The ever increasing complexity of digital systems leads the reconfigurable architectures such as Field Programmable Gate Arrays (FPGA) to become highly demanded because of their in-field (re)programmability and low nonrecurring engineering (NRE) costs. Reconfigurability is achieved with high number of point configuration memories which results in extreme application flexibility and, at the same time, significant overheads in area, performance, and power compared to Application Specific Integrated Circuits (ASIC) for the same functionality. In this thesis, we propose to design FPGAs with several 3D technologies for efficient FPGA circuits. First, we integrate resistive memory based blocks to reduce the routing wirelength and widen FPGA emplo...
Emerging Non-Volatile Memories (eNVMs) such as Phase-Change RAMs (PCRAMs) or Oxide-based Resistive R...
We demonstrates a novel Field-Programmable Gate Array (FPGA) structure based on Resistive Random Acc...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-sp...
The ever increasing complexity of digital systems leads the reconfigurable architectures such as Fie...
For the last four decades, the semiconductor industry has experienced an exponential growth. Accordi...
Novel approaches in the field of memory technology should enable backend integration, where individu...
Nowadays, Microelectronics industry must handle a real “data deluge” and a growing demand of added f...
Les limites rencontrées par les dernières générations de mémoires Flash et DRAM (Dynamic Random Acce...
In our digital era, management, manipulation and data storage are real challenges. To support this r...
During the last three decades, reconfigurable logic has been growing steadily and can now be found i...
Field-programmable gate array (FPGA) is a post fabrication reconfigurable device to accelerate domai...
The main aim of this thesis is to examine the advantages of 3D stacking applied to microprocessors a...
Emerging Non-Volatile Memories (eNVMs) such as Phase-Change RAMs (PCRAMs) or Oxide-based Resistive R...
We demonstrates a novel Field-Programmable Gate Array (FPGA) structure based on Resistive Random Acc...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-sp...
The ever increasing complexity of digital systems leads the reconfigurable architectures such as Fie...
For the last four decades, the semiconductor industry has experienced an exponential growth. Accordi...
Novel approaches in the field of memory technology should enable backend integration, where individu...
Nowadays, Microelectronics industry must handle a real “data deluge” and a growing demand of added f...
Les limites rencontrées par les dernières générations de mémoires Flash et DRAM (Dynamic Random Acce...
In our digital era, management, manipulation and data storage are real challenges. To support this r...
During the last three decades, reconfigurable logic has been growing steadily and can now be found i...
Field-programmable gate array (FPGA) is a post fabrication reconfigurable device to accelerate domai...
The main aim of this thesis is to examine the advantages of 3D stacking applied to microprocessors a...
Emerging Non-Volatile Memories (eNVMs) such as Phase-Change RAMs (PCRAMs) or Oxide-based Resistive R...
We demonstrates a novel Field-Programmable Gate Array (FPGA) structure based on Resistive Random Acc...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-sp...