Increasing usage of multi-core processors has led to their use in real time embedded systems (RTES). This entails high performance requirements which may not be easily met when software development follows traditional techniques long used for single processor systems. In this study, parallel programming design patterns especially developed and reported in the literature will be used to improve RTES implementations on multi-core systems. Specific performance parameters will be selected for assessment, and performance of traditionally developed software will be compared with that of software developed using parallel programming patterns.M.S. - Master of Scienc
The relative ease with which it is possible to build inexpensive, high-performance multicomputers u...
This project is a study of advance computer architecture, specifically parallel processing architect...
As times, technology, and science in the area of computer technology are all expanding quickly. The ...
With the rapid advancement of parallel and distributed computing (PDC), three types of hardware and ...
The aim of this catalogue is to describe parallel design patterns and synchronization idioms suitabl...
As computers are used in most areas today improving their performance is of great importance. Until ...
Writing parallel software effectively for embedded systems is not an easy task. We believe a new app...
With multicore processors now in every computer, server, and embedded device, the need for cost-effe...
A multi-core processor is a single computing unit with two or more processors (“cores”). These cores...
It is common knowledge in Information Technology (IT) that an embedded system is based on microproce...
The next generation computing systems are focusing on parallel computing to solve the problem in fas...
Over the last three decades, computer architects have been able to achieve an increase in performanc...
International audienceEngineers who design hard real-time embedded systems express a need for severa...
Over the recent decades, the nature of multi core processors caused changing the serial programming ...
There’s no doubt that the fundamentals of computer programming were broken at the launch of the mu...
The relative ease with which it is possible to build inexpensive, high-performance multicomputers u...
This project is a study of advance computer architecture, specifically parallel processing architect...
As times, technology, and science in the area of computer technology are all expanding quickly. The ...
With the rapid advancement of parallel and distributed computing (PDC), three types of hardware and ...
The aim of this catalogue is to describe parallel design patterns and synchronization idioms suitabl...
As computers are used in most areas today improving their performance is of great importance. Until ...
Writing parallel software effectively for embedded systems is not an easy task. We believe a new app...
With multicore processors now in every computer, server, and embedded device, the need for cost-effe...
A multi-core processor is a single computing unit with two or more processors (“cores”). These cores...
It is common knowledge in Information Technology (IT) that an embedded system is based on microproce...
The next generation computing systems are focusing on parallel computing to solve the problem in fas...
Over the last three decades, computer architects have been able to achieve an increase in performanc...
International audienceEngineers who design hard real-time embedded systems express a need for severa...
Over the recent decades, the nature of multi core processors caused changing the serial programming ...
There’s no doubt that the fundamentals of computer programming were broken at the launch of the mu...
The relative ease with which it is possible to build inexpensive, high-performance multicomputers u...
This project is a study of advance computer architecture, specifically parallel processing architect...
As times, technology, and science in the area of computer technology are all expanding quickly. The ...