High-Performance Computing : 6th International Symposium, ISHPC 2005, Nara, Japan, September 7-9, 2005, First International Workshop on Advanced Low Power Systems, ALPS 2006, Revised Selected PapersOut-of-order processors schedule instructions dynamically in order to exploit instruction level parallelism. It is necessary to increase instruction window size for improving instruction scheduling capability. In addition, current trend of exploiting thread-level parallelism requires further large instruction window. However, it is difficult to increase the size, because the instruction window is one of the dominant deciding processor cycle time and power consumption. This paper proposes a large instruction window, focusing on power-aware active ...
[[abstract]]We investigate compiler transformation techniques for the problem of scheduling VLIW ins...
This thesis presents a novel approach to the instruction scheduling problem for dynamic issue proces...
In this paper, we propose a new issue queue design that is capable of scheduling reusable instructio...
IEEE Computer Society Annual Symposium on VLSI : April 7-9, 2008 : Montpellier, FranceIntelligent mo...
Current technology trends continue to increase the power density of modern processors at an exponent...
Modern superscalar processors use wide instruction issue widths and out-of-order execution in order ...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
To maximize the performance of wide-issue superscalar out-of-order microprocessors, the issue stage ...
Contemporary superscalar processors employ large instruction window to tolerate long latency (mainly...
Modern out-of-order processors tolerate long latency memory operations by supporting a large number ...
The increasing need for low-power computing devices has led to the efforts to optimize power in all ...
A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in ...
Static power consumption has become a significant factor of the total power consumption in a system....
New trends such as the internet-of-things and smart homes push the demands for energy-efficiency. Ch...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
[[abstract]]We investigate compiler transformation techniques for the problem of scheduling VLIW ins...
This thesis presents a novel approach to the instruction scheduling problem for dynamic issue proces...
In this paper, we propose a new issue queue design that is capable of scheduling reusable instructio...
IEEE Computer Society Annual Symposium on VLSI : April 7-9, 2008 : Montpellier, FranceIntelligent mo...
Current technology trends continue to increase the power density of modern processors at an exponent...
Modern superscalar processors use wide instruction issue widths and out-of-order execution in order ...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
To maximize the performance of wide-issue superscalar out-of-order microprocessors, the issue stage ...
Contemporary superscalar processors employ large instruction window to tolerate long latency (mainly...
Modern out-of-order processors tolerate long latency memory operations by supporting a large number ...
The increasing need for low-power computing devices has led to the efforts to optimize power in all ...
A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in ...
Static power consumption has become a significant factor of the total power consumption in a system....
New trends such as the internet-of-things and smart homes push the demands for energy-efficiency. Ch...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
[[abstract]]We investigate compiler transformation techniques for the problem of scheduling VLIW ins...
This thesis presents a novel approach to the instruction scheduling problem for dynamic issue proces...
In this paper, we propose a new issue queue design that is capable of scheduling reusable instructio...