Embedded Linux: Hardware, Software, and Interfacing 1st Edition, 2nd Hand
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Embedded Linux covers the development and implementation of interfacing applications on an embedded Linux platform. It includes a comprehensive discussion of platform selection, crosscompilation, kernel compilation, root filesystem creation, booting, remote debugging, real-world interfacing, application control, data collection, archiving, and presentation.
This book includes serial, parallel, memory I/O, USB, and interrupt-driven hardware designs using x86-, StrongARM®-, and PowerPC®-based target boards. In addition, you will find simple device driver module code that connects external devices to the kernel, and network integration code that connects embedded Linux field devices to a centralized control center. Examples teach hardware developers how to store and activate field bits and deliver process information using open source software. If you are a hardware developer, software developer, system integrator, or product manager who's begun exploring embedded Linux for interfacing applications, this book is for you.
Select an embedded Linux platform (x86, StrongARM®, and PowerPC® architectures are covered)
Create a cross-compiling and debugging development environment
Build a custom Linux kernel for each architecture
Create a minimum root filesystem
Boot the custom Linux kernel on three target boards with x86, SA-1110, and MPC860 microprocessors
Remote debug programs running on a target board across an ethernet network using GNU tools
Connect data acquisition and control electronics/peripherals using the microprocessor's serial, parallel, memory I/O, and USB interfaces
Measure average interrupt latencies for the x86, SA-1110, and MPC860 microprocessors and design an interrupt-driven process timer with 1mS accuracy
Interface the peripherals to the kernel and applications using device driver modules
Collect, control, store, and present data via open source protocols and applications
Analyze embedded Linux vendor product offerings.
About the Author
Craig Hollabaugh, Ph.D., first administered Sun® and Digital® workstations while pursuing a Ph.D. in electrical engineering at Georgia Institute of Technology. His first embedded design, US Patent #5,222,027, remotely monitors a petroleum process. In 1995, at Wireless Scientific®, he began using Linux for industrial control.
Craig currently consults for three companies from his home in Ouray, Colorado. He developed the Proteus Scalable Node™ code for Antec. At Clifton, Weiss and Associates, he's a member of a carrier-class telecommunications network design team. He's also designing FM, MP3, and Bluetooth™ headset electronics for Arriva®.
Publisher : AddisonWesley Professional; 1st edition
Language : English
Paperback : 432 pages
This book includes serial, parallel, memory I/O, USB, and interrupt-driven hardware designs using x86-, StrongARM®-, and PowerPC®-based target boards. In addition, you will find simple device driver module code that connects external devices to the kernel, and network integration code that connects embedded Linux field devices to a centralized control center. Examples teach hardware developers how to store and activate field bits and deliver process information using open source software. If you are a hardware developer, software developer, system integrator, or product manager who's begun exploring embedded Linux for interfacing applications, this book is for you.
Select an embedded Linux platform (x86, StrongARM®, and PowerPC® architectures are covered)
Create a cross-compiling and debugging development environment
Build a custom Linux kernel for each architecture
Create a minimum root filesystem
Boot the custom Linux kernel on three target boards with x86, SA-1110, and MPC860 microprocessors
Remote debug programs running on a target board across an ethernet network using GNU tools
Connect data acquisition and control electronics/peripherals using the microprocessor's serial, parallel, memory I/O, and USB interfaces
Measure average interrupt latencies for the x86, SA-1110, and MPC860 microprocessors and design an interrupt-driven process timer with 1mS accuracy
Interface the peripherals to the kernel and applications using device driver modules
Collect, control, store, and present data via open source protocols and applications
Analyze embedded Linux vendor product offerings.
About the Author
Craig Hollabaugh, Ph.D., first administered Sun® and Digital® workstations while pursuing a Ph.D. in electrical engineering at Georgia Institute of Technology. His first embedded design, US Patent #5,222,027, remotely monitors a petroleum process. In 1995, at Wireless Scientific®, he began using Linux for industrial control.
Craig currently consults for three companies from his home in Ouray, Colorado. He developed the Proteus Scalable Node™ code for Antec. At Clifton, Weiss and Associates, he's a member of a carrier-class telecommunications network design team. He's also designing FM, MP3, and Bluetooth™ headset electronics for Arriva®.
Publisher : AddisonWesley Professional; 1st edition
Language : English
Paperback : 432 pages