Divide and Conquer

Divide and Conquer Spot Noise

Direct Numerical Simulation / Numerical Algorithms / Interactive Visualization / Flow Visualization / Large Data Sets / High performance computer / Design and Implementation / Divide and Conquer / High performance computer / Design and Implementation / Divide and Conquer

Divide and conquer spot noise

Direct Numerical Simulation / Numerical Algorithms / Interactive Visualization / Flow Visualization / Large Data Sets / High performance computer / Design and Implementation / Divide and Conquer / High performance computer / Design and Implementation / Divide and Conquer

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Engineering / Algorithms / Materials Science / Solar Cell / Performance / Parallel Processing / Ab initio calculations / Micro and Nanosystems / DFT calculation / Physical sciences / Electronic Structure / Accuracy / Materials Sciences / Processors / Code Optimization / Three Dimensional / Parallel Computer / Large Scale / Atoms / Electronic Structure Calculation / Boundary Effect / Function optimization / Divide and Conquer / Lawrence Berkeley Laboratory / Parallel Processing / Ab initio calculations / Micro and Nanosystems / DFT calculation / Physical sciences / Electronic Structure / Accuracy / Materials Sciences / Processors / Code Optimization / Three Dimensional / Parallel Computer / Large Scale / Atoms / Electronic Structure Calculation / Boundary Effect / Function optimization / Divide and Conquer / Lawrence Berkeley Laboratory

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Engineering / Algorithms / Materials Science / Solar Cell / Performance / Parallel Processing / Ab initio calculations / Micro and Nanosystems / DFT calculation / Physical sciences / Electronic Structure / Accuracy / Materials Sciences / Processors / Code Optimization / Three Dimensional / Parallel Computer / Large Scale / Atoms / Electronic Structure Calculation / Boundary Effect / Function optimization / Divide and Conquer / Lawrence Berkeley Laboratory / Parallel Processing / Ab initio calculations / Micro and Nanosystems / DFT calculation / Physical sciences / Electronic Structure / Accuracy / Materials Sciences / Processors / Code Optimization / Three Dimensional / Parallel Computer / Large Scale / Atoms / Electronic Structure Calculation / Boundary Effect / Function optimization / Divide and Conquer / Lawrence Berkeley Laboratory

Engineering Large Parallel Functional Programs

Functional Programming / Shared memory / Scaling up / Programming Model / Large Scale / Design and Implementation / Programming language / Divide and Conquer / Design and Implementation / Programming language / Divide and Conquer

Engineering large parallel functional programs

Functional Programming / Shared memory / Scaling up / Programming Model / Large Scale / Design and Implementation / Programming language / Divide and Conquer / Design and Implementation / Programming language / Divide and Conquer

Engineering large parallel functional programs

Functional Programming / Shared memory / Scaling up / Programming Model / Large Scale / Design and Implementation / Programming language / Divide and Conquer / Design and Implementation / Programming language / Divide and Conquer

Divide and conquer approach for efficient pagerank computation

Markov-chain model / World Wide Web / Efficient Algorithm for ECG Coding / Computational Efficiency / First-Order Logic / Graph Partitioning / Divide and Conquer / Graph Partitioning / Divide and Conquer

A comparison of sequential Delaunay triangulation algorithms

Computational Geometry / Pure Mathematics / Numerical Analysis and Computational Mathematics / Delaunay Triangulation / Experimental Analysis / Convex Hull / Voronoi Diagram / Divide and Conquer / Convex Hull / Voronoi Diagram / Divide and Conquer

Divide and…conquer? Towards a non-algorithmic approach to syntax

Computer Science / Languages and Linguistics / Computational Linguistics / Linguistics / Computational Mathematics / Transformational and Generative Grammar / Divide and Conquer / Transformational and Generative Grammar / Divide and Conquer

Divide-and-Conquer and parallel graph reduction

Cognitive Science / Distributed Computing / Parallel Computing / Divide and Conquer

A Lagrange multiplier based divide and conquer finite element algorithm

Finite Element / Lagrange Multiplier / Divide and Conquer

Automatic inversion generates divide-and-conquer parallel programs

Program Transformation / Automatic Parallelization / Automatic code generation / Parallel Machines / Cost Optimization / Divide and Conquer

An experimental comparison of cache-oblivious and cache-conscious programs

Matrix Multiplication / Theoretical Model / Divide and Conquer

Parallel divide and conquer on meshes

Parallel Algorithms / Distributed Computing / Routing / Flow Control / Computer Software / Community Structure / Decode-And-Forward / Embedding / Contention / Dilation / Divide and Conquer / Community Structure / Decode-And-Forward / Embedding / Contention / Dilation / Divide and Conquer

Divide and conquer approach for efficient pagerank computation

Markov-chain model / World Wide Web / Efficient Algorithm for ECG Coding / Computational Efficiency / First-Order Logic / Graph Partitioning / Divide and Conquer / Graph Partitioning / Divide and Conquer

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