In the embedded world, symmetric multiprocessing architectures are currently most popular, however more embedded hardware platforms are being developed with asymmetric multiprocessor architectures. These may enable higher performance and provide cleaner separation of subsystems. Telecom applications are typically designed applying a planar architecture pattern. The goal of our experiments is to compare the performance and cross-plane influence in dualcore symmetric and asymmetric multiprocessing environments. Next to a pronounced performance difference, a crossinfluence between the different planes has been verified.status: publishe
International audienceAmdahl’s law is a fundamental tool for understanding the evolution of performa...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
The number of active threads in a multi-core processor varies over time and is often much smaller th...
In the embedded world, symmetric multiprocessing architectures are currently most popular, however m...
Typical telecom applications apply a planar architecture pattern based on the processing requirement...
In emnedded systems there is a variant of Multicore System on Chip devices (MSoC devices) where not ...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
Abstract—Several studies and real world designs have advocated the sharing of large execution units ...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
Chip Multiprocessors are becoming common as the cost of increasing chip power begins to limit single...
Due to physical limitations and design difficulties, computer processor architecture has shifted to ...
The number of active threads in a multi-core processor varies over time and is often much smaller th...
Technology advancements allowed more transistors to be packed in a smaller area, while the improved ...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
As the role of the computer as a communications device increases, we must reexamine the role an oper...
International audienceAmdahl’s law is a fundamental tool for understanding the evolution of performa...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
The number of active threads in a multi-core processor varies over time and is often much smaller th...
In the embedded world, symmetric multiprocessing architectures are currently most popular, however m...
Typical telecom applications apply a planar architecture pattern based on the processing requirement...
In emnedded systems there is a variant of Multicore System on Chip devices (MSoC devices) where not ...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
Abstract—Several studies and real world designs have advocated the sharing of large execution units ...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
Chip Multiprocessors are becoming common as the cost of increasing chip power begins to limit single...
Due to physical limitations and design difficulties, computer processor architecture has shifted to ...
The number of active threads in a multi-core processor varies over time and is often much smaller th...
Technology advancements allowed more transistors to be packed in a smaller area, while the improved ...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
As the role of the computer as a communications device increases, we must reexamine the role an oper...
International audienceAmdahl’s law is a fundamental tool for understanding the evolution of performa...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
The number of active threads in a multi-core processor varies over time and is often much smaller th...