Recent Algorithmic (and Practical) Developments in ML
Abstract not provided.
Publications
Partitioning and Preconditioning for Circuit Simulation
Abstract not provided.
Hypergraph-based Unyssetric Nested Dissection Ordering for Sparse LU Factorization
SIAM Journal on Scientific Computing
Abstract not provided.
Vertex separator as hypergraph partitioning
Abstract not provided.
Sandia/EPA TEVA-SPOT Water Security Team Chosen as Finalist for 2008 Edelman Award Competition
Abstract not provided.
A Nested Dissection Approach for Sparse Matrix Partitioning
Abstract not provided.
Efficient Partitioning and Load Balancing
Abstract not provided.
Limited-Memory Techniques for Sensor Placement in Water Distribution Networks
Abstract not provided.
Scientific Computing at Sandia: Trilinos and Zoltan
Abstract not provided.
Combinatorial Scientific Computing: Enabling Petascale Simulations
Abstract not provided.
Dynamic Load Balancing and Partitioning using the Zoltan Toolkit
Abstract not provided.
Tutorial: Partitioning Load Balancing and the Zoltan Toolkit
Abstract not provided.
Enabling High Performance Computational Science through Combinatorial Algorithms
Journal of Physics: Conference Series
Abstract not provided.
Combinatorial Algorithms Enabling Petascale Computational Science
SciDAC Review
Abstract not provided.
Partitioning and Dynamic Load Balancing for Petascale Applications
Abstract not provided.
Combinatorial Scientific Computing and Petascale Simulations
Abstract not provided.
A Bipartite Graph Model and Algorithm for Fine-Grain Parallel Sparse Matrix Distribution
Abstract not provided.
Dynamic Load Balancing for Adaptive Scientific Computations via Hypergraph Partitioning
Abstract not provided.
Zoltan 2.0 Release announcement
Abstract not provided.
Zoltan 2.0: Data-Management Services for Parallel Applications -- User's Guide
Abstract not provided.
Parallel hypergraph partitioning for irregular problems
Abstract not provided.
Parallel hypergraph partitioning for scientific computing
Graph partitioning is often used for load balancing in parallel computing, but it is known that hypergraph partitioning has several advantages. First, hypergraphs more accurately model communication volume, and second, they are more expressive and can better represent nonsymmetric problems. Hypergraph partitioning is particularly suited to parallel sparse matrix-vector multiplication, a common kernel in scientific computing. We present a parallel software package for hypergraph (and sparse matrix) partitioning developed at Sandia National Labs. The algorithm is a variation on multilevel partitioning. Our parallel implementation is novel in that it uses a two-dimensional data distribution among processors. We present empirical results that show our parallel implementation achieves good speedup on several large problems (up to 33 million nonzeros) with up to 64 processors on a Linux cluster.
A Scalable Parallel Graph Coloring Algorithm for Distributed Memory Computers
Abstract not provided.
Limits on the quality of combinatorial support bounds
Proposed for publication in Linear Algebra and Its Applications.
Abstract not provided.
Preconditioning and Linear Systems in Interior-Point Methods for LP
Abstract not provided.
Results 176–200 of 210