English

A distributed memory, local configuration technique for re-configurable logic designs

Hardware Architecture 2020-03-25 v1

Abstract

The use and location of memory in integrated circuits plays a key factor in their performance. Memory requires large physical area, access times limit overall system performance and connectivity can result in large fan-out. Modern FPGA systems and ASICs contain an area of memory used to set the operation of the device from a series of commands set by a host. Implementing these settings registers requires a level of care otherwise the resulting implementation can result in a number of large fan-out nets that consume valuable resources complicating the placement of timing critical pathways. This paper presents an architecture for implementing and programming these settings registers in a distributed method across an FPGA and how the presented architecture works in both clock-domain crossing and dynamic partial re-configuration applications. The design is compared to that of a `global' settings register architecture. We implement the architectures using Intel FPGAs Quartus Prime software targeting an Intel FPGA Cyclone V. It is shown that the distributed memory architecture has a smaller resource cost (as small as 25% of the ALMs and 20% of the registers) compared to the global memory architectures.

Keywords

Cite

@article{arxiv.2003.10472,
  title  = {A distributed memory, local configuration technique for re-configurable logic designs},
  author = {Alexander E. Beasley},
  journal= {arXiv preprint arXiv:2003.10472},
  year   = {2020}
}

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R2 v1 2026-06-23T14:24:28.322Z