Memory Design: Microcomputers to Mainframes

Fülszöveg

memory design:
microcomputers to mainframes
edited by Laurence Altman Senior Editor, Electronics
The microprocessor revolution is in full swing, offering cheap and simple digital control for more and more different kinds of equipment. And what's a microprocessor without a memory chip? If you're a system designer, chances are this most ubiquitous of digital components looms large in your future.
Here is an authoritative book, compiled from the pages of Electronics Magazine, to guide you through the latest memory technology and its applications in your work. Are you developing a system software prototype? You'll need programmable read-only memory. Do you want to save space in a serial storage system? Try replacing disk memories with one of the new charge-coupled types. Are you looking for a nonvolatile mass storage device? IVIagnetic bubbles may be for you.
You'll find practical, up-to-date information on all of these and much more in this convenient handbook. Here are just a... Tovább

Fülszöveg

memory design:
microcomputers to mainframes
edited by Laurence Altman Senior Editor, Electronics
The microprocessor revolution is in full swing, offering cheap and simple digital control for more and more different kinds of equipment. And what's a microprocessor without a memory chip? If you're a system designer, chances are this most ubiquitous of digital components looms large in your future.
Here is an authoritative book, compiled from the pages of Electronics Magazine, to guide you through the latest memory technology and its applications in your work. Are you developing a system software prototype? You'll need programmable read-only memory. Do you want to save space in a serial storage system? Try replacing disk memories with one of the new charge-coupled types. Are you looking for a nonvolatile mass storage device? IVIagnetic bubbles may be for you.
You'll find practical, up-to-date information on all of these and much more in this convenient handbook. Here are just a few of the devices and techniques it shows you how to use:
• a 16-k RAM that offers high startup reliability
• a 4-k static RAM that saves costs on power
• a speedy RAM that runs cool with power-down circuitry
• a dynamic injection logic random-access memory that competes with MOS designs
• that biggest erasable PROM that puts 16,384 bits on a chip
• an electrically alterable ROM that doesn't use nitride
• five technologies that squeeze more performance from memory chips
• grooves that add a new dimension to V-MOS structure and performance
• cutting costs and boosting performance with injection logic
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Whether you're working with small microcomputer-based systems or large memory-rich mainframes, the new memory technology can make your life a lot easier.
And whatever application you have in mind—polling and paging operations, expanding a microcomputer's memory, predicting real system costs, checking on the reliability of a 4-k RAM, you name it—this book has the data and diagrams to put that technology to work for you. Vissza