The instruction fetch unit (IFU) usually dissipates a considerable portion of total chip power. In traditional IFU architectures, as soon as the fetch address is generated, it needs to be sent to the instruction cache and TLB arrays for instruction fetch. Since limited work can be done by the power-saving logic after the fetch address generation and before the instruction fetch, previous power-saving approaches usually suffer from the unnecessary restrictions from traditional IFU architectures. In this paper, we present CASA, a new power-aware IFU architecture, which effectively reduces the unnecessary restrictions on the power-saving approaches and provides sufficient time and information for the power-saving logic of both instruction cach...
In the last years, embedded systems have evolved so that they offer capabilities we could only find ...
Power consumption is a critical design issue in embedded processors. As part of our low power proces...
Today, embedded processors are expected to be able to run complex, algorithm-heavy applications that...
Embedded systems are ubiquitous. They are often driven by batteries; therefore, low power consumptio...
International audienceModern processors are using increasingly larger sized on-chip caches. Also, wi...
Low-power research has flourished recently, in an attempt to address packaging and cooling concerns ...
Power has become one of the primary design constraints in modern embedded microprocessors. Many embe...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
In embedded processors, instruction fetch and decode can consume more than 40 % of processor power. ...
Abstract — A huge application domain, in particular, wireless and handheld devices strongly requires...
Abstract--Leakage and Dynamic power are a major challenge in microprocessor design. Many circuit tec...
In this paper, we propose several different data and instruction cache configurations and analyze th...
Abstract—Energy efficiency plays a crucial role in the design of embedded processors especially for ...
The need to minimize power while maximizing performance has led to recent developments of powerful s...
In the last years, embedded systems have evolved so that they offer capabilities we could only find ...
Power consumption is a critical design issue in embedded processors. As part of our low power proces...
Today, embedded processors are expected to be able to run complex, algorithm-heavy applications that...
Embedded systems are ubiquitous. They are often driven by batteries; therefore, low power consumptio...
International audienceModern processors are using increasingly larger sized on-chip caches. Also, wi...
Low-power research has flourished recently, in an attempt to address packaging and cooling concerns ...
Power has become one of the primary design constraints in modern embedded microprocessors. Many embe...
Recent studies have shown that peripheral circuits, including decoders, wordline drivers, input and ...
If current technology scaling trends hold, leakage power dissipation will soon become the dominant s...
In embedded processors, instruction fetch and decode can consume more than 40 % of processor power. ...
Abstract — A huge application domain, in particular, wireless and handheld devices strongly requires...
Abstract--Leakage and Dynamic power are a major challenge in microprocessor design. Many circuit tec...
In this paper, we propose several different data and instruction cache configurations and analyze th...
Abstract—Energy efficiency plays a crucial role in the design of embedded processors especially for ...
The need to minimize power while maximizing performance has led to recent developments of powerful s...
In the last years, embedded systems have evolved so that they offer capabilities we could only find ...
Power consumption is a critical design issue in embedded processors. As part of our low power proces...
Today, embedded processors are expected to be able to run complex, algorithm-heavy applications that...