Entry Cressman:1994:ADC from dectechj.bib

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BibTeX entry

@Article{Cressman:1994:ADC,
  author =       "David C. Cressman",
  title =        "Analysis of Data Compression in the {DLT2000} Tape
                 Drive",
  journal =      j-DEC-TECH-J,
  volume =       "6",
  number =       "2",
  pages =        "62--71",
  month =        "Spring",
  year =         "1994",
  CODEN =        "DTJOEL",
  ISSN =         "0898-901X",
  bibdate =      "Thu Mar 20 18:15:43 MST 1997",
  bibsource =    "http://www.math.utah.edu/pub/tex/bib/dectechj.bib",
  URL =          "ftp://ftp.digital.com/pub/Digital/info/DTJ/v6n2/Analysis_of_Data_Compression_i_01oct1994DTJE05P8.ps;
                 http://www.digital.com:80/info/DTJE05/DTJE05SC.TXT",
  abstract =     "The DLT2000 magnetic tape drive is a state-of-the-art
                 storage product with a 1.25M-byte-per-second data
                 throughput rate and a 1.0G-byte capacity, without data
                 compression. To increase data capacity and throughput
                 rates, the DLT2000 implements a variant of the
                 Lempel--Ziv (LZ) data compression algorithm. An LZ
                 method was chosen over other methods, specifically over
                 the Improved Data Recording Capability (IDRC)
                 algorithm, after performance studies showed that the LZ
                 implementation has superior data throughput rates for
                 typical data, as well as superior capacity. This paper
                 outlines the two designs, presents the methodology and
                 the results of the performance testing, and analyzes
                 why the LZ implementation is faster, when the IDRC
                 hardware implementation had twice the bandwidth and was
                 expected to have faster throughput rates.",
  acknowledgement = ack-nhfb,
  classcodes =   "C5320C (Storage on moving magnetic media)",
  classification = "C5320C (Storage on moving magnetic media)",
  keywords =     "art storage product; Bandwidth; bandwidth; capability
                 algorithm; Data capacity; data capacity; data
                 compression; Data compression; data recording; DLT2000
                 magnetic tape drive; hardware; Hardware implementation;
                 implementation; improved data recording; Improved data
                 recording capability algorithm; Lempel-; Lempel--Ziv
                 data compression algorithm; magnetic tape equipment;
                 magnetic tape storage; performance studies; Performance
                 studies; state-of-the-; State-of-the-art storage
                 product; throughput rates; Throughput rates; Ziv data
                 compression algorithm",
  thesaurus =    "Data compression; Data recording; Magnetic tape
                 equipment; Magnetic tape storage",
  treatment =    "P Practical",
}

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