The crisis of technology scaling led the industry of semiconductors towards the adoption of disruptive technologies and innovations to sustain the evolution of microprocessors and keep under control the timing of the design cycle. Multi-core and many-core architectures sought more energy-efficient computation by replacing a power-hungry processor with multiple simpler cores exploiting parallelism. Multi-core processors alone, however, turned out to be insufficient to sustain the ever growing demand for energy and power-efficient computation without compromising performance. Therefore, designers were pushed to drift from homogeneous architectures towards more complex heterogeneous systems that employ the large number of available transistors...
This thesis describes the efficient design of a future many-core processor that can provide higher p...
The performance of a platform is evaluated based on its ability to deal with the processing of multi...
The end of Dennard scaling and Moore's law has motivated a rise in the use of parallelism and hardwa...
Modern applications like machine learning, autonomous vehicles, and 5G networking require an order o...
Heterogeneous System-on-Chip (SoC) architectures combine general-purpose processors with many accele...
Multi-/many-core heterogeneous architectures are shaping current and upcoming generations of compute...
With the emergence of big data, the need for more computationally intensive processors that can hand...
Due to the tight power budget and reduced time-to-market, Systems-on-Chip (SoC) have emerged as a po...
The recent years have witnessed a variety of new embedded applications. Typical examples include mob...
During the last few decades an unprecedented technological growth has been at the center of the embe...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
The many-core design paradigm requires flexible and modular hardware and software components to prov...
As processor development shifts from strict single core frequency scaling to het- erogeneous resourc...
Since dark silicon and the end of multicore scaling, multi/many-core system-on-a-chip (SoC) platform...
With the continued progress in VLSI technologies, we can integrate numerous cores in a single billio...
This thesis describes the efficient design of a future many-core processor that can provide higher p...
The performance of a platform is evaluated based on its ability to deal with the processing of multi...
The end of Dennard scaling and Moore's law has motivated a rise in the use of parallelism and hardwa...
Modern applications like machine learning, autonomous vehicles, and 5G networking require an order o...
Heterogeneous System-on-Chip (SoC) architectures combine general-purpose processors with many accele...
Multi-/many-core heterogeneous architectures are shaping current and upcoming generations of compute...
With the emergence of big data, the need for more computationally intensive processors that can hand...
Due to the tight power budget and reduced time-to-market, Systems-on-Chip (SoC) have emerged as a po...
The recent years have witnessed a variety of new embedded applications. Typical examples include mob...
During the last few decades an unprecedented technological growth has been at the center of the embe...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
The many-core design paradigm requires flexible and modular hardware and software components to prov...
As processor development shifts from strict single core frequency scaling to het- erogeneous resourc...
Since dark silicon and the end of multicore scaling, multi/many-core system-on-a-chip (SoC) platform...
With the continued progress in VLSI technologies, we can integrate numerous cores in a single billio...
This thesis describes the efficient design of a future many-core processor that can provide higher p...
The performance of a platform is evaluated based on its ability to deal with the processing of multi...
The end of Dennard scaling and Moore's law has motivated a rise in the use of parallelism and hardwa...