Difference between revisions of "CyberShake Computational Estimates"
Line 1: | Line 1: | ||
We will describe or current best estimates for the CyberShake computational and data requirements as we progress in our simulation planning and testing. These estimates will help us identify which aspects of the CyberShake computational system needs to be optimized to work within our time and resource constraints. | We will describe or current best estimates for the CyberShake computational and data requirements as we progress in our simulation planning and testing. These estimates will help us identify which aspects of the CyberShake computational system needs to be optimized to work within our time and resource constraints. | ||
− | + | The UCERF 3 estimates assume that the number of ruptures increases from 15000 to 200,000, but the number of rupture variations per rupture remains the same. | |
− | == 0.5 Hz (per site) == | + | == Future SCEC data needs == |
+ | |||
+ | These are estimates of CyberShake storage required on SCEC computers for upcoming runs. | ||
+ | |||
+ | July-August 2013: 6.1 TB to archive (0.5 Hz, CVM-SI, 2 SGT versions, 286 sites, UCERF 2) | ||
+ | Fall 2013: 12 TB (1 Hz, 286 sites, 2 combinations, UCERF 2) | ||
+ | Spring 2014: 45 TB (0.5 Hz, 286 sites, 1 combination, UCERF 3) | ||
+ | |||
+ | == 0.5 Hz, UCERF 3 (per site) == | ||
Number of rupture variations: 5.5 million | Number of rupture variations: 5.5 million | ||
Line 24: | Line 32: | ||
− | == 1 Hz (per site) == | + | == 1 Hz, UCERF 3 (per site) == |
Number of rupture variations: 5.5 million | Number of rupture variations: 5.5 million |
Revision as of 20:48, 14 June 2013
We will describe or current best estimates for the CyberShake computational and data requirements as we progress in our simulation planning and testing. These estimates will help us identify which aspects of the CyberShake computational system needs to be optimized to work within our time and resource constraints.
The UCERF 3 estimates assume that the number of ruptures increases from 15000 to 200,000, but the number of rupture variations per rupture remains the same.
Contents
Future SCEC data needs
These are estimates of CyberShake storage required on SCEC computers for upcoming runs.
July-August 2013: 6.1 TB to archive (0.5 Hz, CVM-SI, 2 SGT versions, 286 sites, UCERF 2) Fall 2013: 12 TB (1 Hz, 286 sites, 2 combinations, UCERF 2) Spring 2014: 45 TB (0.5 Hz, 286 sites, 1 combination, UCERF 3)
0.5 Hz, UCERF 3 (per site)
Number of rupture variations: 5.5 million
Deterministic
Number of jobs: 5.6 million
Storage: 40 GB SGTs, 125 GB seismograms
SUs: 12k SGTs + 26k post-processing = 38k
Broadband
Number of jobs: 16.6 million
Storage: 40 GB SGTs, 500 GB seismograms
SUs: 12k SGTs + 52k post-processing = 64k
1 Hz, UCERF 3 (per site)
Number of rupture variations: 5.5 million
Deterministic
Number of jobs: 5.6 million
Storage: 320 GB SGTs, 250 GB seismograms
SUs: 80k SGTs + 150k post-processing = 230k
Broadband
Number of jobs: 16.6 million
Storage: 320 GB SGTs, 2 TB seismograms
SUs: 80k SGTs + 200k post-processing = 280k
Southern California simulations
200 sites
0.5 Hz, deterministic
Number of jobs: 1.1 billion
Storage: 7.8 TB SGTs, 24.4 TB seismograms
SUs: 7.6 million
0.5 Hz, broadband
Number of jobs: 3.3 billion
Storage: 7.8 TB SGTs, 97 TB seismograms
SUs: 12.8 million
1 Hz, deterministic
Number of jobs: 1.1 billion
Storage: 62.5 TB SGTs, 48.8 TB seismograms
SUs: 46 million
1 Hz, broadband
Number of jobs: 3.3 billion
Storage: 62.5 TB SGTs, 400 TB seismograms
SUs: 56 million
Statewide simulations
1400 sites
0.5 Hz, deterministic
Number of jobs: 7.8 billion
Storage: 54.7 TB SGTs, 171 TB seismograms
SUs: 53 million
0.5 Hz, broadband
Number of jobs: 23.2 billion
Storage: 54.7 TB SGTs, 683 TB seismograms
SUs: 89.6 million
1 Hz, deterministic
Number of jobs: 7.8 billion
Storage: 437.5 TB SGTs, 341.8 TB seismograms
SUs: 322 million
1 Hz, broadband
Number of jobs: 23.2 billion
Storage: 437.5 TB SGTs, 2800 TB seismograms
SUs: 392 million