Parallel computing for data science
Matloff, Norman
creator
Boca Raton
CRC Press
2016
| 0
xxiii, 324 p.
Parallel Computing for Data Science: With Examples in R, C++ and CUDA is one of the first parallel computing books to concentrate exclusively on parallel data structures, algorithms, software tools, and applications in data science. It includes examples not only from the classic "n observations, p variables" matrix format but also from time series, network graph models, and numerous other structures common in data science. The examples illustrate the range of issues encountered in parallel programming.
With the main focus on computation, the book shows how to compute on three types of platforms: multicore systems, clusters, and graphics processing units (GPUs). It also discusses software packages that span more than one type of hardware and can be used from more than one type of programming language. Readers will find that the foundation established in this book will generalize well to other languages, such as Python and Julia.
(https://www.crcpress.com/Parallel-Computing-for-Data-Science-With-Examples-in-R-C-and-CUDA/Matloff/p/book/9781466587014)
Table of Contents:
1. Introduction to Parallel Processing in R
Recurring Theme: The Principle of Pretty Good Parallelism
A Note on Machines
Recurring Theme: Hedging One's Bets
Extended Example: Mutual Web Outlinks
2. "Why Is My Program So Slow?": Obstacles to Speed
Obstacles to Speed
Performance and Hardware Structures
Memory Basics
Network Basics
Latency and Bandwidth
Thread Scheduling
How Many Processes/Threads?
Example: Mutual Outlink Problem
"Big O" Notation
Data Serialization
"Embarrassingly Parallel" Applications
3. Principles of Parallel Loop Scheduling
General Notions of Loop Scheduling
Chunking in Snow
A Note on Code Complexity
Example: All Possible Regressions
The partools Package
Example: All Possible Regressions, Improved Version
Introducing Another Tool: multicore
Issues with Chunk Size
Example: Parallel Distance Computation
The foreach Package
Stride
Another Scheduling Approach: Random Task Permutation
Debugging snow and multicore Code
4. The Shared Memory Paradigm: A Gentle Introduction through R
So, What Is Actually Shared?
Clarity and Conciseness of Shared-Memory Programming
High-Level Introduction to Shared-Memory Programming: Rdsm Package
Example: Matrix Multiplication
Shared Memory Can Bring a Performance Advantage
Locks and Barriers
Example: Finding the Maximal Burst in a Time Series
Example: Transformation of an Adjacency Matrix
Example: k-Means Clustering
5. The Shared Memory Paradigm: C Level
OpenMP
Example: Finding the Maximal Burst in a Time Series
OpenMP Loop Scheduling Options
Example: Transformation an Adjacency Matrix
Example: Transforming an Adjacency Matrix, R-Callable Code
Speedup in C
Run Time vs. Development Time
Further Cache/Virtual Memory Issues
Reduction Operations in OpenMP
Debugging
Intel Thread Building Blocks (TBB)
Lockfree Synchronization
6. The Shared Memory Paradigm: GPUs
Overview
Another Note on Code Complexity
Goal of This Chapter
Introduction to NVIDIA GPUs and CUDA
Example: Mutual Inlinks Problem
Synchronization on GPUs
R and GPUs
The Intel Xeon Phi Chip
7. Thrust and Rth
Hedging One's Bets
Thrust Overview
Rth
Skipping the C++
Example: Finding Quantiles
Introduction to Rth
8. The Message Passing Paradigm
Message Passing Overview
The Cluster Model
Performance Issues
Rmpi
Example: Pipelined Method for Finding Primes
Memory Allocation Issues
Message-Passing Performance Subtleties
9. MapReduce Computation
Apache Hadoop
Other MapReduce Systems
R Interfaces to MapReduce Systems
An Alternative: "Snowdoop"
10. Parallel Sorting and Merging
The Elusive Goal of Optimality
Sorting Algorithms
Example: Bucket Sort in R
Example: Quicksort in OpenMP
Sorting in Rth
Some Timing Comparisons
Sorting on Distributed Data
11. Parallel Prefix Scan
General Formulation
Applications
General Strategies for Parallel Scan Computation
Implementations of Parallel Prefix Scan
Parallel cumsum() with OpenMP
Example: Moving Average
12. Parallel Matrix Operations
Tiled Matrices
Example: Snowdoop Approach to Matrix Operations
Parallel Matrix Multiplication
BLAS Libraries
Example: A Look at the Performance of OpenBLAS
Example: Graph Connectedness
Solving Systems of Linear Equations
Sparse Matrices
13. Inherently Statistical Approaches: Subset Methods
Chunk Averaging
Bag of Little Bootstraps
Subsetting Variables
C++ - Computer program language
CUDA - Computer architecture
Data transmission systems
Parallel processing - Electronic computers
Electronic data processing
R - Computer program language
005.3 M2P2
9781466587014
160530