Memory Controllers For Mixed Time Criticality Systems

Memory Controllers for Mixed-Time-Criticality Systems  eBooks & eLearning

Posted by Underaglassmoon at April 21, 2016
Memory Controllers for Mixed-Time-Criticality Systems

Memory Controllers for Mixed-Time-Criticality Systems: Architectures, Methodologies and Trade-offs
Springer | Engineering | May 15 2016 | ISBN-10: 3319320939 | 202 pages | pdf | 7.89 mb

Authors: Goossens, S., Chandrasekar, K., Akesson, B., Goossens, K.
Discusses power-constrained mixed-time-criticality systems and why they are complex to design and verify
Explains the concepts of predictability and composability and how they address the design and verification challenges of mixed-time-criticality systems
Provides an overview of the requirements of memory controllers in power-constrained mixed-time-criticality systems and discusses why current memory controllers struggle to satisfy them
Memory Controllers for Real-Time Embedded Systems: Predictable and Composable Real-Time Systems (repost)

Benny Akesson, Kees Goossens, "Memory Controllers for Real-Time Embedded Systems: Predictable and Composable Real-Time Systems"
S,.,ger | 2011 | ISBN: 144198206X | 235 pages | PDF | 2 MB
Memory Controllers for Real-Time Embedded Systems: Predictable and Composable Real-Time Systems

Benny Akesson, Kees Goossens, "Memory Controllers for Real-Time Embedded Systems: Predictable and Composable Real-Time Systems"
S,.,ger | 2011 | ISBN: 144198206X | 235 pages | PDF | 2 MB
A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems (repost)

A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems by David Powell
English | Dec 3, 2010 | ISBN: 1441948805 | 242 Pages | PDF | 8 MB

The design of computer systems to be embedded in critical real-time applications is a complex task. Such systems must not only guarantee to meet hard real-time deadlines imposed by their physical environment, they must guarantee to do so dependably, despite both physical faults (in hardware) and design faults (in hardware or software). A fault-tolerance approach is mandatory for these guarantees to be commensurate with the safety and reliability requirements of many life- and mission-critical applications.
A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems

A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems by David Powell
Springer; Reprint of hardcover 1st ed. 2001 edition | December 3, 2010 | English | ISBN: 1441948805 | 242 pages | PDF | 8 MB

The design of computer systems to be embedded in critical real-time applications is a complex task. Such systems must not only guarantee to meet hard real-time deadlines imposed by their physical environment, they must guarantee to do so dependably, despite both physical faults (in hardware) and design faults (in hardware or software).
Embedded Memory Design for Multi-Core and Systems on Chip [Repost]

Baker Mohammad - Embedded Memory Design for Multi-Core and Systems on Chip
Published: 2013-10-30 | ISBN: 146148880X | PDF | 142 pages | 3 MB
Embedded Memory Design for Multi-Core and Systems on Chip (Repost)

Embedded Memory Design for Multi-Core and Systems on Chip By Baker Mohammad
2014 | 104 Pages | ISBN: 146148880X | PDF | 4 MB
Embedded Memory Design for Multi-Core and Systems on Chip

Embedded Memory Design for Multi-Core and Systems on Chip By Baker Mohammad
2014 | 104 Pages | ISBN: 146148880X | PDF | 4 MB
The Inverse Method: Parametric Verification of Real-time Unbedded Systems (repost)

The Inverse Method: Parametric Verification of Real-time Unbedded Systems (FOCUS Series) by Etienne André and Romain Soulat
English | ISBN: 1848214472 | 2013 | PDF | 161 pages | 4,8 MB

This book introduces state-of-the-art verification techniques for real-time embedded systems, based on the inverse method for parametric timed automata. It reviews popular formalisms for the specification and verification of timed concurrent systems and, in particular, timed automata as well as several extensions such as timed automata equipped with stopwatches, linear hybrid automata and affine hybrid automata.

Low-Complexity Controllers for Time-Delay Systems (Repost)  eBooks & eLearning

Posted by enmoys at June 2, 2016
Low-Complexity Controllers for Time-Delay Systems (Repost)

Low-Complexity Controllers for Time-Delay Systems By Alexandre Seuret, Hitay Özbay, Catherine Bonnet
2014 | 238 Pages | ISBN: 3319055755 | PDF | 7 MB