Philadelphia, : Edwards, 2006

19-302-1715-3

279 p. : ill. ; 24 cm

Inglese

Indianapolis, Indiana : , : Visual, , 2014

©2014

1-118-76827-2

1 online resource (322 p.)

Teach Yourself Visually

004.165

Microcomputers

Raspberry Pi (Computer)

Programming languages (Electronic computers)

Computer programming

Inglese

Includes index.

About the Author; Table of Contents; Chapter 1: Getting Started with Raspberry Pi; Introducing Raspberry Pi; Take a Tour of Raspberry Pi; Choose Accessories; Choose and Use a Case; Connect a Monitor; Connect USB Accessories; Connect Power and Boot; Chapter 2: Selecting an Operating System; Understanding OS Options; Prepare an SD Card; Copy NOOBS to an SD card; Select and Install Raspbian Wheezy; Back Up an SD Card; Get Started with BerryBoot; Chapter 3: Setting Up Raspbian; Set a Password; Select a Keyboard Layout; Select a Time Zone; Manage Memory and SD Card Options; Set Up Overclocking

Connect to the Internet Revise the Configuration; Update the Operating System; Launch the Desktop; Shut Down the Pi; Chapter 4: Working with Applications; Introducing Raspberry Pi Apps; Set Up Wi-Fi; View Web Pages; Work with Files in File Manager; Edit Text with Leafpad; Configure the Desktop; Configure the Launch Panel; Chapter 5: Working with the Command Line; Introducing Linux; Using the Command Line; Become the Superuser; Understanding the File System; Navigate and List Directories; Create a Directory; Delete Files and Directories; View a File; Find a File or Command

Copy, Move, and Rename Files Work with File Permissions; Using the Command Line History; Chapter 6: Understanding Advanced Commands; Understanding Advanced Linux; Using the Nano Editor; Set Up Autologin; Download and Install Applications; Configure an Application; Redirect Screen Output to a File; Combine Commands with a Pipe; Process Text with grep and sed; Create a Simple Script; Run a Command at Set Times; Chapter 7: Networking Raspberry Pi; Understanding Networking; Set a Static IP Address; Set Up ssh; Using ssh for Remote Command Line Access; Set Up Remote Access with VNC

Share Files with Samba Set Up a Simple Web Server; Create a Simple Web Page; Install PHP; Create a Smart Web Page; Send E-Mails; Get Started with curl and wget; Put Your Pi on the Internet; Chapter 8: Getting Started with Sound and Video; Understanding Media on the Pi; Set Monitor Resolution and Overscan; Set Up Audio; Play Video with omxplayer; License Extra Video Formats; Connect a USB Media Drive; Chapter 9: Programming with Scratch; Understanding Scratch; Import a Costume; Switch a Costume with Blocks; Create a Loop; Move a Sprite; Add a Bounce; Check for Collisions

Respond to the Mouse and Keyboard Edit a Costume; Change the Stage Background; Play Sounds; Work with Variables; Using the Pen; Chapter 10: Getting Started with Python; Introducing Python; Launch IDLE; Work with Numbers; Create Variables; Get Started with Strings; Split Strings; Pick Words from Strings; Convert Strings and Numbers; Work with Files; Create and Run a Python Script; Chapter 11: Organizing Information with Python; Get Started with Lists; Using List Methods; Explore Tuples; Work with Dictionaries; Understanding Repeats and Decisions; Make Decisions; Work with Loops and Repeats

Understanding Functions and Objects

Full-color, step-by-step guidance for learning to use Raspberry Pi!  Raspberry Pi is an inexpensive, single-board computer that serves as an introductory board for students and developing computer professionals. This image-driven, visual guide shows you how the Raspberry Pi can be easily used as a stand-alone computer, a media center, a web server, and much more. Vivid, full-color images bring Raspberry Pi projects to life, while well-illustrated circuit diagrams and step-by-step practical advice cover everything from working with the included software to branching out into

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2018

9783319971360

3319971360

1 online resource (X, 217 p. 90 illus.)

Theoretical Computer Science and General Issues, , 2512-2029 ; ; 11087

004.3

Computer science - Mathematics

Artificial intelligence

Dynamics

Nonlinear theories

Mathematics - Data processing

Mathematics of Computing

Artificial Intelligence

Applied Dynamical Systems

Computational Mathematics and Numerical Analysis

Inglese

A High Arithmetic Intensity Krylov Subspace Method Based on Stencil Compiler Programs -- Applications of trace estimation techniques -- Fourier Method for Approximating Eigenvalues of Indefinite Stekloff Operator -- Proportionality-based gradient methods with applications in contact mechanics -- Schur Complement-Schwarz DD Preconditioners for Non-Stationary Darcy Flow Problems -- Relating computed and exact entities in methods based on Lanczos tridiagonalization -- Software Tool for Cranial Orthosis Design -- Implementation of BM3D Filter on Intel Xeon Phi for Rendering in

Blender Cycles -- Investigating convergence of linear SVM implemented in PermonSVM employing MPRGP algorithm -- Using ESPRESO as Linear Solver Library for Third Party FEM Tools for Solving Large Scale Problems -- MERIC and RADAR generator: tools for energy evaluation and runtime tuning of HPC applications -- Disc vs. annulus: On the bleaching pattern optimization for FRAP experiments -- Modeling and simulation of microalgae growth in a Couette-Taylor bioreactor -- Karhunen-Loéve decomposition of isotropic Gaussian random fields using a tensor approximation of autocovariance kernel -- A Bayesian approach to the identification problem with given material interfaces in the Darcy flow.

This book constitutes the thoroughly refereed post-conference proceedings of the Third International Conference on High Performance Computing in Science and Engineering, HPCSE 2017, held in Karolinka, Czech Republic, in May 2017. The 15 papers presented in this volume were carefully reviewed and selected from 20 submissions. The conference provides an international forum for exchanging ideas among researchers involved in scientific and parallel computing, including theory and applications, as well as applied and computational mathematics. The focus of HPCSE 2017 was on models, algorithms, and software tools which facilitate efficient and convenient utilization of modern parallel and distributed computing architectures, as well as on large-scale applications.