Items in cart [0] Questions? Call 888-624-8373

PAPERBACK list:$26.00 Web:$23.40 add to cart PDF BOOK your price: $20.00 add to cart Rights & Permissions Free Resources Display this book on your site! Related Titles Research Priorities for Airborne Particulate Matter: IV. Continuing Research Progress State and Federal Standards for Mobile-Source Emissions Other Related Titles Preservation of Historical Records (1986) Commission on Engineering and Technical Systems (CETS) Web Search Builder Use this book's key terms to search within this book, across our collection, or across the Web. Skim This Chapter Skim this chapter and use this chapter's key terms to search within this book. Reference Finder Paste in your own text to find books that relate to your topic. Page 93   E-mail  Facebook  Digg  Stumble  Twitter More Page 93 Front Matter (R1-R20) 1. Recommendations (1-4) 2. Introduction (5-10) 3. Environmental Criteria (11-32) 4. Paper (33-48) 5. Photographic Film (49-60) 6. Magnetic Recording Media (61-70) 7. Optical Disks (71-78) 8. Discussion of Findings (79-92) A. Semiconductor Memories (93-93) B. Glossary (94-97) C. Biographical Sketches of Committee Members (98-102) Index (103-108)

Below are the first 10 and last 10 pages of uncorrected machine-read text (when available) of this chapter, followed by the top 30 algorithmically extracted key phrases from the chapter as a whole.
Intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text on the opening pages of each chapter. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

Do not use for reproduction, copying, pasting, or reading; exclusively for search engines.

OCR for page 93
APPENDIX A Semiconductor Memories Semiconductor memories were examined as possible candidates for archival storage and were dismissed summarily because of cost, size, power, and especially volatility. Given cost projections of $5 for a 256,000-bit CMOS random access memory {RAM) chip, the cost per bit is 2 x 10-3 cents. For large data storage systems of 10~2 bits, the chip cost alone would be $20 million, which is only a fraction of the total system cost. The density of bits on a chip may be as high as 5 x 106 bits per square inch, but chip size takes only a minute portion of a semiconductor memory system. There- fore, the system would be very large. The operating power per chip is low {200 mw), but using approximately 5 x 106 chips for a large system means that 1 megawatt of power would be required. Even if cost, size, and power were not a problem, no one would want to commit archival records to a memory that would be erased if power were interrupted. 93

Representative terms from entire chapter:

archival records