IEEE Computer Society Annual Symposium on VLSI : April 7-9, 2008 : Montpellier, FranceIntelligent mobile information devices require lowpower and high-performance processors. In order to reduce energy consumption with maintaining computing performance, we proposed to utilize information regarding instruction criticality. Every functional unit in our processor has different latency and energy consumption. Only critical instructions are executed in power-hungry units, and the total energy consumption can be reduced. While we have studied several techniques to identify critical instructions for years, we have not found any technique that achieves both simplicity and high accuracy to identify. In this paper, we propose to exploit uncriticality ...
The evolution of computer systems to continuously improve execution efficiency has traditionally emb...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Abstract—We propose a technique for reducing the energy spent in the memory-processor interface of a...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
The advance in semiconductor technologies presents the serious problem of parameter variations. They...
10th International Symposium on Quality Electronic Design : March 16-18, 2009 : San Jose, CA, USAThe...
The increasing need for low-power computing devices has led to the efforts to optimize power in all ...
Many instructions in a dynamically scheduled superscalar processor spend a significant time in the i...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
CPU’s share, in overall power consumption, in a real-time system, is non-negligible. To reduce the p...
Abstract | This paper propose an instruction scheduling technique to reduce power consumed for o-chi...
Current technology trends continue to increase the power density of modern processors at an exponent...
New trends such as the internet-of-things and smart homes push the demands for energy-efficiency. Ch...
High-Performance Computing : 6th International Symposium, ISHPC 2005, Nara, Japan, September 7-9, 20...
Embedded systems are ubiquitous. They are often driven by batteries; therefore, low power consumptio...
The evolution of computer systems to continuously improve execution efficiency has traditionally emb...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Abstract—We propose a technique for reducing the energy spent in the memory-processor interface of a...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
The advance in semiconductor technologies presents the serious problem of parameter variations. They...
10th International Symposium on Quality Electronic Design : March 16-18, 2009 : San Jose, CA, USAThe...
The increasing need for low-power computing devices has led to the efforts to optimize power in all ...
Many instructions in a dynamically scheduled superscalar processor spend a significant time in the i...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
CPU’s share, in overall power consumption, in a real-time system, is non-negligible. To reduce the p...
Abstract | This paper propose an instruction scheduling technique to reduce power consumed for o-chi...
Current technology trends continue to increase the power density of modern processors at an exponent...
New trends such as the internet-of-things and smart homes push the demands for energy-efficiency. Ch...
High-Performance Computing : 6th International Symposium, ISHPC 2005, Nara, Japan, September 7-9, 20...
Embedded systems are ubiquitous. They are often driven by batteries; therefore, low power consumptio...
The evolution of computer systems to continuously improve execution efficiency has traditionally emb...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Abstract—We propose a technique for reducing the energy spent in the memory-processor interface of a...