A Large instruction window is a key requirement to exploit greater Instruction Level Parallelism in out-of-order superscalar processors. Along with the instruction window size, the size of various other structures including the issue queue, store queue and register file need to increase as well. However, the cycle time and energy consumption of conventional large monolithic Content Addressable Memories (CAMs), the underlying structure of most conventional issue queue and store queue designs, worsen rapidly with an increase in size. This results in a three way trade-off involving ILP, clock frequency and energy consumption. In this thesis, we propose efficient designs for the issue queue and the store queue that improve the circuit latency a...
Contemporary superscalar processors employ large instruction window to tolerate long latency (mainly...
Abstract. Dynamic instruction scheduling logic is one of the most critical components of modern supe...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
The load-store queue (LQ-SQ) of modem superscalar processors is responsible for keeping the order of...
In contemporary superscalar microprocessors, issue queue is a considerable energy dissipating compon...
The issue logic of a dynamically-scheduled superscalar processor is a complex mechanism devoted to s...
To maximize the performance of wide-issue superscalar out-of-order microprocessors, the issue stage ...
In modern superscalar processors, the complex instruction scheduler could form the critical path of ...
Because they are based on large content-addressable memories, load-store queues (LSQs) present imple...
Journal ArticleModern superscalar processors use wide instruction issue widths and out-of-order exe...
As technology evolves, power density significantly increases and cooling systems become more complex...
Superscalar processors contain large, complex structures to hold data and instructions as they wait ...
Instruction issue logic is a critical component in modern high-performance out-of-order processors. ...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
Contemporary superscalar processors employ large instruction window to tolerate long latency (mainly...
Abstract. Dynamic instruction scheduling logic is one of the most critical components of modern supe...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...
Large instruction windows and issue queues are key to exploiting greater instruction level paralleli...
The load-store queue (LQ-SQ) of modem superscalar processors is responsible for keeping the order of...
In contemporary superscalar microprocessors, issue queue is a considerable energy dissipating compon...
The issue logic of a dynamically-scheduled superscalar processor is a complex mechanism devoted to s...
To maximize the performance of wide-issue superscalar out-of-order microprocessors, the issue stage ...
In modern superscalar processors, the complex instruction scheduler could form the critical path of ...
Because they are based on large content-addressable memories, load-store queues (LSQs) present imple...
Journal ArticleModern superscalar processors use wide instruction issue widths and out-of-order exe...
As technology evolves, power density significantly increases and cooling systems become more complex...
Superscalar processors contain large, complex structures to hold data and instructions as they wait ...
Instruction issue logic is a critical component in modern high-performance out-of-order processors. ...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
Contemporary superscalar processors employ large instruction window to tolerate long latency (mainly...
Abstract. Dynamic instruction scheduling logic is one of the most critical components of modern supe...
The issue logic of a superscalar processor dissipates a large amount of static and dynamic power. Fu...