Galceran-Oms scite author profile

Galceran-Oms

3Publications

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Correct-by-construction microarchitectural pipelining

Kam¹,

Kishinevsky²,

Cortadella³

et al. 2008

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This paper presents a method for correct-by-construction microarchitectural pipelining that handles cyclic systems with dependencies between iterations. Our method combines previously known bypass and retiming transformations with a few transformations valid only for elastic systems with early evaluation (namely, empty FIFO insertion, FIFO capacity sizing, insertion of anti-tokens, and introducing early evaluation multiplexors). By converting the design to a synchronous elastic form and then applying this extended set of transformations, one can pipeline a functional specification with an automatically generated distributed controller that implements stalling logic resolving data hazards off the critical path of the design. We have developed an interactive toolkit for exploring elastic microarchitectural transformations. The method is illustrated by pipelining a few simple examples of instruction set architecture ISA specifications.

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Automatic microarchitectural pipelining

Galceran-Oms¹,

Cortadella²,

Bufistov³

et al. 2010

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This paper presents a method for automatic microarchitectural pipelining of systems with loops. The original specification is pipelined by performing provably-correct transformations including conversion to a synchronous elastic form, early evaluation, inserting empty buffers, anti-tokens, and retiming. The design exploration is done by solving an optimization problem followed by simulation of solutions. The method is explained on a DLX microprocessor example. The impact of different microarchitectural parameters on the performance is analyzed.

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Symbolic performance analysis of elastic systems

Galceran-Oms¹,

Cortadella²,

Kishinevsky³

2010

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Abstract-Elastic systems, either synchronous or asynchronous, can be optimized for the average-case performance when they have units with early evaluation or variable latency. The performance evaluation of such systems using analytical methods is a complex problem and may become a bottleneck when an extensive exploration of different architectural configurations must be done. This paper proposes an analytical method for performance evaluation using symbolic expressions. Two version of the method are presented: an exact method that has high run time complexity and an efficient approximate method that computes the lower bound of the system throughput.

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Galceran-Oms

Correct-by-construction microarchitectural pipelining

Automatic microarchitectural pipelining

Symbolic performance analysis of elastic systems

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