Mission

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XCP-8: Verification and Analysis

Organizations

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Weapons Engineering

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Engineering Technology and Design (E Division)

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Mechanical & Thermal Engineering (E-1)

Modern Manufacturing Methodologies (E-2)

Automation, Robotics, & Controls (E-3)

Experimental Design Engineering & Assembly (E-5)

Non-Destructive Testing & Analysis (E-6)

Test Engineering (E-14)

Integrated Weapons Experiments (J Division)

Dynamic Experiments (M Division)

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Shock & Detonation Physics (M-9)

Weapon Stockpile Modernization (Q Division)

Weapon Systems Engineering (W Division)

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Gilbert Ratliff

Physical Sciences

Chemical, Earth and Life Sciences

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Microbial and Biome Sciences

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Inorganic, Isotope, and Actinide Chemistry

Nuclear and Radiochemistry

Physical Chemistry and Applied Spectroscopy

Earth and Environmental Sciences

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Energy and Natural Resources Security Group

National Security Earth Science Group

Climate, Ecology and Environment Group

Scientific Software

Advanced Computational Geosciences Initiative

HR-ITS Live Course Materials and Evaluation

Space Hazards Induced Near Earth by Large Dynamic Storms

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Complex Model Downloads

Intelligence and Space Research

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ISR-1: Space Science and Applications

ISR-2: Electromagnetic Sciences & Cognitive Space Applications

ISR-3: Space Data and Software Systems

ISR-4: Space Electronics and Signal Processing

ISR-5: Space Instrument Realization

ISR-6: Space Remote Sensing and Data Science

Nuclear Engineering and Nonproliferation

Laboratory Directed Research and Development

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LDRD Quarterly Highlights

LDRD Performance Metrics

Long-Term Impact

Operations (DDOPS)Environment, Safety, Health, and Quality Plutonium Facilities Engineering

Detonator Production

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Detonator Production Culture

Weapons Production

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Pit Technologies

Supply Chain and Logistics

Prototype Fabrication

Nuclear Process Infrastructure

Program Project Interface

Actinide Material Processing and Power

Analytics, Intelligence, and Technology

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A-1: Information Systems & Modeling

A-2: Intelligence & Systems Analysis

A-3: Technology Applications

A-4: Advanced Research in Cyber Systems

A-5: Complex Response Solutions

X Computational Physics

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XCP-1: Lagrangian Codes

XCP-2: Eulerian Codes

XCP-3: Monte Carlo Codes

XCP-4: Continuum Models and Numerical Methods

XCP-5: Materials and Physical Data

XCP-6: Plasma Theory and Applications

XCP-8: Verification and Analysis

Parallel Computing Summer Workshop

Computational Physics Student Summer Workshop

Electron Microscopy Lab

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Apreo S, Apreo 2 S, and Inspect F SEMs

Helios G4 PFIB DualBeam

Helios Nanolab 600 DualBeam SEM/FIB

ThermoFisher Tecnai F30 TEM

ThermoFisher Titan 80-300

National Criticality Experiments Research Center

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Visitor Information

Radiation Protection

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RCT Recruitment

Annual Occupational Radiation Dosimetry Report

Plutonium Infrastructure Fire Protection Office X Theoretical Design Weapons Research Services

Safeguards and Security Technology Training Program

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Safeguards and Security Training Courses

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Advanced Gamma Nondestructive Assay

Advanced Neutron Nondestructive Assay

Fundamentals of Nondestructive Assay

Plutonium Calorimetric Assay

Statistical Concepts in Nuclear Safeguards

Online Training

Technical References

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Improving confidence in science-based predictions of multi-physics and multi-component simulation codes

Challenging and assessing the accuracy, credibility, robustness, and performance of multi-physics simulation codes

We work in close partnership with the experimental community, modeling community, simulation code teams, the model implementation teams, and our customers to ensure that our activities are technically relevant, scientifically grounded, and achieve maximum impact on programmatic goals. The group supports the national goals of NNSA Defense Programs in predictive capability assessment and integrated computational and experimental science.

XCP-8 underwrites the confidence basis of XCP physics codes for mission-relevant modeling, predictions, and applications using advanced analysis from five coordinated thrust areas:

Verification and Validation (V&V) of computational multiphysics codes for applications in extreme conditions,
Uncertainty Quantification (UQ) of predictive capabilities in extrapolative regimes with limited or no data,
Advanced data science, including machine learning (ML), applied to computational physics simulations and sparse experimental data
Workflows and tools, including visualization, simulation and analysis infrastructure, and comparison tools, and
Weapons analysis and prediction which can inform decision-makers of implications integrated multiphysics applications.

XCP-8 is uniquely positioned to bridge mission applications with specialized disciplines and tools. As we respond to changing mission, computing architecture, data science, and experimental directions, we work in close partnership with experimentalists, theorists, statisticians, simulation code teams, model implementation teams, and our customers to ensure that our activities are technically relevant, scientifically grounded, and achieve maximum impact on programmatic goals. The group supports the national goals of NNSA Defense Programs in predictive capability assessment and integrated computational and experimental science.

The applications of interest in XCP-8 are multiphysics and span extreme conditions and regimes. Single physics focus areas include:

Hydrodynamics,
Material strength and damage,
Equation of state,
Reactive flow,
High-energy density physics,
Instabilities and turbulence, and
Radiation transport and criticality.

XCP-8 Gallery

XCP-8 Gallery

XCP-8 Gallery

XCP-8 Gallery

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