Nigel Lockyer Fermilab Operations Review 16 th -18 th May 2016 Fermilab in the Context of the DOE Mission.

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Presentation transcript:

Nigel Lockyer Fermilab Operations Review 16 th -18 th May 2016 Fermilab in the Context of the DOE Mission

5/16/16Nigel Lockyer | Fermilab Operations Review2 Fermilab’s Strategic Plan and Core Capabilities

5/16/16Nigel Lockyer | Fermilab Operations Review3 Fermilab’s Strategic Plan and Core Capabilities FY 2016 Operations Budget $19M $19M $22M $106M

5/16/16Nigel Lockyer | Fermilab Operations Review4 Our strategy depends on partnerships

5/16/16Nigel Lockyer | Fermilab Operations Review5 Core Capability Accelerator scientists Engineering, technical and operations staff SRF R&D, fabrication and test facilities Magnet R&D, fabrication and test facilities Accelerator test facilities Fermilab Accelerator Science & Technology (FAST) facility High Brightness Electron Source Laboratory PIP-II Injector Experiment (PXIE) U.S. Particle Accelerator School

5/16/16Nigel Lockyer | Fermilab Operations Review6 Core Capability Alignment with DOE and P5 Accelerator scientists Engineering, technical and operations staff SRF R&D, fabrication and test facilities Magnet R&D, fabrication and test facilities Accelerator test facilities Fermilab Accelerator Science & Technology (FAST) facility High Brightness Electron Source Laboratory PIP-II Injector Experiment (PXIE) U.S. Particle Accelerator School DOE Missions: HEP Steward a national accelerator science program & meet SC community needs Conceive, design, construct, and operate forefront user facilities BES and NP Develop new accelerator technologies and construct scientific user facilities WDTS ( Workforce Development for Teachers and Scientists ) Provide mentored research experiences for undergraduate students and faculty P5: Accelerator science and technology is needed to address 4 of the 5 science drivers.

Describe operations associated with this core capability. Focus on operations for accelerator test facilities (see slide #11 for example). 5/16/16Nigel Lockyer | Fermilab Operations Review7 Operations for Accelerator Science and Technology

5/16/16Nigel Lockyer | Fermilab Operations Review8 Major Initiatives

5/16/16Nigel Lockyer | Fermilab Operations Review9 Core Capability Computer scientists Software developers for HPC algorithms, science analysis frameworks, workflows, simulations, and data analytics toolkits. Fermilab computing facility 80,000 CPU cores 30 petabytes of cache Active archival facility Robotic tape storage with exabyte capacity for the science community

Computer scientists Software developers for HPC algorithms, science analysis frameworks, workflows, simulations, and data analytics toolkits. Fermilab computing facility 80,000 CPU cores 30 petabytes of cache Active archival facility Robotic tape storage with exabyte capacity for the science community 5/16/16Nigel Lockyer | Fermilab Operations Review10 Core Capability Alignment with DOE and P5 DOE Missions: HEP Conceive, design, construct, and operate forefront user facilities ASCR Develop mathematical models, methods, and algorithms for complex systems Deliver forefront computational and networking capabilities to extend frontiers WDTS ( Workforce Development for Teachers and Scientists ) Provide mentored research experiences for undergraduate students and faculty P5: “Computing cuts across all activities in particle physics, and these activities spur innovation in computing.” (P5 report, p. 46)

The Scientific Computing Division follows a rigorous process for allocation of hardware resources and human capital. This process advises SCD on procurements for the facility. Each year operating experiments present to an advisory board (SCPMT Advisory Board) what their computing needs are for the next two years. Advisory board recommendations guide budget planning and resource allocations for the coming year. Advances in computing R&D enable utilization of new techniques and technologies to improve operational efficiencies and effectiveness. 5/16/16Nigel Lockyer | Fermilab Operations Review11 Operations for Advanced Computer Science

5/16/16Nigel Lockyer | Fermilab Operations Review12 Major Initiatives

5/16/16Nigel Lockyer | Fermilab Operations Review13 Core Capability Theory & Theoretical Astrophysics Groups ND, PPD, and SCD scientists, engineers, technical and operations staff CMS experiment Cosmic science Dark energy, dark matter, and CMB programs Neutrino science experiments NOvA, MicroBooNE, MINERvA, MINOS+ Detector R&D Test beam facility Education Office & Lederman Science Center

5/16/16Nigel Lockyer | Fermilab Operations Review14 Core Capability Alignment with DOE and P5 Theory & Theoretical Astrophysics Groups ND, PPD, and SCD scientists, engineers, technical and operations staff CMS experiment Cosmic science Dark energy, dark matter, and CMB programs Neutrino science experiments NOvA, MicroBooNE, MINERvA, MINOS+ Detector R&D Test beam facility Education Office & Lederman Science Center DOE Missions: HEP Understand properties & interactions of elementary particles & fundamental forces Understand fundamental symmetries from studies of rare processes Conceive, design, construct, and operate forefront user facilities NP Use neutrinos to study matter-antimatter asymmetry and BSM physics WDTS ( Workforce Development for Teachers and Scientists ) Provide mentored research experiences for undergraduate students and faculty P5: Fermilab’s diverse science program is focused on addressing all of the P5 science drivers.

Describe operations associated with this core capability. Focus on operations for detector test facilities and test beam facility (see slide #11 for example). 5/16/16Nigel Lockyer | Fermilab Operations Review15 Operations for Particle Physics

5/16/16Nigel Lockyer | Fermilab Operations Review16 Major Initiatives

5/16/16Nigel Lockyer | Fermilab Operations Review17 Core Capability User facilities and operations staff Fermilab accelerator complex CMS Center, which consists of the LHC Physics Center (LPC), Remote Operations Center (ROC-East), and U.S. CMS Computing Facility Advanced instrumentation Large-scale detector integration and testing

5/16/16Nigel Lockyer | Fermilab Operations Review18 Core Capability Alignment with DOE and P5 User facilities and operations staff Fermilab accelerator complex CMS Center, which consists of the LHC Physics Center (LPC), Remote Operations Center (ROC-East), and U.S. CMS Computing Facility Advanced instrumentation Large-scale detector integration and testing DOE Missions: HEP Understand properties & interactions of elementary particles & fundamental forces Understand fundamental symmetries from studies of rare processes Conceive, design, construct, and operate forefront user facilities ASCR Develop networking, tools and facilities enabling scientists worldwide to collaborate P5: U.S. will host a world-leading neutrino program that will have an optimized set of short- and long-baseline neutrino oscillation experiments. “LHC upgrades constitute our highest-priority near-term large project.” (P5 report, p.10)

Describe operations associated with this core capability. Focus on operations for the accelerator complex (see slide #11 for example). 5/16/16Nigel Lockyer | Fermilab Operations Review19 Operations for Large Scale User Facilities

5/16/16Nigel Lockyer | Fermilab Operations Review20 Major Initiatives

1.LBNF/DUNE + SBN 2.LCLS-II 3.PIP-II 4.LHC upgrades (CMS, LARP) 5.Muon g-2, and associated AIPs 6.Mu2e (go, go, go) 7.UUP 8.Operations, in order 1.NOvA (500 kW  700 kW) 2.MicroBooNE 3.Everything else 9.Cosmic projects and ops 10.R&D for accelerators & detectors Priorities: Lab activities ranked by importance 5/16/16Nigel Lockyer | Fermilab Operations Review21

1.LBNF/DUNE + SBN 2.LCLS-II 3.PIP-II 4.LHC upgrades (CMS, LARP) 5.Muon g-2, and associated AIPs 6.Mu2e (go, go, go) 7.UUP 8.Operations, in order 1.NOvA (500 kW  700 kW) 2.MicroBooNE 3.Everything else 9.Cosmic projects and ops 10.R&D for accelerators & detectors Priorities: Lab activities ranked by importance 5/16/16Nigel Lockyer | Fermilab Operations Review22 Accelerator & Detector Facilities Accelerator & Detector Operations Accelerator & Detector R&D Detector Facilities

We are applying best practices from the lab’s expertise with projects and project management to operations activities. Examples include: Muon Campus – General Plant Projects (GPPs) and Accelerator Improvement Projects (AIPs) Short Baseline Neutrino (SBN) program Applying Best Practices from Projects to Operations 5/16/16Nigel Lockyer | Fermilab Operations Review23

5/16/16Nigel Lockyer | Fermilab Operations Review24 Strategic Plan

Fermilab has four core capabilities that together define the scope of the laboratory’s strategic plan. Each core capability is defined in terms of:  Alignment and relevance to DOE missions (such as operating forefront user facilities) and national needs  Combination of facilities, equipment, and people  Unique and/or world-leading aspects The laboratory’s strategic plan is aligned with the strategy established in the U.S. strategic plan (P5 plan) for particle physics. 5/16/16Nigel Lockyer | Fermilab Operations Review25 Summary