|
|
 |
| Àâòîðèçàöèÿ |
|
|
|
| Ïîèñê ïî óêàçàòåëÿì |
|
|
|
|
|
|
|
 |
|
|
|
| Zelkowitz M., Yovits M. — Advances in Computers, Volume 40 |
|
|
|
| Ïðåäìåòíûé óêàçàòåëü |
Li, K. 163 177
Library of parameterized modules 108—109 110
Library reusability 107—109
Liffick, B. 196 250
Lim, B.-H. 161—162 168 175
Lipsett, R. 82 124
Littman, David C. 8 29 34 37—38
Liu, B. 158 172 174 176 179
Liu, H. 188 241 252
LMTE see "Logic model for text editing"
Lo, W.Y. 74 124
locality of reference 131
Lochovsky, F. 192 196 241 255
Lochovsky, F.H. 190—191 196 246 252
Locks, and cache coherence 164—165
Logic based financial modeling 243—244
Logic model for text editing 221 223 244
LOTOS, specification language 80—82
Loucopoulos, P. 189—190 193 204 248 252
Lowenstein, R.A. 185 251
LPM see "Library of parameterized modules"
Lucas, S. 103 123
Ludlow, J.J. 192 240 251
Lum, V.Y. 188 246 252
Luo, D. 188 241 255
Luqi 46 63
Lutz, E. 192 252
Lyytinen, K. 192 194 212 248 249 252
Maes, P. 227 252
Mahling, D.E. 252
Mail filter agent 244
Mail systems 192—193 239 242 244
Maliniak, L. 91 124
Malone, T.W. 186 189 192 227 242 252
Manasse, L. 152 177
Manufacturing risk 40
MARA see "Mail filter agent"
Marcke, K.V. 252
Maryanski, F. 199 225 253
Matocchi, R. 191 209 240 253
Mattos, N.M. 252
Mayer, Richard 2 11 37
Mazer, M.S. 252
McAuliffe, K.P. 165 176—178
McBrien, P. 204 248 252
McCreight, E. 151 177
McCune, B.P. 190 252
McFadden, F. 200 225 227 234—235 253
McFarland, M.C. 72 80 124
McLeod, D. 189 251
McMilan, K.L. 175 177
Melton, E.A. 165 178
Memory see also "Cache"
Memory hierarchy network 159—160
Memory, access time 132
Memory, blocks 128 132—133
Memory, blocks of ownership 144
Memory, blocks, private vs. shared 134 140
Memory, global state 137
Memory, Hierarchy 131
Memory, local state 137
Memory, locality of reference 131
Memory, overhead for 135 167—168 173
Memory, release consistency 170
Memory, types of requests to 134
Memory, updating methods 133—134
Mendelzon, A.O. 190—191 196 246 252
Mental models, of programs, defined 5
Mental models, of programs, elements 6—9
Mentor Graphics CAD tools 91—92
Merten, A.G. 253
Messaging actions 192—193
Messerschmitt, D.G. 92 121—122
MICON, for system synthesis 95—96 110
Microelectronic systems, rapid prototyping see "Rapid system prototyping"
Min, S.L. 177
Minch, R.P. 196 243 253
Minnich, R. 103 123
Miss service time 132
Mitschang, B. 252
Mittal, N. 69—70 123
Mizrahi, H.E. 159 177
MOESI model, for cache protocol 153
Moffett, J.D. 193 253
Moran, T.P. 196 250
Morgenbrod, H.G. 185—186 191 253
Morris, A.H. 189 253
Morris, J.N. 100 125
Morrison, J. 225 251
Morrison, M. 225 251
Motiwalla, L.F. 193 253
Mudge, T.N. 155 177—178
Multicopy memory block 137
multiprocessors see also "Cache coherence"
Multiprocessors, Alewife 162 168
Multiprocessors, DASH 161—162 168
Multiprocessors, hypercube 162—163 175
Multiprocessors, PLUS 162 168
Multiprocessors, requirements for cache coherence 168—170
Multistage interconnection network 129 131 156—161 167—168
Muroga, S. 69 71 124
Murphy, S.C. 82 125
Murray, B.T. 75 124
Naffath, N. 251
Nardi, D. 194 216 246 249
Naturalistic observation 27 32
Naylor, A.W. 197 253
Network, lattice 218
Newell, A. 196 250
Newman, W.C. 76 125
Newman, W.M. 185 197—198 253
Newton, A. 89 123
Ng, P.A. 189 244 255
Nierstrasz, O. 192 194 196 227 242 247 251 254
NIST 185 197 244 247 253
NIST models 244—245 see
NoCopy memory block 137
Norton, A. 165 178
Nunamaker, J. 195 242 254
Nunamaker, J.F. 181 191 193—196 199 212 223 227 239 249
Nutt, G.J. 185—186 198 207 241 251
OAM see "Office analysis methodology"
OBE see "Office by example"
Object with roles model 246
Observational study 27 32
ODM see "Office data model"
Office analysis methodology 245
Office automation, problems in 183—184
Office by example, for modeling 247—248
Office data model 245
Office forms system, for modeling 202—204 230 245
Office models 181—255
Office models, acronyms 239—249
Office models, actor paradigm 192 194
Office models, adequacy, domain 197—198 225—227
Office models, adequacy, representational 198—201 227—234
Office models, components 184
Office models, definition 184
Office models, document 189
Office models, evolution 185—187
Office models, generations 185—187
Office models, glossary of 239—249
Office models, implementation-oriented 197
Office models, importance 184
Office models, operations paradigm 185 191
Office models, perspectives, activities 186 190—192
Office models, perspectives, agents 186 193—194 216—219
Office models, perspectives, applications 187 195—196 221 223
Office models, perspectives, communications 186 192—193 212—214
Office models, perspectives, coordination 192—193
| Office models, perspectives, data 185 188—190 227
Office models, perspectives, decisions 187 194—195 220—221
Office models, perspectives, exceptions 194—195
Office models, perspectives, forms 185 188—190 202—204
Office models, perspectives, functions 186 193 214—216 223
Office models, perspectives, goals 186 193
Office models, perspectives, information 185—186 188—190 204—207
Office models, perspectives, integrated 186—187 196—197 223—225 234—236
Office models, perspectives, policies 186 193
Office models, perspectives, problem solving 186 194—195 219—220
Office models, perspectives, procedures 186 190—192 207—212 223
Office models, perspectives, roles 193—194
Office models, perspectives, tasks 190—192 215—216
Office models, perspectives, transactions 192—193 212—214
Office models, requirements-oriented 197
Office models, research needs 234—236
Office models, reviews 201—225
Office models, SEE see "SEE model"
Office models, semantic 186 189 209 225 227
Office models, static vs. dynamic entities 209—211
Office models, structural vs. operational 216
Office models, taxonomy 198
Office models, types I and II 187 198
Office procedure automation system 246
Office structure model 216—218 246
Office task manager 246
OfficeTalk-D, for office modeling 245
OFFIS, for office modeling 245
OFM see "Office structure model"
OFS see "Office forms system"
Ogden, W.F. 69—70 75 125
Olson, J.R. 253
Olukotun, K.A. 74 125
Oman, Paul W. 29 31 34 37
Omega, for office modeling 219—220 245—246
One time identifier, for cache control 166
OPAS see "Office procedure automation system"
Operation phase, of experiment 24
Operational office modeling 216
Operational prototyping 44 54
Operations paradigm, for office modeling 185 191
ORM see "Object with roles model"
OSSAD, for office modeling 214—216 246
OTM see "Office task manager"
Overhead, for memory, components 135
Overhead, for memory, evaluation 173
Overhead, for memory, software vs. hardware cache control 167—168
Owicki, S. 172 174 177
Ownership bit 157
Ownership memory 144
Ownership protocol, cache 156—157
PAD see "Public application domain model"
Panko, R.R. 237 253
Panti, M. 194 216 246 249
Papamarcos, M. 145 162 178
Patel, J. 145 162 178
Payne, S.J. 196 248 253
Pecheux, F. 91 123
Peckham, J. 199 225 253
Pennington's model, of program comprehension 21
Pennington's model, of program comprehension, program model 17
Pennington's model, of program comprehension, situational model 17—19
Pennington, Nancy 2 4 6 17 19 31 33—34 37
Peperstraete, J.A. 107 121—122 124
Perkins, C.L. 146 177
Pernici, B. 185 188—189 191 194 198—199 206—207 209 230 234 240 246 248 249—250 253
Perry, D.L. 71 82 125
Petersen, T.A. 100 125
Peterson, J.L. 207 239 253
Petri nets, augmented, for office modeling 207—209 239
Pfister, G.F. 164—165 176 178
Piene, L.V. 98 121
Pinto, Jeannine 8 29 34 37—38
Planning phase, of experiment 24
Plans, knowledge, defined 6
Plans, knowledge, domain 7
Plans, knowledge, programming 6—7
Plans, programming, implementation 16
Plans, programming, strategic 15—16
Plans, programming, tactical 16
PLUS, cache coherent multiprocessor 162 168
PNAPBIC (pay no attention to person behind curtain) 47
POISE, for office modeling 247
Policies perspective, for office modeling 186 193
Policies, for memory blocks 132—133
Pollitt, S. 190 253
Pollock, S. 192 242 253
Poole, F. 188 241 252
Poppel, H.L. 183 253
POST, software prototyping 61
Pottier, B. 104 122 124
Pozzi, S. 189 250
Prakash, A. 69 125
Prevail tool, for design comparison 98
Prinetto, P. 80 122
problem domain 13
Problem solving perspective, for office modeling 186 194—195 219—220
Procedures perspective, for office modeling 186 190—192 207—212 223
procedures, defined 190 195
Process interaction diagram, and office submodeling 205—206
Process state model 16
Processes, programmer 9
Program comprehension, defined 5 see
Program evolution 2
Program maintenance, and code understanding 2
Program understanding, experiments on, components 22—26
Program understanding, experiments on, techniques 26—33
Program understanding, importance of 2
Program understanding, models, bottom up 17 19 21
Program understanding, models, Brooks 13—14 21 22
Program understanding, models, cognition 2 5—10
Program understanding, models, comprehension 10—22
Program understanding, models, integrated metamodel 19
Program understanding, models, Letovsky 11 21 22
Program understanding, models, Pennington's 17 19 21
Program understanding, models, Shneiderman 11—13 21 22
Program understanding, models, Soloway and Ehrlich 14—16 21—22
Program understanding, models, top-down 14—16 21—22
Program understanding, research needs 33 35—36
Programmable logic device 100
Programmer knowledge 5
Programming plan knowledge 17
Programming plans 7
ProMInanD, for office modeling 247
PROMIS, software prototyping 60—61
Protocols, hardware 134—162
Prototyping see "Rapid system prototyping" "Software
Przybylski, S. 132 178
PSE, for office modeling 244
Ptolemy CAD tools 92—93
Public application domain model 247
QBE see "Query by example"
Quasi-experiments 28 32
Query by example, for office modeling 247—248
Questionnaires 27
Quicktum, for hardware reusability 104—105
Rabitti, F.A. 192 242 254
Raimbault, F. 104 124
Ramamoorthy, C.V. 69 125
Ramirez, R. 74 125
Ramsey, H. Rudy 31 36
Ramsperger, N.G. 191 195 247 251—252
Randolph, L. 165 177
Ranganathan, P. 188 244 250
Rapid system prototyping 65—125
Rapid system prototyping, acronyms for 120
Rapid system prototyping, defined 68
Rapid system prototyping, development of 66—67
Rapid system prototyping, digital signal processors 76
Rapid system prototyping, extended VHDL, compiler 114—115 118—119
|
|
|
| Ðåêëàìà |
|
|
|
|
|
Î ïðîåêòå