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MICRO
2000
IEEE
2000
IEEE
PipeRench implementation of the instruction path coprocessor
This paper demonstrates how an Instruction Path Coprocessor (I-COP) can be efficiently implemented using the PipeRench reconfigurable architecture. An I-COP is a programmable on-chip coprocessor that operates on the core processor's instructions to transform them into a new format that can be more efficiently executed. The I-COP can be used to implement many sophisticated hardware code modification techniques. We show how four specific techniques can be mapped to the PipeRench pipelined computation model. The experimental results show that a PipeRench ICOP used to perform trace construction and trace optimizations for a trace cache fill unit not only achieves good performance gains but can potentially be implemented in less than 10 mm2 (assuming 0.18 micron technology) or approximately 3% of the die area of a current high-end microprocessor. We believe these results demonstrate the usefulness and feasibility of the I-COP concept.
Real-time TrafficHardware | Instruction Path Coprocessor | MICRO 2000 | PipeRench Reconfigurable Architecture | Programmable On-chip Coprocessor |
| Added | 19 Dec 2010 |
| Updated | 19 Dec 2010 |
| Type | Journal |
| Year | 2000 |
| Where | MICRO |
| Authors | Yuan C. Chou, Pazhani Pillai, Herman Schmit, John Paul Shen |
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