English

Selective Decoding in Associative Memories Based on Sparse-Clustered Networks

Hardware Architecture 2016-11-15 v1

Abstract

Associative memories are structures that can retrieve previously stored information given a partial input pattern instead of an explicit address as in indexed memories. A few hardware approaches have recently been introduced for a new family of associative memories based on Sparse-Clustered Networks (SCN) that show attractive features. These architectures are suitable for implementations with low retrieval latency, but are limited to small networks that store a few hundred data entries. In this paper, a new hardware architecture of SCNs is proposed that features a new data-storage technique as well as a method we refer to as Selective Decoding (SD-SCN). The SD-SCN has been implemented using a similar FPGA used in the previous efforts and achieves two orders of magnitude higher capacity, with no error-performance penalty but with the cost of few extra clock cycles per data access.

Keywords

Cite

@article{arxiv.1308.6021,
  title  = {Selective Decoding in Associative Memories Based on Sparse-Clustered Networks},
  author = {Hooman Jarollahi and Naoya Onizawa and Warren J. Gross},
  journal= {arXiv preprint arXiv:1308.6021},
  year   = {2016}
}

Comments

4 pages, Accepted in IEEE Global SIP 2013 conference

R2 v1 2026-06-22T01:16:13.288Z