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[2]. The Cell Processor from Sony, Toshiba and IBM (STI) [3], and
the Sun UltraSPARC T1 (formerly codenamed Niagara) [4] signal the
growing popularity of such systems. Furthermore, Intel's very
recently announced 80-core TeraFLOP chip [5] exemplifies the
irreversible march toward many-core systems with tens or even
hundreds of processing elements. 1.2 The Dawn of the
Communication-Centric Revolution The multi-core thrust has ushered
the gradual displacement of the computati- centric design model by
a more communication-centric approach [6]. The large, sophisticated
monolithic modules are giving way to several smaller, simpler p-
cessing elements working in tandem. This trend has led to a surge
in the popularity of multi-core systems, which typically manifest
themselves in two distinct incarnations: heterogeneous
Multi-Processor Systems-on-Chip (MPSoC) and homogeneous Chip
Multi-Processors (CMP). The SoC philosophy revolves around the
technique of Platform-Based Design (PBD) [7], which advocates the
reuse of Intellectual Property (IP) cores in flexible design
templates that can be customized accordingly to satisfy the demands
of particular implementations. The appeal of such a modular
approach lies in the substantially reduced Time-To- Market (TTM)
incubation period, which is a direct outcome of lower circuit
complexity and reduced design effort. The whole system can now be
viewed as a diverse collection of pre-existing IP components
integrated on a single die.
[2]. The Cell Processor from Sony, Toshiba and IBM (STI) [3], and
the Sun UltraSPARC T1 (formerly codenamed Niagara) [4] signal the
growing popularity of such systems. Furthermore, Intel's very
recently announced 80-core TeraFLOP chip [5] exemplifies the
irreversible march toward many-core systems with tens or even
hundreds of processing elements. 1.2 The Dawn of the
Communication-Centric Revolution The multi-core thrust has ushered
the gradual displacement of the computati- centric design model by
a more communication-centric approach [6]. The large, sophisticated
monolithic modules are giving way to several smaller, simpler p-
cessing elements working in tandem. This trend has led to a surge
in the popularity of multi-core systems, which typically manifest
themselves in two distinct incarnations: heterogeneous
Multi-Processor Systems-on-Chip (MPSoC) and homogeneous Chip
Multi-Processors (CMP). The SoC philosophy revolves around the
technique of Platform-Based Design (PBD) [7], which advocates the
reuse of Intellectual Property (IP) cores in flexible design
templates that can be customized accordingly to satisfy the demands
of particular implementations. The appeal of such a modular
approach lies in the substantially reduced Time-To- Market (TTM)
incubation period, which is a direct outcome of lower circuit
complexity and reduced design effort. The whole system can now be
viewed as a diverse collection of pre-existing IP components
integrated on a single die.
The rapid development of wireless digital communication technology
and the corresponding network software systems have created new
horizons for communication beyond the Internet realising the
connected society. Among them, the field of mobile ad hoc
networking is experiencing unprecedented growth in its scale and
application diversity. Without requiring the pre-existence of
communication infrastructures, a temporary network can be
established on demand and disappears when there is no need.
Although some basic concepts have been identified and elaborated,
the mobile ad hoc networking is still in its early stage of
research and development. Multihop communication with dynamic
topology caused by mobility poses interesting but unique challenges
ranging from the network-layer connectivity problem to the
link-layer capacity issue. And, it should not be considered as a
natural extension of infrastructure-based networks, such as
cellular networks and IEEE 802-11 networks, because it often leads
to confusion and non-optimal design choices.
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