Abstract—In chip design today and for a foreseeable future, on-chip communication is not only a performance bottleneck but also a substantial power consumer. This work focuses on employing dynamic voltage and frequency scaling (DVFS) policies for networks-on-chip (NoC) and shared, distributed last-level caches (LLC). In particular, we consider a practical system architecture where the distributed LLC and the NoC share a voltage/frequency domain which is separate from the core domain. This architecture enables controlling the relative speed between the cores and memory hierarchy without introducing synchronization delays within the NoC. DVFS for this archi-tecture is more difficult than individual link/core-based DVFS since it involves spati...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
It is generally desirable to reduce the power consumption of embedded systems. Dynamic Voltage and F...
Advances in technology scaling, coupled with aggressive voltage scaling results in significant relia...
As the core count in processor chips grows, so do the on-die, shared resources such as on-chip commu...
Abstract—Power consumption remains one of the most impor-tant design objectives for network-on-chip ...
Abstract—The use of power management techniques is mandatory in embedded devices, which must provide...
We analyze the power-delay trade-off in a Network-on-Chip (NoC) under three Dynamic Voltage and Freq...
Previously, research and design of Network-on-Chip (NoC) paradigms where mainly focused on improving...
As Networks-on-Chip (NoCs) continue to consume a large frac-tion of the total chip power budget, dyn...
Abstract—High-performance processors are becoming increasingly power bound with technology scaling. ...
In this brief, we propose local automatic rate adjustment in network-on-chips (NoC) (LAURA-NoC), a N...
Dynamic Voltage and Frequency Scaling (DVFS) can be a very effective power management strategy not o...
Performance and power are the first order design metrics for Network-on-Chips (NoCs) that have becom...
Due to chip power density limitations as well as the recent breakdown of Dennard's Scalingover the p...
A key challenge of building chip multiprocessors (CMPs) is providing an efficient communication infr...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
It is generally desirable to reduce the power consumption of embedded systems. Dynamic Voltage and F...
Advances in technology scaling, coupled with aggressive voltage scaling results in significant relia...
As the core count in processor chips grows, so do the on-die, shared resources such as on-chip commu...
Abstract—Power consumption remains one of the most impor-tant design objectives for network-on-chip ...
Abstract—The use of power management techniques is mandatory in embedded devices, which must provide...
We analyze the power-delay trade-off in a Network-on-Chip (NoC) under three Dynamic Voltage and Freq...
Previously, research and design of Network-on-Chip (NoC) paradigms where mainly focused on improving...
As Networks-on-Chip (NoCs) continue to consume a large frac-tion of the total chip power budget, dyn...
Abstract—High-performance processors are becoming increasingly power bound with technology scaling. ...
In this brief, we propose local automatic rate adjustment in network-on-chips (NoC) (LAURA-NoC), a N...
Dynamic Voltage and Frequency Scaling (DVFS) can be a very effective power management strategy not o...
Performance and power are the first order design metrics for Network-on-Chips (NoCs) that have becom...
Due to chip power density limitations as well as the recent breakdown of Dennard's Scalingover the p...
A key challenge of building chip multiprocessors (CMPs) is providing an efficient communication infr...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
It is generally desirable to reduce the power consumption of embedded systems. Dynamic Voltage and F...
Advances in technology scaling, coupled with aggressive voltage scaling results in significant relia...