|
Showing 1 - 4 of
4 matches in All Departments
This book provides a systematic and unified methodology, including
basic principles and reusable processes, for dynamic memory
management (DMM) in embedded systems. The authors describe in
detail how to design and optimize the use of dynamic memory in
modern, multimedia and network applications, targeting the latest
generation of portable embedded systems, such as smartphones.
Coverage includes a variety of design and optimization topics in
electronic design automation of DMM, from high-level software
optimization to microarchitecture-level hardware support. The
authors describe the design of multi-layer dynamic data structures
for the final memory hierarchy layers of the target portable
embedded systems and how to create a low-fragmentation,
cost-efficient, dynamic memory management subsystem out of
configurable components for the particular memory allocation and
de-allocation patterns for each type of application. The design
methodology described in this book is based on propagating
constraints among design decisions from multiple abstraction levels
(both hardware and software) and customizing DMM according to
application-specific data access and storage behaviors.
This book defines and explores the problem of placing the instances
of dynamic data types on the components of the heterogeneous memory
organization of an embedded system, with the final goal of reducing
energy consumption and improving performance. It is one of the
first to cover the problem of placement for dynamic data objects on
embedded systems with heterogeneous memory architectures,
presenting a complete methodology that can be easily adapted to
real cases and work flows. The authors discuss how to improve
system performance and energy consumption simultaneously. Discusses
the problem of placement for dynamic data objects on embedded
systems with heterogeneous memory architectures; Presents a
complete methodology that can be adapted easily to real cases and
work flows; Offers hints on how to improve system performance and
energy consumption simultaneously.
This book provides a systematic and unified methodology, including
basic principles and reusable processes, for dynamic memory
management (DMM) in embedded systems. The authors describe in
detail how to design and optimize the use of dynamic memory in
modern, multimedia and network applications, targeting the latest
generation of portable embedded systems, such as smartphones.
Coverage includes a variety of design and optimization topics in
electronic design automation of DMM, from high-level software
optimization to microarchitecture-level hardware support. The
authors describe the design of multi-layer dynamic data structures
for the final memory hierarchy layers of the target portable
embedded systems and how to create a low-fragmentation,
cost-efficient, dynamic memory management subsystem out of
configurable components for the particular memory allocation and
de-allocation patterns for each type of application. The design
methodology described in this book is based on propagating
constraints among design decisions from multiple abstraction levels
(both hardware and software) and customizing DMM according to
application-specific data access and storage behaviors.
This book defines and explores the problem of placing the instances
of dynamic data types on the components of the heterogeneous memory
organization of an embedded system, with the final goal of reducing
energy consumption and improving performance. It is one of the
first to cover the problem of placement for dynamic data objects on
embedded systems with heterogeneous memory architectures,
presenting a complete methodology that can be easily adapted to
real cases and work flows. The authors discuss how to improve
system performance and energy consumption simultaneously. Discusses
the problem of placement for dynamic data objects on embedded
systems with heterogeneous memory architectures; Presents a
complete methodology that can be adapted easily to real cases and
work flows; Offers hints on how to improve system performance and
energy consumption simultaneously.
|
You may like...
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
|