Zelkowitz M., Yovits M. — Advances in Computers, Volume 40 :: Электронная библиотека попечительского совета мехмата МГУ

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Zelkowitz M., Yovits M. — Advances in Computers, Volume 40

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Название: Advances in Computers, Volume 40

Авторы: Zelkowitz M., Yovits M.

Аннотация:

Praise for the Series "Mandatory for academic libraries supporting computer science departments." -CHOICE Since its first volume in 1960, Advances in Computers has presented detailed coverage of innovations in computer hardware, software, theory, design, and applications. It has also provided contributors with a medium in which they can explore their subjects in greater depth and breadth than journal articles usually allow. As a result, many articles have become standard references that continue to be of sugnificant, lasting value in this rapidly expanding field.

Язык:

Рубрика: Computer science/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1995

Количество страниц: 300

Добавлена в каталог: 31.01.2015

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Предметный указатель

Digital signal processor      76
Ding, H.      94 124
Dirty-exclusive cache      137
Discourse rules      9 16
Distributed office problem solving      241
DL, for office modeling      240—241
Document model, and office automation      189
Document surrogate      189
Documentation, software prototyping      60
Dollas, Apostolos      65 68 72 77 80 103 111 116 121—123
Domain adequacy, office models      197—198 225—227
Domain knowledge      183
Domain plan      7
Domain plan knowledge      17—18
Domino, for office modeling      241
DOPS      see "Distributed office problem solving"
Dowdy, L.W.      161 178
Draffan, I.      188 241 252
Dragon protocol, cache      151—152 172 173
DSP      see "Digital signal processor"
Dubois, M.      129 164 169 176
Due process, for decision making      195
Duncan, S.      62 63
Dunsmore, H.E.      69 71 122
Dutoit, A.      77 121
Dynamic entity, in office modeling      209—211
e-mail      see "Mail systems"
Egan, B.T.      74 108 123
Eggers, S.J.      144 146 172 176—177
Ehrlich, Kate      2 4 8—9 14 19 29 31 34 37—38
Electronic mail      see "Mail systems"
Ellis, C.A.      185—186 190—191 198—199 207 241 245 251
Emberson, D.R.      163 176
Encore Computer Corp.      161 176
Engel, G.H.      185 251
Engels, M.      121
Enterprise analysis      193
Entity-relationship-time, for office submodeling      204—205
Episodes, programmer      9
ESCAPE, for system synthesis      96—97
Espinosa, A.      76 123
Estelle, specification language      80—82
Evaluation in software prototyping      55—57
Evaluation, cache coherence, performance analysis      170—173 174
Evaluation, office models, adequacy      197—201 225—234
Evolutionary prototyping      43—44 47 51—55
Exceptions perspective, for office modeling      194-195
Experimental data, analysis      24—25
Experimental prototyping      47
Experiments, design for program comprehension      22—26
Experiments, quasi-experiments      28 32
Experiments, rapid prototyping and      77
Experiments, scalability      33 35
Experiments, static vs. dynamic behavior      35
Experiments, technique, for program comprehension      26—33
Experiments, theory building and      35
Experts, characteristics      9—10
Exploratory prototyping      46—47
Explorer checkmate, for design comparison      98-99
Extended VHDL, hardware description language      109—119
Fares, P.      188 191 237 239 254
Feautrier, P.A.      136—137 176
Feigenbaum, E.A.      196 249
Field Programmable Gate Array      66
Field programmable gate array as computing elements      103
Field programmable gate array, ABEL design and      88—89
Field programmable gate array, CAD tools and      90
Field programmable gate array, characteristics      73—74
Field programmable gate array, experimental research and      77
Field programmable gate array, hardware reusability with      100—106
Field study      27
Fikes, R.E.      184 227 251
Filloque, J.M.      104 122
Firefly protocol, cache      152 172
Fleukens, R.      96 123
Flores, F.      192 240 251
Floyd, C.      45—47 63
Flume, E.      194 254
Form, definition      188
Formmanager, for office modeling      241
Forms perspective, for office modeling      185 188—190 202—204
FPGA      see "Field programmable gate array"
frames      6
Frank, S.J.      144 152 176
Freeman, R.      66 123
Fu, K.S.      136—137 179
Fugini, M.G.      189 191 209 240 250 253
Full map protocol, cache      137
Function, in office modeling      193
Functionality prototype      47—48
Functions perspective, for office modeling      186 193 214—216 223
Furuta, R.      190 254
Futurebus write-once protocol, cache      147 172
Gaines, B.R.      196 251
Gaiski, D.D.      73 123
Galdes, D.      189—190 254
Garcia-Fornes, A.      76 123
Garg, V.      69 125
Gehringer, E.F.      167 177
Gellenbeck, Edward M.      9 25 31 34 37
George, D.A.      165 178
George, J.F.      181 191 193—196 199 212 223 227 239 249
Gerson, E.M.      195 251
Gharachorloo, K.      170 176
Ghost signal      137
Gibbons, P.      170 176
Gibbs, S.      192 194 242 254
Gibbs, S.J.      188—189 199 223 225 245 251
Girault, C.      139 174 176
Giusto, P.      75 122
Glesner, M.      80 123
Global directory      135 164—165
Goal-oriented office forms system      241
Goals perspective, for office modeling      186 193
Gokhale, M.      103 123
Goldman, R.      89 124
Gomaa, H.      43 60 63
Goodman, J.      135 144 147 177
Goodman, J.R.      150 163 168 177
GOOFS      see "Goal oriented office forms system"
Goosen, H.A.      150 168 176
Gottlieb, A.      165 177
Graham, A.J.      91 123
Grant, K.R.      189 192 227 242 252
GRAPE-II      see "Graphical rapid prototyping environment"
Graphical rapid prototyping environment      107
Gray, T.F.      66 121
Greenspan, Judith      29 34 37
Greiner, A.      91 123
Grishman, R.      165 177
Groppuso, J.      185 251
Guindon, Raymonde      10 37
Gunningberg, P.      82 125
Gupta, A.      150 161 168 170 176—177
Gupta, A.P.      95 121
Gupta, R.      77 123
Gustafson, R.N.      136 177
Ha, S.      92 121—122
Hackler, W.R.      80 123
Haddad, S.      139 176
Haines, A.      74 123
Hallman, D.      100 125
Hamilton, M.H.      80 123
Hammer, M.      189 192—193 245 251 254
Handcrafted prototype      46
Handlers, in office modeling      218—219
Hardonag, I.      77 123
Hardware description language      82—89
Hardware, cache coherence protocols for      134—162
Hardware, codesigned with software      74—75

Hardware, prototyping      57—58
Hardware, system synthesis      71 73
Hardware, weak ordering      170
Harris, Sidney E.      191 251
Harrison, D.      89 123
Hartley, R.      76 123
Hartman, M.      76 123
Harvey, S.L.      165 178
Hattori, A.      160 177
Hayes, J.P.      155 177
HDL      see "Hardware description language"
Heimann, D.I.      69—70 123
Helaihel, R.      74 125
Henderson, A.D.      184 227 251
Hendrix, G.G.      190 251
Hennessy, J.L.      161 168 170 172 175—177
Herpel, H.      80 123
Hervieu, M.      75 121
Hevner, A.R.      188 241 255
Hewitt, C.      186 192 194—195 199 216 219 245 249 251
Higa, K.      225 251
Hill, M.D.      170 175
Hirscheim, R.A.      184—185 194 198 207 251
Hit ratio, of cache performance      132
Hoernig, K.      192 252
Hoffer, J.      200 225 227 234—235 253
Hogg, J.      192 242 251 254
Hogg, J.S.      190—191 196 246 252
Holley, M.      108 123
Holliday, M.A.      178
Holmes, W.      103 123
Holt, Robert W.      31 34 36
Hopcroft, J.E.      72 120 124
Horizontal prototype      45—46
Horowitz, M.      172 175
Hsieh, H.C.      75 122
Hu, X.      75 124
Hypercube, cache coherence in      162—163 175
Hypotheses as drivers of cognition      7
Hypotheses in experiment design      22—26
Hypotheses, testing of      28 32
ICN      see "Information control nets"
IEEE      71 74 82—83 124
Illinois protocol, cache      145—146 162 172
Imail, for office modeling      242
Implementation, program understanding and      16
Implementation, software      40
Inclusion property      156 160
Information control nets      241
Information lens, for office modeling      242
Information perspective, for office modeling      185—186 188—190 204—207
Information system modeling      220—221 242—243
Instrumental acts, and speech act theory      212
Integrated metamodel, for program comprehension      19
Integrated office information system      242
Integrated perspective, for office modeling      186—187 196—197 223—225 234—236
Internal semantic representation      11
Interpretation phase, of experiment      24—26
Interview      27
Invalid cache      137
IOIS      see "Integrated office information system"
IS-RS modeling      see "Information system modeling"
Isakowitz, T.      196 221 225 244 249
IScreen, for office modeling      242
Jain, A.K.      66 124
Jerraya, A.A.      94 124
Johansen, D.L.      73 124
Jonckers, V.      252
Jones, A.K.      167 177
Junod, B.      196 227 247 251
Jurecska, A.      75 122
Kahn, H.      89 124
Kahn, O.      100 125
Kamamito, S.      160 177
Kang, K.C.      3 37
Kaplan, G.      91 124
Kaplinsky, C.      108 123
Kappel, G.      196 227 247 251
Karam, G.      192 240 252
Karbe, B.      191 195 247 251—252
Karlin, A.R.      152 177
Karlovsky, S.      165 176
Karunaratne, W.      116 121
Kasper, G.M.      189 253
Katsouli, E.      189—190 193 204 248 252
Katz, R.H.      146 172 176—177
Kaye, R.A.      192 240 252
Kedem, G.      73 124
Kelem, S.H.      109 124
Kelly, J.      82 125
Ketabchi, M.      46 63
Kintsch, Walter      6 37
Kission, P.      94 124
Kleinfelder, W.J.      165 178
Kleist-Retzow, H.V.      192 252
KMMS, for office modeling      243
KNO      see "Knowledge objects"
Knowledge in office models      219—220 243
Knowledge objects, for office modeling      243
Knowledge representation system      243
Knowledge, acquisition      9
Knowledge, chunks      6
Knowledge, domain      13 183
Knowledge, organized by experts      10
Knowledge, plans and      6—7
Knowledge, programmers      5
Knowledge, semantic      11—13
Knowledge, syntactic      11—13
Knowledge, text structure      6
Knuth, D.E.      75 124
Koenemann, Jurgen      2 27 30 34 37
Konsynski, B.R.      193 245 252
Kopanas, V.      204 248 252
Kopser, A.      103 123
Kordon, F.      80 124
Koshino, M.      160 177
Kozminski, K.      73 124
Kranz, D.      161—162 168 175
Krasner, Herb      37
Kreifelts, T.      195 241 252
KRS      see "Knowledge representation system"
Kruskal, C.P.      165 177
Kubiatowics, J.      161—162 168 175
Kuhn, Thomas S.      234 236 252
Kunin, J.S.      192—193 245 254
Labrozzi, S.      100 125
Lala, P.K.      71 124
Lampert, Robin      29 34 38
Lamport, L.      75 124 168 177
Lattice network, and office modeling      218
Laudon, J.      161 168 170 176—177
Lauwereins, R.      107 121—122 124
Lavagno, L.      75 122
Lavenier, D.      104 124
Lawrie, D.      157 177
Lawrie, D.H.      165 177
Lazowska, E.D.      159 177
LBFM      see "Logic based financial modeling"
Lee, E.A.      92 121—122
Lee, R.      193 240 252
Lee, R.L.      165 177
Lefkowitz, L.S.      191 193 195—196 212 225 227 247 250
Lehtinen, E.      192 194 212 248 249
Lenoski, D.      170 176
Lenoski, D.E.      161 168 177
Letovsky model, for program comprehension      11 21 22
Letovsky, Stanley      2 4 7—8 11 29 34 37—38
Leung, L.      192 243 250
Levitt, J.      74 125
Li, J.      188 237 254

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