MARC Record from marc_columbia

LEADER: 06811cam a2200721 i 4500
001 16056654
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008 180514t20182018enka ob 001 0 eng d
035 $a(OCoLC)on1035556119
035 $a(NNC)16056654
040 $aLGG$beng$erda$epn$cLGG$dLGG$dCDN$dUIU$dOCLCF$dOTZ$dSTF$dUAB$dU3G$dYDX$dCUS$dEBLCP$dCUV$dVLB$dOCLCQ$dERF$dKNOVL$dOCLCQ$dN$T$dMM9$dOCLCQ$dOCLCO
019 $a1057434126
020 $a1785615629$q(pdf)
020 $a9781523121175$q(electronic bk.)
020 $a1523121173$q(electronic bk.)
020 $a9781785615627$q(electronic bk.)
020 $z9781785615610$q(hardback)
020 $z1785615610$q(hardback)
035 $a(OCoLC)1035556119$z(OCoLC)1057434126
050 4 $aHQ1090$b.G83 2018eb
072 7 $aB0100$2inspec
072 7 $aB1265B$2inspec
072 7 $aB1265A$2inspec
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072 7 $aC5210$2inspec
072 7 $aC5110$2inspec
072 7 $aC5120$2inspec
082 04 $a621.3815$223
049 $aZCUA
100 1 $aGuckert, Lauren,$eauthor.
245 10 $aSystem design with memristor technologies /$cLauren Guckert and Earl E. Swartzlander, Jr.
264 1 $aHerts, United Kingdom :$bThe Institution of Engineering and Technology,$c2018.
264 4 $c©2018
300 $a1 online resource (ix, 354 pages) :$billustrations
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aIET materials, circuits and devices series ;$v38
588 0 $aPrint version record.
504 $aIncludes bibliographical references (pages 341-346) and index.
520 $aMemristors are a new class of circuit element with the ability to change their resistance value while retaining memory of their current and past resistances. Their small form factor, high density, and fast switching times have sparked research into their applications in modern memory hierarchies. However, these new components pose system design challenges, as well as opportunities. System Design with Memristor Technologies explores design solutions for memristors, covering research and development trends in memristor technology, fabrication, modelling, and applications, and the design and implementation of arithmetic units using memristors. The book begins with an introduction to the principles of system design with memristors, then goes on to address memristor logic gates, arithmetic units for adders, multipliers and dividers, and improved and optimised adder, multiplier and divider designs. The final chapters draw conclusions from the topics covered and explore potential future trends in research into system designs with memristor technologies. This book is essential reading for research scientists and electronics engineers interested in the use of memristors in future system architectures, specifically focused on the areas of arithmetic units, non-Von-Neumann architectures, and logic-in-memory
505 0 $aIntro; Contents; 1. Introduction; 1.1 Memristor fundamentals; 1.1.1 Types of memristors; 1.1.2 Memristor logic; 1.2 Note on simulation methodology; 1.3 Memristor models; 1.4 Crossbar technology; 2. Memristor logic gates; 2.1 IMPLY gates; 2.1.1 IMPLY Boolean logic; 2.1.2 Real implementation; 2.2 MAD gates; 2.2.1 MAD metrics, pros, and cons; 2.2.2 Implementation in a crossbar; 2.2.3 Gate adaptation; 2.2.4 Crossbar adaptation; 2.2.5 Boolean operation and threshold gate selection; 2.3 N-N memristor gates; 2.4 Hybrid-CMOS gates; 2.5 Threshold gates
505 8 $a2.5.1 Threshold gates implemented with GOTO pairs2.5.2 Threshold gates implemented with CSTG gates; 2.6 MAGiC gates; 3. Adder arithmetic units; 3.1 Ripple-carry adders; 3.2 Carry-lookahead adders; 3.3 Carry-select adders; 3.4 Conditional-sum adders; 4. Multiplier arithmetic units; 4.1 Shift-and-add multipliers; 4.1.1 Booth multiplier; 4.2 Array multipliers; 4.3 Dadda multipliers; 5. Divider arithmetic units; 5.1 Binary restoring dividers; 5.2 SRT dividers; 5.3 Goldschmidt dividers; 6. Memristor-based adder designs; 6.1 Ripple Carry Adders; 6.1.1 IMPLY ripple-carry adder
505 8 $a6.1.2 Hybrid-CMOS ripple-carry adder6.1.3 Threshold gate ripple-carry adder; 6.1.4 MAD gate ripple-carry adder; 6.1.5 Ripple-carry adder analysis and comparison; 6.2 Carry Lookahead adders; 6.2.1 IMPLY carry-lookahead adder; 6.2.2 Hybrid-CMOS carry-lookahead adder; 6.2.3 Threshold gate carry-lookahead adder; 6.2.4 MAD gate carry-lookahead adder; 6.2.5 Carry-lookahead adder analysis and comparison; 6.3 Carry-select adders; 6.3.1 IMPLY carry-select adder; 6.3.2 Hybrid-CMOS carry-select adder; 6.3.3 Threshold gate carry-select adder; 6.3.4 MAD gate carry-select adder
505 8 $a6.3.5 Carry-select adder analysis and comparison6.4 Conditional-sum adders; 6.4.1 IMPLY conditional-sum adder; 6.4.2 Hybrid-CMOS conditional-sum adder; 6.4.3 Threshold gate conditional-sum adder; 6.4.4 MAD gate conditional-sum adder; 6.4.5 Conditional-sum adder analysis and comparison; 7. Memristor-based multiplier designs; 7.1 Shift-and-add multipliers; 7.1.1 IMPLY shift-and-add multiplier; 7.1.2 Hybrid-CMOS shift-and-add multiplier; 7.1.3 Threshold-gate shift-and-add multiplier; 7.1.4 MAD gate shift-and-add multiplier; 7.1.5 Shift-and-add multiplier analysis and comparison
505 8 $a7.1.6 IMPLY and MAD Booth multipliers7.2 Array multipliers; 7.2.1 IMPLY array multiplier; 7.2.2 Hybrid-CMOS array multiplier; 7.2.3 Threshold-gate array multiplier; 7.2.4 MAD gate array multiplier; 7.2.5 Array multiplier analysis and comparison; 7.3 Dadda multipliers; 7.3.1 IMPLY Dadda multiplier; 7.3.2 Hybrid-CMOS Dadda multiplier; 7.3.3 Threshold gate Dadda multiplier; 7.3.4 MAD gate Dadda multiplier; 7.3.5 Dadda multiplier analysis and comparison; 8. Memristor-based divider designs; 8.1 Binary-restoring dividers; 8.1.1 IMPLY binary-restoring divider
650 0 $aMemristors.
650 6 $aMemristances.
650 7 $aMemristors.$2fast$0(OCoLC)fst01894553
650 7 $aadders.$2inspect
650 7 $adividing circuits.$2inspect
650 7 $alogic design.$2inspect
650 7 $alogic gates.$2inspect
650 7 $amemristor circuits.$2inspect
650 7 $amultiplying circuits.$2inspect
655 4 $aElectronic books.
700 1 $aSwartzlander, Earl E.,$cJr.,$d1945-$eauthor.
776 08 $iPrint version:$aGuckert, Lauren.$tSystem design with memristor technologies.$dHerts, United Kingdom : The Institution of Engineering and Technology, 2018$z1785615610$z9781785615610$w(OCoLC)1012552409
830 0 $aMaterials, circuits and devices series ;$v38.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio16056654$zACADEMIC - Electronics & Semiconductors
852 8 $blweb$hEBOOKS