This work presents an automatic power estimation and implementation flow for coarse-grained reconfigurable systems, capable of guiding designers towards the optimal implementation of power-efficient systems. The entire flow is assessed over the reconfigurable computing core of a dedicated image processing accelerator, targeting an ASIC 45 nm technology
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
Power reduction is one of the biggest challenges in modern systems and tends to become a severe issu...
Complexity management, portability and long term adaptivity are common challenges in different field...
This work presents an automatic power estimation and implementation flow for coarse-grained reconfig...
In the context of coarse-grained reconfigurable systems we present a power estimation model to guide...
This paper focuses on howto efficiently reduce power consumption in coarse-grained reconfigurable de...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
Coarse Grained Arrays (CGAs) with run-time reconfigurability play an important role in accelerating ...
Abstract — Mapping applications onto reconfigurable architectures can be done in many different ways...
This thesis presents a self adaptive power management system to improve energy efficiency of coarse-...
Coarse-grained fabrics are comprised of multi-bit configurable logic blocks and configurable interco...
Recent decades have seen large growth in the silicon industry with transistor scaling and transistor...
Transistor supply voltages no longer scales at the same rate as transistor density and frequency of ...
Reconfigurable architectures become more popular now general purpose compute performance does not in...
Modern embedded systems designers are required to implement efficient multi-functional applications,...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
Power reduction is one of the biggest challenges in modern systems and tends to become a severe issu...
Complexity management, portability and long term adaptivity are common challenges in different field...
This work presents an automatic power estimation and implementation flow for coarse-grained reconfig...
In the context of coarse-grained reconfigurable systems we present a power estimation model to guide...
This paper focuses on howto efficiently reduce power consumption in coarse-grained reconfigurable de...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
Coarse Grained Arrays (CGAs) with run-time reconfigurability play an important role in accelerating ...
Abstract — Mapping applications onto reconfigurable architectures can be done in many different ways...
This thesis presents a self adaptive power management system to improve energy efficiency of coarse-...
Coarse-grained fabrics are comprised of multi-bit configurable logic blocks and configurable interco...
Recent decades have seen large growth in the silicon industry with transistor scaling and transistor...
Transistor supply voltages no longer scales at the same rate as transistor density and frequency of ...
Reconfigurable architectures become more popular now general purpose compute performance does not in...
Modern embedded systems designers are required to implement efficient multi-functional applications,...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
Power reduction is one of the biggest challenges in modern systems and tends to become a severe issu...
Complexity management, portability and long term adaptivity are common challenges in different field...