Detail publikace

Memory-Based Logic Control for Embedded Systems

Originální název

Memory-Based Logic Control for Embedded Systems

Anglický název

Memory-Based Logic Control for Embedded Systems

Jazyk

en

Originální abstrakt

Implementation of logic control algorithms in embedded systems is limited by space and response time. Use of a single look-up table (LUT) for multiple-output Boolean function is almost always excluded due to the LUT size. The paper deals with implementation in a form of cascade of smaller LUTs. Cascade length and memory required to store LUTs can be varied and it is shown that an optimal trade-offs can be reached. Changes in logic control can be implemented easily by re-loading data into LUTs. The presented method is thus useful for logic control in embedded systems or in microcontroller software.

Anglický abstrakt

Implementation of logic control algorithms in embedded systems is limited by space and response time. Use of a single look-up table (LUT) for multiple-output Boolean function is almost always excluded due to the LUT size. The paper deals with implementation in a form of cascade of smaller LUTs. Cascade length and memory required to store LUTs can be varied and it is shown that an optimal trade-offs can be reached. Changes in logic control can be implemented easily by re-loading data into LUTs. The presented method is thus useful for logic control in embedded systems or in microcontroller software.

BibTex


@article{BUT103578,
  author="Václav {Dvořák} and Petr {Mikušek}",
  title="Memory-Based Logic Control for Embedded Systems",
  annote="Implementation of logic control algorithms in embedded systems is limited by
space and response time. Use of a single look-up table (LUT) for multiple-output
Boolean function is almost always excluded due to the LUT size. The paper deals
with implementation in a form of cascade of smaller LUTs. Cascade length and
memory required to store LUTs can be varied and it is shown that an optimal
trade-offs can be reached. Changes in logic control can be implemented easily by
re-loading data into LUTs. The presented method is thus useful for logic control
in embedded systems or in microcontroller software.",
  address="NEUVEDEN",
  chapter="103578",
  doi="10.1007/978-3-319-10891-9_21",
  edition="NEUVEDEN",
  howpublished="print",
  institution="NEUVEDEN",
  number="1",
  volume="325",
  year="2015",
  month="march",
  pages="367--379",
  publisher="NEUVEDEN",
  type="journal article in Web of Science"
}