard Space Flight Center received a HECC/NAS overview and visualization review.
– 20 new interns from the NASA Ames Intern Program.
5
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Papers
• “The Stellar IMF from Isothermal MHD Turbulence,” T. Haugbolle, P. Padoan, A. Nordlund, arXiv:1709.01078 [astro-ph.GA], September 4, 2017. *https://arxiv.org/abs/1709.01078
• “The Effects of Magnetic Fields and Protostellar Feedback on Low-Mass Cluster Formation,” A. Cunningham, et al., arXiv:1709.01277 [astro-ph.GA], September 5, 2017. *https://arxiv.org/abs/1709.01277
• “Inefficient Angular Momentum Transport in Accretion Disk Boundary Layers: Angular Momentum Belt in the Boundary Layer,” M. Belyaev, E. Quataert, arXiv:1709.01197 [astro-ph.HE], September 5, 2017. *https://arxiv.org/abs/1709.01197
• “Hidden Founders? Strong Bottlenecks and Fine-Scale Genetic Structure in Mangrove Populations of the Cameroon Estuary Complex,” M. Ngeve, T. Van der Stocken, D. Menemenlis, N. Koedam, L. Triest, Hydrobiologia, September 5, 2017. *https://link.springer.com/article/10.1007/s10750-017-3369-y
• “Super-Eddington Accretion Disks Around Supermassive Black Holes,” Y.-F. Jiang, J. Stone, S. Davis, arXiv:1709.02845 [astro-ph.HE], September 8, 2017. *https://arxiv.org/abs/1709.02845
• “Dynamics of Mixed Convective–Stably-Stratified Fluids,” L.-A. Couston, D. Lecoanet, B. Favier, M. Le Bars, Physical Review Fluids, vol. 2, September 13, 2017. *https://journals.aps.org/prfluids/abstract/10.1103/PhysRevFluids.2.094804
6
*HECCprovidedsupercomputingresourcesandservicesinsupportofthiswork
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Papers (cont.)
• “The Dehydration of Water Worlds via Atmospheric Losses,” C. Dong, et al., The Astrophysical Journal Letters, vol. 847, no. 1, September 14, 2017. *http://iopscience.iop.org/article/10.3847/2041-8213/aa8a60/meta
• “Large Wind Shears and Their Implications for Diffusion in Regions with Enhanced Static Stability: The Mesopause and the Tropopause,” H.-L. Liu, Journal of Geophysical Research: Atmospheres, published online September 19, 2017. *http://onlinelibrary.wiley.com/doi/10.1002/2017JD026748/full
• “An Assessment of Ground Level and Free Tropospheric Ozone Over California and Nevada,” E. Yates, et al., Journal of Geophysical Research: Atmospheres, published online September 19, 2017. *http://onlinelibrary.wiley.com/doi/10.1002/2016JD026266/full
• “Use of Cloud Radar Doppler Spectra to Evaluate Stratocumulus Drizzle Size Distributions in Large-Eddy Simulations with Size-Resolved Microphysics,” J. Rémillard, et al., Journal of Applied Meteorology and Climatology, vol. 56, no. 9, September 20, 2017. *http://journals.ametsoc.org/doi/abs/10.1175/JAMC-D-17-0100.1
• “Light Scattering by Hierarchical Aggregates,” L. Kolokolova, et al., Journal of Quantitative Spectroscopy and Radiative Transfer, September 21, 2017. *http://www.sciencedirect.com/science/article/pii/S0022407317304910
7
*HECCprovidedsupercomputingresourcesandservicesinsupportofthiswork
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Papers (cont.)
• “Kinetic Alfvén Turbulence: Electron and Ion Heating by Particle-in-Cell Simulations,” R. S. Hughes, S. P. Gary, J. Wang, T. Parashar, The Astrophysical Journal Letters, vol. 847, no. 2, September 25, 2017. *http://iopscience.iop.org/article/10.3847/2041-8213/aa8b13
• “Enhancing Open National Combustion Code and Application of Energy Efficient Engine Combustor,” K. Miki, J. Moder, M.-S. Liou, Journal of Propulsion and Power, published online August 31, 2017.https://arc.aiaa.org/doi/10.2514/1.B36610
8
*HECCprovidedsupercomputingresourcesandservicesinsupportofthiswork
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Presentations
• “OpenMP Doacross Loops in Practice: A Mini-Application Case Study,” G. Jost, H. Jin, OpenMPCon, Stony Brook University, September 18-20, 2017. *http://iopscience.iop.org/article/10.3847/2041-8213/aa8b13/meta
• 9th Ablation Workshop, Bozeman, MT, August 30-31, 2017– “Particle Methods for Tortuosity Factors in Porous Media” J. Ferguson– “Development of Type 3 Ablator Response Model under the ESM Project,” N. N. Mansour– “Investigation of the High-Energy Oxidation of FiberForm from DSMC Analysis of Molecular
Beam Experiments,” A. Borner– “Flow-Tube Reactor Experiments on the High Temperature Oxidation of Carbon Weaves,”
F. Panerai– “Full-Scale Mars Science Laboratory Tiled Heatshield Material Response,” J. Meurisse
9
*HECCprovidedsupercomputingresourcesandservicesinsupportofthiswork
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
News and Events
• NASA Supercomputing Strategy Takes the Road Less Traveled, The Next Platform, August 31, 2017—For a large institution playing at the leadership-class supercomputing level, NASA tends to do things a little differently than its national lab and academic peers. NAS Advanced Computing Branch Chief Bill Thigpen explains the benefits of taking the modular route at NASA's Ames Research Center, starting with the Electra supercomputer.https://www.nextplatform.com/2017/08/31/nasa-supercomputing-strategy-takes-road-less-traveled/
10
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
HECC Utilization
11
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Pleiades Endeavour Merope Electra Production
Share Limit
Job Drain
Dedtime Drain
Limits Exceeded
Unused Devel Queue
Insufficient CPUs
Held
Queue Not Schedulable
Not Schedulable
No Jobs
Dedicated
Down
Degraded
Boot
Free/Testing
Used
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
HECC Utilization Normalized to 30-Day Month
12
0
4,000,000
8,000,000
12,000,000
16,000,000
20,000,000
24,000,000
28,000,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Alloc.toOrgs
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
HECC Utilization Normalized to 30-Day Month
13
0
2
4
6
8
10
12
Stan
dard
Bill
ing
Uni
ts in
Mill
ions
ARMD ARMD Allocation With Agency Reserve
ARMD
1234
56
1 16WestmereracksretiredfromPleiades2 10BroadwellracksaddedtoPleiades3 4BroadwellracksaddedtoPleiades4 14(All)Westmereracks retiredfromPleiades5 14BroadwellRacksaddedtoPleiades6 16ElectraBroadwellRacksinProduction,20Westmere
1/2racksaddedtoMerope
0
2
4
6
8
10
12
Stan
dard
Bill
ing
Uni
ts in
Mill
ions
HEOMD NESC HEOMD+NESC Allocation
HEOMD, NESC
54
321
6
0
2
4
6
8
10
12
Stan
dard
Bill
ing
Uni
ts in
Mill
ions
SMD SMD Allocation With Agency Reserve
SMD
21
3
45
6
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Tape Archive Status
14
0
40
80
120
160
200
240
280
320
360
400
440
480
520
560
600
Unique File Data Unique Tape Data Total Tape Data Tape Capacity Tape Library Capacity
Peta
Byt
es
Capacity
Used
HECC
Non Mission SpecificNAS
NLCS
NESC
SMD
HEOMD
ARMD
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Tape Archive Status
15
0
40
80
120
160
200
240
280
320
360
400
440
480
520
560
600
Peta
Byt
es
Tape Library Capacity
Tape Capacity
Total Tape Data
Unique Tape Data
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:SBUs Reported, Normalized to 30-Day Month
16
0
2,000,000
4,000,000
6,000,000
8,000,000
10,000,000
12,000,000
14,000,000
16,000,000
18,000,000
20,000,000
22,000,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Alloc. to Orgs
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Devel Queue Utilization
17
0
250,000
500,000
750,000
1,000,000
1,250,000
1,500,000
1,750,000
2,000,000
2,250,000
2,500,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Devel Queue Alloc.
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Monthly Utilization by Job Length
18
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
4,000,000
4,500,000
0 - 1 > 1 - 4 > 4 - 8 > 8 - 24 > 24 - 48 > 48 - 72 > 72 - 96 > 96 - 120 > 120
Stan
dardBillingUnits
JobRunTime(hours) September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Monthly Utilization by Size and Mission
19
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
4,000,000
4,500,000
5,000,000
5,500,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513-1024
1025-2048
2049-4096
4097 -8192
8193 -16384
16385 -32768
32769 -65536
Stan
dardBillingUnits
JobSize(cores)
NAS
NLCS
NESC
SMD
HEOMD
ARMD
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Monthly Utilization by Size and Length
20
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
4,000,000
4,500,000
5,000,000
5,500,000
1 - 32 33 - 64 65 - 128 129-256
257 -512
513-1024
1025-2048
2049-4096
4097 -8192
8193 -16384
16385 -32768
32769 -65536
Stan
dardBillingUnits
JobSize(cores)
>120hours
>96- 120hours
>72- 96hours
>48- 72hours
>24- 48hours
>8- 24hours
>4- 8hours
>1- 4hours
0- 1hours
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Average Time to Clear All Jobs
21
0
24
48
72
96
120
144
168
192
216
240
264
288
312
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
Hours
ARMD HEOMD/NESC SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Pleiades:Average Expansion Factor
22
1.00
2.00
3.00
4.00
5.00
6.00
7.00
8.00
9.00
10.00
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
ARMD HEOMD SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra:SBUs Reported, Normalized to 30-Day Month
23
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Alloc. to Orgs
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra:Devel Queue Utilization
24
0
25,000
50,000
75,000
100,000
125,000
150,000
175,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Devel Queue Allocation
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra:Monthly Utilization by Job Length
25
0
200,000
400,000
600,000
800,000
1,000,000
1,200,000
0 - 1 > 1 - 4 > 4 - 8 > 8 - 24 > 24 - 48 > 48 - 72 > 72 - 96 > 96 - 120 > 120
Stan
dardBillingUnits
JobRunTime(hours) September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017 26
Electra:Monthly Utilization by Size and Mission
0
200,000
400,000
600,000
800,000
1,000,000
1,200,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513- 1024 1025-2048
2049-4096
4097 -8192
8193 -16384
Stan
dardBillingUnits
JobSize(cores)
NAS
NLCS
NESC
SMD
HEOMD
ARMD
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017 27
Electra:Monthly Utilization by Size and Length
0
200,000
400,000
600,000
800,000
1,000,000
1,200,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513- 1024 1025-2048
2049-4096
4097 -8192
8193 -16384
Stan
dardBillingUnits
JobSize(cores)
>120hours
>96- 120hours
>72- 96hours
>48- 72hours
>24- 48hours
>8- 24hours
>4- 8hours
>1- 4hours
0- 1hours
September2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra:Average Time to Clear All Jobs
28
0
48
96
144
192
240
288
336
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
Hours
ARMD HEOMD/NESC SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Electra:Average Expansion Factor
29
1
1.5
2
2.5
3
3.5
4
4.5
5
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
ARMD HEOMD SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Merope:SBUs Reported, Normalized to 30-Day Month
30
0
200,000
400,000
600,000
800,000
1,000,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Alloc. to Orgs
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Merope:Monthly Utilization by Job Length
31
0
100,000
200,000
300,000
400,000
500,000
600,000
700,000
0 - 1 > 1 - 4 > 4 - 8 > 8 - 24 > 24 - 48 > 48 - 72 > 72 - 96 > 96 - 120 > 120
Stan
dardBillingUnits
JobRunTime(hours) September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017 32
Merope:Monthly Utilization by Size and Mission
0
50,000
100,000
150,000
200,000
250,000
300,000
350,000
400,000
450,000
500,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512513- 1024 1025-2048
2049-4096
4097 -8192
8193 -16384
16385 -32768
Stan
dardBillingUnits
JobSize(cores)
NAS
NLCS
NESC
SMD
HEOMD
ARMD
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017 33
Merope:Monthly Utilization by Size and Length
0
50,000
100,000
150,000
200,000
250,000
300,000
350,000
400,000
450,000
500,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513-1024
1025-2048
2049-4096
4097 -8192
8193 -16384
16385 -32768
Stan
dardBillingUnits
JobSize(cores)
>120hours
>96- 120hours
>72- 96hours
>48- 72hours
>24- 48hours
>8- 24hours
>4- 8hours
>1- 4hours
0- 1hours
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Merope:Average Time to Clear All Jobs
34
0
12
24
36
48
60
72
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
Hours
ARMD HEOMD/NESC SMD
160
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Merope:Average Expansion Factor
35
1.00
2.00
3.00
4.00
5.00
6.00
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
ARMD HEOMD SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:SBUs Reported, Normalized to 30-Day Month
36
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
80,000
90,000
100,000
Stan
dard
Bill
ing
Uni
ts
NAS
NLCS
NESC
SMD
HEOMD
ARMD
Alloc. to Orgs
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:Monthly Utilization by Job Length
37
0
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
18,000
20,000
0 - 1 > 1 - 4 > 4 - 8 > 8 - 24 > 24 - 48 > 48 - 72 > 72 - 96 > 96 - 120 > 120
Stan
dardBillingUnits
JobRunTime(hours) September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:Monthly Utilization by Size and Mission
38
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
50,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513- 1024
Stan
dardBillingUnits
JobSize(cores)
NAS
NESC
SMD
HEOMD
ARMD
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:Monthly Utilization by Size and Length
39
0
5,000
10,000
15,000
20,000
25,000
30,000
35,000
40,000
45,000
50,000
1 - 32 33 - 64 65 - 128 129- 256 257 - 512 513- 1024
Stan
dardBillingUnits
JobSize(cores)
>120hours
>96- 120hours
>72- 96hours
>48- 72hours
>24- 48hours
>8- 24hours
>4- 8hours
>1- 4hours
0- 1hours
September 2017
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:Average Time to Clear All Jobs
40
0
12
24
36
48
60
72
84
96
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
Hours
ARMD HEOMD/NESC SMD
National Aeronautics and Space Administration High-End Computing Capability ProjectOctober 10, 2017
Endeavour:Average Expansion Factor
41
1.00
1.50
2.00
2.50
3.00
3.50
4.00
Oct-16 Nov-16 Dec-16 Jan-17 Feb-17 Mar-17 Apr-17 May-17 Jun-17 Jul-17 Aug-17 Sep-17
ARMD HEOMD SMD
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