Our research projects vary in size, scope, and duration, but they share a focus on developing tools and methods that help LLNL deliver on its missions to the nation and, more broadly, advance the state of the art in scientific HPC. Projects are organized here in three ways: Active projects are those currently funded and regularly updated. Legacy projects are no longer actively developed. The A-Z option sorts all projects alphabetically, both active and legacy.

Active | A-Z | Legacy

Topological Analysis

Charting Data’s Peaks and Valleys

LLNL and University of Utah researchers have developed an advanced, intuitive method for analyzing and visualizing complex data sets.

Computational Math | Data Management | Data Science | Scientific Visualization

TOSS

Speeding Up Commodity Cluster Computing

Researchers are developing a standardized and optimized operating system and software for deployment across Linux clusters to enable HPC at a reduced cost.

Cluster Management | HPC Systems and Software

UMap

An Application-Oriented, User-Level Memory-Mapping Library

UMap uniquely exploits the prominent role of complex memories in today’s servers and offers new capabilities to directly access large memory-mapped datasets.

Data Movement and Memory | Emerging Architectures | Near Memory Computing | Open-Source Software

Umpire

Managing Heterogeneous Memory Resources

Umpire is a resource management library that allows the discovery, provision, and management of memory on next-generation architectures.

Data Movement and Memory | HPC Systems and Software | Hybrid/Heterogeneous | Open-Source Software

Unify

Distributed Burst Buffer File System

This open-source file system framework supports hierarchical HPC storage systems by utilizing node-local burst buffers.

Fault Tolerance and Resilience | HPC Systems and Software | Open-Source Software | Storage, File Systems, and I/O

Variorum

Vendor-Agnostic Power Management

Collecting variants in low-level hardware features across multiple GPU and CPU architectures.

Exascale | HPC Systems and Software | Open-Source Software | Performance, Portability, and Productivity | Power Management

VBL++

Virtual Beamline Code

Upgraded with the C++ programming language, VBL provides high-fidelity models and high-resolution calculations of laser performance predictions.

Collaborations | Computational Science | Lasers and Optics | Software Engineering

VCK

Vlasov Continuum Kinetics

A high-fidelity, specialized code solves partial differential equations for plasma simulations.

Computational Math | Computational Science | Discrete Mathematics | PDE Methods | Solvers
Legacy

Veritas

Validating Proxy Apps

Veritas provides a method for validating proxy applications to ensure that they capture the intended characteristics of their parents.

Co-Design | HPC Systems and Software | Proxy Apps

Vidya

Creating Machine Learning Tools to Optimize Design Simulations

This project advances research in physics-informed ML, invests in validated and explainable ML, creates an advanced data environment, builds ML expertise across the complex, and more.

AI/ML | Computational Math | Computational Science | Data Science | Discrete Mathematics
Legacy

VPC

Variable Precision Computing

Researchers develop innovative data representations and algorithms to provide faster, more efficient ways to preserve information encoded in data.

Computational Math | Data Movement and Memory | Data Science | HPC Systems and Software

XBraid

Parallel Time Integration with Multigrid

This project constructs coarse time grids and uses each solution to improve the next finer-scale solution, simultaneously updating a solution guess over the entire space-time domain.

Computational Math | Open-Source Software | Solvers

zfp

Compressed Floating-Point and Integer Arrays

zfp is an open-source C/C++ library for compressed floating-point and integer arrays that support high throughput read and write random access.

Data Compression | Data Science | Open-Source Software