We study the delays faced by instructions in the pipeline of a superscalar processor and its impact on power and performance. Instructions that are ready-on-dispatch (ROD) are normally delayed in the issue stage due to resource constraints even though their data dependencies are satisfied. Issuing ROD instructions earlier than normal and executing them on slow functional units to obtain power benefits reduce these delays. This scheme achieves around 6% to 8% power reduction with average performance degradation of about 2%. Alternatively, instead of reducing the delays faced by instructions in the pipeline, increasing them by deliberately stalling certain instructions at appropriate times minimizes the duration for which the processor is und...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...
A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in ...
Energy consumption is becoming an important issue on modern processors, especially on embedded syste...
We study the delays faced by instructions in the pipeline of a superscalar processor and its impact ...
Many instructions in a dynamically scheduled superscalar processor spend a significant time in the i...
Conventional front-end designs attempt to maximize the number of "in-flight" instructions in the pip...
To characterize future performance limitations of superscalar processors, the delays of key pipeline...
Timing speculation has been proposed as a technique for maximizing energy efficiency of processors w...
The drastic increase in power consumption by mod-ern processors emphasizes the need for power-perfor...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
With the constant advances in technology that lead to the increasing of the transistor count and pro...
The issue logic of a dynamically-scheduled superscalar processor is a complex mechanism devoted to s...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
Superscalar processors contain large, complex structures to hold data and instructions as they wait ...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...
A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in ...
Energy consumption is becoming an important issue on modern processors, especially on embedded syste...
We study the delays faced by instructions in the pipeline of a superscalar processor and its impact ...
Many instructions in a dynamically scheduled superscalar processor spend a significant time in the i...
Conventional front-end designs attempt to maximize the number of "in-flight" instructions in the pip...
To characterize future performance limitations of superscalar processors, the delays of key pipeline...
Timing speculation has been proposed as a technique for maximizing energy efficiency of processors w...
The drastic increase in power consumption by mod-ern processors emphasizes the need for power-perfor...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
With the constant advances in technology that lead to the increasing of the transistor count and pro...
The issue logic of a dynamically-scheduled superscalar processor is a complex mechanism devoted to s...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
Superscalar processors contain large, complex structures to hold data and instructions as they wait ...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...
A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in ...
Energy consumption is becoming an important issue on modern processors, especially on embedded syste...