June 15, 2020
IceCube Institutional Memorandum Of Understanding (MOU)
Michigan State University
Tyce DeYoung
Ph.D Scientists (Faculty Scientist/Post Doc Grads): 10 (6 4 8)
Scope of Work
Maintenance and Operations
|
|||||||||||||
Labor Cat.
|
Names
|
WBS L3
Tasks
|
Funds Source
WBS 2.1
WBS 2.2
WBS 2.3
WBS 2.4
WBS 2.5
WBS 2.6
Grand Total
|
| |||||||||
Program Coordination
|
Detector Maintenance & Operations
|
Computing & Data Management
|
Data Processing & Simulation
|
Software
|
Calibration
|
||||||||
KE
|
DeYOUNG, TYCE
|
| |||||||||||
| DeYOUNG, TYCE Total
|
|
|
0.05
|
|
|
|
|
0.05
|
| ||||
GRANT, DARREN
|
| ||||||||||||
| |||||||||||||
| |||||||||||||
|
0.75
|
0.75
|
|||||||||||
KOPPER, CLAUDIO
|
| ||||||||||||
| |||||||||||||
| |||||||||||||
| |||||||||||||
| |||||||||||||
| |||||||||||||
|
0.10
|
0.25
|
0.05
|
0.10
|
0.15
|
0.65
|
|||||||
WHITEHORN, NATHAN
|
| ||||||||||||
| |||||||||||||
|
0.25
|
0.05
|
0.30
|
||||||||||
MAHN, KENDALL
|
| ||||||||||||
| MAHN, KENDALL Total
|
|
|
|
|
|
|
0.05
|
0.05
|
| ||||
PO
|
NISA, MEHR
|
| |||||||||||
| |||||||||||||
| |||||||||||||
|
0.03
|
0.10
|
0.10
|
0.23
|
|||||||||
LUDWIG, ANDREW
|
| ||||||||||||
|
0.50
|
0.50
|
|||||||||||
CLARK, BRIAN
|
| ||||||||||||
|
0.10
|
0.10
|
|||||||||||
HALLIDAY, ROBERT
|
| ||||||||||||
| HALLIDAY, ROBERT Total
|
|
|
|
|
0.25
|
|
|
0.25
|
| ||||
GR
|
NOWICKI, SARAH
|
Reconstruction
DirectReco software support
|
|
|
|
|
|
0.10
|
0.10
|
| |||
NOWICKI, SARAH Total
|
|
|
|
|
0.10
|
0.10
|
| ||||||
RYSEWYCK CANTU, DEVYN
|
| ||||||||||||
RYSEWYCK CANTU, DEVYN Total
|
0.02
|
0.02
|
|||||||||||
SANCHEZ HERRERA, SEBASTIAN
|
Education & Outreach
IceCube Masterclass
|
|
0.02
|
|
|
|
|
0.02
|
| ||||
|
0.02
|
0.02
|
|||||||||||
MICALLEF, JESSIE
|
Education & Outreach
IceCube Masterclass
|
|
0.02
|
|
|
|
|
0.02
|
| ||||
Core Software
Software strike team / CLSim development and maintenance
|
|
|
|
|
|
0.20
|
0.20
|
| |||||
MICALLEF, JESSIE Total
|
0.02
|
|
|
0.20
|
0.22
|
| |||||||
PEISKER, ALISON
Education & Outreach
|
IceCube Masterclass
NSF Grad Fellowship
0.02
|
|
|
|
|
0.02
|
| ||||||
PEISKER, ALISON Total
|
0.02
|
0.02
|
|||||||||||
HARNISCH, ALEXANDER
Simulation software
|
Implementation of BFRv1 ice model in clsim
Inst. In-Kind
|
|
|
|
0.20
|
0.20
|
| ||||||
Education & Outreach
|
IceCube Masterclass
|
Inst. In-Kind
|
0.02
|
0.02
|
|||||||||
HARNISCH, ALEXANDER Total
|
0.02
|
0.20
|
0.22
|
||||||||||
TWAGIRAYEZU, JEAN PIERRE
Education & Outreach
|
IceCube Masterclass
Inst. In-Kind
0.02
|
|
|
|
|
0.02
|
| ||||||
TWAGIRAYEZU, JEAN PIERRE
|
0.02
|
0.02
|
|||||||||||
LE, HIEU
Detector calibration
|
In-situ DOM sensitivity / angular response calibration from muon neutrinos
Inst. In-Kind
|
|
|
|
|
0.10
0.10
|
| ||||||
LE, HIEU
|
0.20
|
0.20
|
|||||||||||
MSU Total
|
1.02
|
0.53
|
0.40
|
0.20
|
1.25
|
0.20
|
3.60
|
||||||
IceCube Upgrade
|
||||||||||||
Labor Cat.
|
Names
|
WBS L3
|
Tasks
|
Funds Source
|
WBS 1.1
|
WBS 1.2
|
WBS 1.3
|
WBS 1.4
|
WBS 1.5
|
WBS 1.6
|
Grand Total
|
|
Project Management
|
Drilling
|
Sensors
|
Comms, Power, Timing
|
Calibration
|
Data Systems
|
|||||||
KE
|
DeYOUNG, TYCE
|
|
Management
|
NSF
|
0.50
|
0.50
|
||||||
| DeYOUNG, TYCE Total
|
|
|
|
|
0.50
|
|
0.50
|
| ||||
GRANT, DARREN
|
|
MSU mDOM production facility
|
Inst. In-Kind
|
0.25
|
0.25
|
|||||||
| GRANT, DARREN Total
|
|
|
|
0.25
|
|
|
0.25
|
| ||||
EN
|
NG, CHRISTOPHER
|
|
Penetrator Cable Assemblies, Main cable mechanical/ string hardware
|
NSF
|
0.75
|
0.75
|
||||||
|
Surface cables and junction boxes
|
NSF
|
0.15
|
0.15
|
||||||||
|
Design and set up NTS
|
NSF
|
0.10
|
0.10
|
||||||||
|
1.00
|
1.00
|
||||||||||
FERGUSON, BRIAN
|
|
Main cable electrical design, procurement
|
NSF
|
0.95
|
0.95
|
|||||||
|
Surface cables and junction boxes
|
NSF
|
0.05
|
0.05
|
||||||||
| FERGUSON, BRIAN Total
|
|
|
|
|
1.00
|
|
1.00
|
| ||||
PO
|
HALLIDAY, ROBERT
|
|
Engineering support
|
Inst. In-kind
|
0.10
|
0.10
|
||||||
|
Design and set up NTS
|
Inst. In-Kind
|
0.10
|
0.10
|
||||||||
HALLIDAY, ROBERT Total
|
0.20
|
0.20
|
||||||||||
MSU Total
|
0.25
|
2.70
|
2.95
|
|||||||||
Faculty:
Tyce DeYoung (IL) – ExecCom, Upgrade L2 for CPT, 100% IceCube
Darren Grant – Spokesperson, outreach, Upgrade DOM production 100% IceCube
Claudio Kopper – Diffuse WG co-convener, software development, offline processing support, outreach, 100% IceCube
Kirsten Tollefson – 50% IceCube (50% HAWC)
Nathan Whitehorn – Diffuse WG co-convener, software development, 50% IceCube (50% SPT)
Kendall Mahn – low energy systematics/GENIE, 5% IceCube (95% DUNE, T2K)
Scientists and Engineers:
Chris Ng – engineering support for Upgrade WBS 1.3, 1.4, 100% IceCube
Brian Ferguson – engineering support for Upgrade WBS 1.4, 25% IceCube
Post Docs:
Mehr Nisa DOM response/simulation calibration using neutrino-induced muons, monitoring shifts, 50% IceCube (50% HAWC)
Thesis/Analysis topics: galaxy cluster search, low energy solar dark matter search
Robert Halliday IceProd and distributed computing support, Upgrade cable design/engineering support, NTS timing support, 100% IceCube
Thesis/Analysis topics: multi-flavor source searches
Brian Clark (funded by NSF AAPF) IceProd and distributed computing support, 75% IceCube (25% ARA)
Thesis/Analysis topics: diffuse spectrum measurement, EHE neutrino searches
Andrew Ludwig Reconstruction software development, 100% IceCube
Thesis/Analysis topics: galaxy cluster search
Ph.D. Students:
Sarah Nowicki 100% IceCube
Thesis/Analysis topics: DirectReco event reconstruction, atmospheric muon neutrino measurements
Devyn Rysewyk Cantu 100% IceCube
Thesis/Analysis topics: Extended Galactic source search, IceACT R&D
Sebastian Sanchez Herrera 100% IceCube
Thesis/Analysis topics: Anti-neutrino tagging at low energy using Michel electrons
Jessie Micallef (funded by NSF Grad Fellowship) Core Software: Software strike team
Thesis/Analysis topics: Next-generation oscillation analysis, machine learning for low energy event reconstruction
Alison Peisker (funded by NSF Grad Fellowship) 30% IceCube (70% HAWC)
Thesis/Analysis topics: HAWC/IceCube transient searches
Alexander Harnisch 100% IceCube
Thesis/Analysis topics: TBD
Jean Pierre Twagirayezu 100% IceCube
Thesis/Analysis topics: TBD
Hieu Le DOM response/simulation calibration using neutrino-induced muons, 100% IceCube
Thesis/Analysis topics: TBD
Computing Resources:
2020
|
||
| CPU Cores | GPU Cards | |
| IceCube | 1200 | 60 |
The Michigan State IceCube group provides the collaboration access to several large computing clusters maintained and administered by the Michigan State High Performance Computing Cluster in the Institute for Cyber-Enabled Research. The HPCC includes more 21,716 computing cores and 478 GPUs (mix of Tesla V100, K80, and K20). The IceCube group has purchased 750 cores and 8 GPUs in the cluster.
Cluster scheduling policy allows opportunistic use of all compute resources by campus users with job lengths <4 hours. Jobs making use of specialized resources, such as GPUs, have priority over all other jobs queued for those nodes. Computing resources listed reflect the average levels made available for collaboration distributed processing over the past 60 days. Note that actual throughput is lower due to central processing system failure to claim available resources (675 CPUs, 15 GPUs) and job eviction due to inaccurate advertised job run time requirements (110 CPUs, 25 GPUs).
Page 7 of 7