A Bibliography of Publications in IEEE Computer:
1980–1989
Nelson H.F.Beebe
Center for Scienti?c Computing
University of Utah
Department of Mathematics,110LCB
155S1400E RM233
Salt Lake City,UT84112-0090
USA
Tel:+18015815254
FAX:+18015851640,+18015814148
E-mail:beebe@https://www.doczj.com/doc/e84718564.html,,beebe@https://www.doczj.com/doc/e84718564.html,,beebe@https://www.doczj.com/doc/e84718564.html,,beebe@https://www.doczj.com/doc/e84718564.html,(Internet WWW URL:https://www.doczj.com/doc/e84718564.html,/~beebe/
16January2003
Version2.03
Title word cross-reference
3[102].
-D[102].
1[173,301].11[44].1980s[189].1990s[82]. 2D[307].
3[103,308].3-D[103,308].38[141].
3D[182,307].
5[254].
754[25].79[31].
Abingdon[300].Abstractions[124]. Access[208,224].accidents[164]. According[217].Accuracy[270].
ACM[198].Acquisition[307].
across[263].Ada[30,138,146,264]. Adaptable[16,89].
Adaptive[178,209,213,295].Added[112]. Addressable[303].ADMS[152]. Advanced[98,257,287].
aerodynamics[314].Alamos[311]. Algebra[174].algorithm[338]. Algorithmic[132,268,293].
Algorithms[8,48,104,108,156,177,242]. Allocation[18].Alternatives[303]. Ambler[291].Amdahl[241].Ames[314]. Analog[211].Analysis[24,40,76,122]. Animating[121].Appendum[244]. Application[226].
1
2
Applications[25,66,72,109,233,313]. Applying[63].Appreciation[216,244]. Apprentice[245].
Approach[65,71,78,139,323,326]. Approaches[3,227].April[244]. Arbitrary[242].
Architecture[13,33,72,87,115,128,161, 162,167,207,233,236,241,259]. Architecture/Compiler[167]. Architectures[16,49,70,133,157,159,248]. area[11].Arithmetic[2,22,23,25,50]. Armstrong[226].
Array[33–35,172,175,177,178,242]. Arrays[134,156,171,176,180,181,220]. ART[213].Arti?cial[157,159]. assembly[273].Assistant[142,281]. Associative[303].Assuring[319]. Astronautics[301].Augmented[169]. Authority[208].automated[273]. Automatic[61,234,279].
Automation[29,267,272–275]. automation-robotics[275].
Autonomous[290–292].Avalon[252]. Avalon/C[252].
Back[3,4].Back-End[3,4].
Balancing[57].band[11].
Base[38,39,63,161,192].
Based[6,57,80,94,127,140,155,182–187,278,336].batch[273].
Beamforming[178].Behavior[79]. benchmark[300].Beyond[123]. Bibliography[215].Bidirectional[218]. Binary[22,211,217].Birth[256].
Book[126].Box[225].
Box-Structured[225].Branch[84]. Broadband[327].Broadcast[8]. Browsing[139,202].Bu?er[44,84]. Building[80,165,298].bullet[164].
Bus[15].Business[29].
C[252].C2[255].Cabinet[224].
caches[250].
CAD[104,160,182,183,186,284].CAD-based[182].calculating[9].
CAM[104].Camera[111].
Capacity[118,141].Case[190,191,250]. CCD[219].Cellular[87,179].
Center[313,314].Chaining[318]. Characterization[231].Charlotte[320]. Checking[7].Chinese[105].
Chinese/Kanji[105].Chip[31,218]. Chips[1].Circuit[326].
Circuits[7,218,219,279].Cm*[67].
Code[263].Codes[7].coding[339]. Coherence[204].Collapsed[280]. Collapsed-Fault[280].Color[77]. Combinatorial[116].Combining[285]. Commercial[165,208].
Communication[11,65].
Comparison[217].Compiler[10,167,264]. Compiler-Compiler[10].
Complete[151,342].Complex[190]. Complexity[123].Components[136]. Composing[261].
Compression[90,338,339,342]. Computation[14,48,222,270]. computational[314].Computations[323]. Computer[21,37,54,57,62,65,70,73,91,97, 99,101,111,115,127,157,161,167,173,198, 248,257,266,330,334,336].
Computer-Based[127].
Computers[123,189,232,237,304]. Computing[11,34,47,50,148,198,211,214, 240,265,330].Concept[171,172,181,203]. Concepts[109,238,287].
Concurrent[50,107,232,323].
Conference[239].Conferencing[127]. Con?guration[112,325].
Con?gurations[137].CONLAN[109]. Connection[233].Connectionist[159]. Considerations[6,60,155,258]. Constrained[296].Constraints[337]. Construction[103,203].Content[303]. Content-Addressable[303].
Contention[246].
Control[88,143,184,187,208].
Controller[178].Controlling[295].
3
Controversy[123].Convex[255].
Core[198].Correcting[7].
Correctness[229,247].Coupled[206]. Coverage[280].Covered[151].
Cray[256,318].Criteria[217].Cross[300]. Crossbar[170].
Current[119,128,218,229,272–275]. Current-Mode[218].Curriculum[321]. Curved[68].Cut[112].Cydra[254].
D[102,103,308].DARPA[73,130].
Data[17,18,38–41,52–55,58,63,90,104,105, 161,181,192,227,242,306–
309,315,333,336,338,342].data-base[39]. Data-Driven[181,242].
Data/Knowledge[161,192].
Database[70,85,89,96,101,135,139,332, 334].Databases[125,150,154,160,191,337]. Data?ow[51,132].Deadlock[12,328]. Debugging[324].decisions[254]. Declarative[323].Decomposing[104]. defense[260].De?nitive[341]. Denormalized[26].departmental[254]. Depth[298].Description[110].
Design[1,6,44,65,84,88,89,107,124,135, 138,143,144,152,155,178,193,230,249,254, 255,258,281,302,326,336].Designing[320]. Designs[278].detection[328]. Determining[77].
Development[120,194,199,223,278,282]. Developments[175].Diagnostic[96]. Digital[79,207].direct[250].
direct-mapped[250].Directed[96]. Directions[13].Discipline[198,265,266]. Disk[58,118,155].Disk-Based[155]. Disks[224].Display[306].Distributed[8, 11,18,66,131,138,168,251,297,311,328]. distributions[9].do[163].
Document[128,199,200].domain[241]. Domesticating[147].Down[103]. drawing[5].Drawings[103].
Driven[181,230,242].Dual[183]. Dynamic[243,301].Earth[309].easy[5].easy-to-use[5]. Editing[200].Editor[168,215].
Editors[83,195,332].education[266].
E?cient[107,151].
Electronic[75,126,274,310].End[3,4]. Engineer[281].Engineering[103,125,164, 255,285,305,321].Enhancement[223]. Enhancing[125].Environment[27,28,30, 93,100,139,145,197,203,222,281,298]. Environments[193,194,196,322].
Errata[23].Error[7].
Error-Correcting[7].essence[164]. Essential[113,177].Ethernet[62]. Evaluating[137].Evaluation[165].
Event[204].Evolution[62,283,322,330]. Exception[271].Exchange[169]. Execution[45].Exercise[230]. Expanding[305].Experience[80,320]. Experimental[130,315].
Experiments[61].
Expert[96,141,143–145,165,238]. Exploration[291].Expressing[108]. Facilitate[35].Facility[222,287,320]. Facts[202].Fault[95,176,206,280].
Fault-Tolerant[95,206].Federal[114]. Field[306].Fifth[115].
Fifth-Generation[115].File[61,161,224]. Filtering[209].Finding[202].Fixed[156]. Fixed-Size[156].Flames[307].
Flexible[66].Flight[287].
Floating[2,22–25].Floating-Point[22,24]. Flow[17,52–55,63,306].Flows[307].
Fluid[306].FolioPub[201].Force[198]. Formal[229].Formalization[196].
Format[340].Formats[128].
Fortran[35,228].Framework[284,293]. Free[59].Friends[147].
Functional[78,149].Functionally[33]. Fuzzy[238].
GaAs[167,178].Gateway[46].
Gateways[72,73].General[173,258]. General-Purpose[173,258].
4
Generating[280].
Generation[19,115,240,277,279]. Genesis[101].Gentest[279].
geographic[40,333].GEOMATIC[102]. Geometric[270].Good[319]. Government[114].Graduation[289]. graph[5].Graphic[102,340].
Graphical[100,119,120,251,325]. Graphics[21,97,129,236].graphs[53]. Grasping[272].Grids[294].
Guest[83,168,215,332].Guide[2,23,341]. Handling[144,271].
Hardware[79,106,108,110,229,281,331]. Hashing[243].
Heterogeneous[73,85,222].
High[90,118,207,237,277].
High-Level[277].
High-Speed[118,207,237].Highly[47,50]. Holy[36].Hyper[227].
Hyper-Semantic[227].
Hyperchannel[74].Hypertext[188,202]. IBM[141,228,316,318].ICs[217].
IEEE[25].IEEE-754[25].If[59].
Image[70,332,335].impact[11]. Implementation[2,23,151,171,172,181, 210].implementations[109].
individual[339].In?uence[322]. Information[40,41,129,203,249,298,333]. Inheritance[252].Inspection[299]. inspections[247].Institute[289,321]. Instruction[92,123,190,301].
Instruction-Level[92].
Integrated[70,193,336].
Integrating[34,135,180].Integration[88]. Integrity[337].Intelligence[157,159]. Intelligent[46,272,290].
Interactive[97,100,308].
Interchange[128,129].
Interconnecting[73,75,85,136]. Interconnection[42,43,168,169,262]. Interface[124,286].Interfaces[251,261]. Interfacing[104].Interlisp[28].Intermedia[203].Internal[243]. International[128].Internet[73]. internetworking[72].Intero?ce[131]. Interpreter[69].Interpreting[32]. InterViews[261].Introduction[83,168, 188,215,229,231,332].investigate[247].
IS-A[76].ISDN[327].Isn’t[76].
ISR[334].Issues[4,13,113,138,264]. Jukebox[118].
Kanji[105].Kernel[297].Kingdom[175]. Knowledge[78,80,81,96,125,143,161,192, 202,285,336].Knowledge-Based[80,336]. Knowledge-Directed[96].
KRYPTON[78].
Laboratory[311,312,315].
LANDSAT[40].
Language[13,29,107,108,110,195,322,336]. Languages[39,52,55].
Large[14,48,118,134,161,191,309].
Large-Capacity[118].Large-Scale[14]. Lawrence[312].learned[293].
Learning[292,296].length[9].
Level[92,269,277].Library[278].
Library-Based[278].Linda[147].
Linear[174].Links[74,76].
LISP[31,162,231].Livermore[312].
Load[57].Local[11,57,62].
Localization[186].
Logic[215,216,218,220,244].
Machine[115,233].
Machines[55,63,162,192,290].
Mail[75,130,131].Maintenance[302]. Management[56,70,85,153,201,239,286, 332,336].Managing[160].
Manipulating[41].Manipulation[299]. Manipulators[187].Manufacturing[186]. Map[333].mapped[250].
Mapping[156,177,249].Mass[59,60,117]. Master[321].Matrix[50,173].
Matrix-1[173].matures[266].
5
Maximum[228].Measuring[9,68]. Mechanical[103,143,273].Medical[308]. Memories[95].Memory[37,56,246,303]. Message[232].Message-Passing[232]. Metadata[153].Methodology[88,89]. methods[304].Microcomputer[15]. Microprocessor[6,86,258]. Microprocessor-Based[6].Mid[189].
Mid-1980s[189].Migration[61,320].
Mini[163].Mini-Super[163]. Misconceptions[240].MML[86].
Mobile[292,294].Mode[218].
Model[117,185–187,210,223,298,335]. Model-Based[185–187].
Modeling[92,104,160,221,227].
Modular[42].Monitoring[45].
Motion[32,211,268].Motions[269].
MP[256,318].Multicomputer[137,221]. Multicomputers[232].Multilevel[72]. Multimedia[130,155].
Multiple[86,199,215,216,218–
220,241,244].multiple-domain[241]. Multiple-Microprocessor[86].
Multiple-Valued[215,216,218–220,244]. Multiplier[218].Multiprocessing[116]. Multiprocessor[94,113,206,226,262]. Multiprocessors[132,204,246]. Multisensor[297].Multistage[169]. Multivalued[217].Myths[234].
NASA[314].National[239,311–313]. Nature[165].Naval[315].
Navigation[292–294].Nets[209].
Network[3,57,62,65,74,205,210,212,213, 288,327,340].
Networks[4,20,42,43,48,73,76,91,168–170,211,214,262].
Neural[209,210,212–214,296].Next[240]. Next-Generation[240].No[164]. Nonlinear[296].Null[178].Numbers[26]. OBE[29].
Object[103,155,182,284,319,335].
Object-Oriented[284,319].Objects[32,154].Occluded[185]. Occupancy[294].O?ce[29,128].
O?s[44,254].Once[224].
Operating[56,98,138,205].
Operator[142].Opinion[55]. Opportunities[305].
Optical[58,118,155,170,192,224,327]. Optimization[220,231,263].
Optimum[207].Ordering[204]. Organization[44].Organizing[213]. Oriented[284,319].Overlapping[111]. Overview[10,12,245].
package[5].Packet[42].Paper[144]. Para[149].Para-Functional[149]. Paradigm[82].Parallel[33,47,48,93,114, 115,133,146,148,168,174,191,207,304]. Parallelism[147,166].PARET[221]. Part[77].Partially[185].
Partitioning[156,177].
Parts[111,185,186].Passing[232]. Patrec[96].Pattern[99,209,212,213]. PC[316].peace[36].Perception[294]. Performance[4,90,94,122,132,137,155, 228,262,324].Persistent[71]. Perspective[30,330].Perspectives[14]. philosophies[254].Pick[269].
Pick-and-Place[269].PICT[100]. Pictorial[38–41,337].Picture[39]. Pipelining[318].pivotal[260].
Place[269].Planetary[291].
Planning[141,185,268,269,273]. Plausibility[230].
Plausibility-Driven[230].plea[36]. PNG[340,341].Point[2,22–25].
Poker[93].Portable[340].Power[142]. Practical[54,197].Precision[259]. Precompilation[35].Predictable[297]. Prediction[84,184].
Prediction-Based[184].
Preliminary[198].Price[112,158].
Pride[144].Principles[152].
Problem[12,240].Problems[116,270]. procedures[263].Process[88,320].
6
Processing[18,35,40,50,70,105,146,157, 168,179,195,206,207,276,333,334]. Processor[34,92,112,114,134,174,181, 231].Processors[33,172,177,189]. Production[10,140].
Program[45,53,92,120,195,247]. Programmable[220,288].
Programmer[245].Programming[27,28, 71,86,93,100,119,149,166,187,193,196,197, 228,234,273,325,336].
Programs[35,114,121,319].
project[10,109,313].PROLOG[107]. Properties[252].Proposals[24]. Proposed[2,15,22,23,25].
Prospects[234].Protocols[327]. Prototypes[286].
Prototyping[274,282,283,285,287,288]. PSN[80].Publication[201].
Purpose[1,173,258].
QBE[29].QBE/OBE[29].Quality[10]. Quantum[310].Query[39,276].
Query-Processing[276].Querying[191]. queue[9].
R&D[239].RAM[303].Random[224]. Random-Access[224].
Rapid[282,283,285,287].rate[339]. Reaching[21].Reading[126].
Real[66,127,207,240,297].
Real-Time[66,127,207,240,297]. Recognition[99,111,209,212,213,335]. Recognizing[185].
Recommendations[321].
Recon?guration[133].
Recovery[252,302].Reduced[231]. Reduced-Introduction-Set[231]. Reducing[246].Reduction[94]. Reduction-Based[94].
Reference[117,342].Re?nement[225]. Relationships[77].Relief[102].
Remote[222].report[198,266,329,331]. Representation[78,125,182,199,249,306, 307].Representations[183].Representing[79,81].
Research[115,229,245,272–
275,287,305,314,315].Resistive[211]. retrospective[317].Reuse[302].
Reusing[136].RISC[64,189].
Rivers[313].
Robot[68,182,184,187,269,292–294]. Robotic[273,299].
Robotics[267,268,271–275].
Robustness[270].Rochester[46].
Role[129,310].Routing[91].Rover[291]. Rule[140].Rule-Based[140].
Saxpy[173].Scale[14,48].Schedule[140]. Scheduling[301].Scheme[31].
Scheme-79[31].science[198,266]. Sciences[309].
Scienti?c[14,34,197,257,305,313,314]. SDI[145].Seamless[203].Search[116]. Second[19,55].Secure[276].Segue[251]. Self[7,213].Self-Checking[7].
Self-Organizing[213].Semantic[76,227]. Semiconductor[95].
Semiconductors[310].sequences[339]. Sequential[279,338].Sequoia[206]. Serious[240].Server[155].
Set[86,231,280].Sets[123,190,306,309]. Shapes[103].Shared[246].
Shared-Memory[246].Shu?e[169].
Shu?e-Exchange[169].Shu?es[43]. Signal[50,179,207].silver[164]. Simulated[94].
Simulation[8,102,122,310].
Single[111,280].Single-Stuck-Fault[280]. Size[156].SLAPP[174].
Smalltalk[121,158].Snowbird[266]. Software[60,82,120,136,164,194,223,226, 253,260,282,283,285,321].Solid[104]. Some[175].Source[208].Soviet[237]. Space[32].Spatial[337].Special[1]. Special-Purpose[1].Speci?cation[337]. spectrum[330].Speed[118,207,237,318]. Spherical[183].Spiral[223].Sprite[205]. Stack[163].Standard[2,15,22–25,286].
7
Standardization[128].Standards[129]. Star[317].Static[243].Status[128]. Steering[178].Step[177].Stepwise[225]. Storage[4,58–60,117].Storming[285]. Strategic[239,260].
Strategies[84,91,133,276].Strategy[185]. Structure[79].Structured[214,225,326]. Structures[41,50,104].Stuck[280].
Study[191].Style[319].Styles[200]. summary[331].Super[16,163]. Supercomputer[236,254,256,331]. Supercomputers[17,19,253]. Supercomputing[313].
Supersystem[180].
Support[88,120,251,281].Surfaces[68]. Surrogate[161].Survey[45,47,119,129, 188,189,229,235,300,304,329].
Suspension[295].Switching[42]. Symbolic[148,334].
Synchronization[8,204,252,304]. Synchronizing[134].Synchronous[327]. Synergism[167].System[15,34,56,96, 102,118,130,131,138,140–144,165,179,183, 201,205,224,226,272,279,288,299,336]. System/38[141].
Systems[11,16,37–39,41,42,51,60,75,80, 85,98,113,115,117,127,144,145,167,200, 202,221,225,238,240,286,287,297,328,333]. Systolic[49,156,171,173–180].
Systolic/Cellular[179].
Tables[243,331].talk[289].target[84]. Task[18,198,269].Task-Level[269]. Taulbee[235,329].Taxonomic[76]. Taxonomy[248].technique[90]. Techniques[63,86,119,152,176,192]. Technology[82,264,322].Temporal[150]. terrain[249].terrains[293].
Test[277–279,281].Test-Generation[279]. Testability[6,281].Testbed[65–67].
T E Xnology[316].Text[105].Their[129]. TI[257].Tightly[206].
Time[66,77,127,207,240,297].Titan[236]. Toast[142].Tolerance[176].Tolerant[95,206].Tools[83,86,165,312]. Top[103].Top-Down[103].
Topology[306].Trade[44,254].
Trade-O?s[44,254].Traditional[227]. Transaction[206].Transformations[296]. Translation[44].Transport[310]. Turbulent[307].Tutorial[216,244].
Two[111].Type[77].
U[69].U-Interpreter[69].
Ubiquitous[303].Under?ow[26].
Union[237].United[175].universal[338]. Unix[27,57].Unix-Based[57].
unknown[293].update[331].USC[275]. use[5].User[21,124,135,261,286].
Using[8,43,82,111,121,211,247,294,298]. Valued[215,216,218–220,244].
variable[339].V AX[44,56].V AX-11[44]. V AX/VMS[56].Vector[19,228,306,318]. Vehicle[295].Veri?cation[106,225,229]. Very[48,161].Very-Large-Scale[48]. VHSIC[110].via[339].Videotex[20]. Views[135,154].Virtual[56].
Vision[68,99,182,184,299,334,336].
Visual[81,122,139,212,322].
Visualization[120,305,308,310–315]. Visualizing[309,323,324].Visually[32]. VLSI[1,64,83,87,107,134,210,217,242, 277,284,326].VMS[56].vs[202,228]. Wang[289].Wars[36].Wavefront[172]. Were[59].Whistle[278].wide[11].
wide-band[11].Windows[151]. Workbench[278].Workstation[122]. world[81].Write[224].Write-Once[224]. Writing[126].
X[256,318].X-MP[256,318].Xerox[317]. Zeus[108].ZS[301].ZS-1[301].
REFERENCES8
References
Foster:1980:DSV [1]M.J.Foster and H.T.Kung.The design
of special-purpose VLSI https://www.doczj.com/doc/e84718564.html,-
puter,13(1):26–40,January1980.CO-
DEN CPTRB4.ISSN0018-9162.
Coonen:1980:IGP [2]Jerome T.Coonen.An implementation
guide to a proposed standard for?oating
point https://www.doczj.com/doc/e84718564.html,puter,13(1):68–
79,January1980.CODEN CPTRB4.
ISSN0018-9162.See errata in[23].
Thornton:1980:BNA [3]J. E.Thornton.Back-end network
https://www.doczj.com/doc/e84718564.html,puter,13(2):10–17,
February1980.CODEN CPTRB4.
ISSN0018-9162.
Chlamatac:1980:PIB [4]I.Chlamatac,W.R.Franta,P.C.Pat-
ton,B.,and Wells.Performance issues in
back-end storage https://www.doczj.com/doc/e84718564.html,puter,
13(2):18–31,February1980.CODEN
CPTRB4.ISSN0018-9162.
Butland:1980:EGD [5]J.Butland and S.D.Butland.An easy-
to-use graph drawing https://www.doczj.com/doc/e84718564.html,-
puter,13(2):69–80,February1980.CO-
DEN CPTRB4.ISSN0018-9162.
Hayes:1980:TCM [6]J.P.Hayes and E.J.McCluskey.Testa-
bility considerations in microprocessor-
based https://www.doczj.com/doc/e84718564.html,puter,13(3):17–26,
March1980.CODEN CPTRB4.ISSN
0018-9162.
Pradhan:1980:ECS [7]D.K.Pradhan and J.J.Sti?er.Error-
correcting codes and self-checking cir-
https://www.doczj.com/doc/e84718564.html,puter,13(3):27–37,March
1980.CODEN CPTRB4.ISSN0018-
9162.
Peacock:1980:DSU [8]K.Peacock,E.Manning,and J.Wong.
Synchronization of distributed simula-
tion using broadcast https://www.doczj.com/doc/e84718564.html,-
puter,13(4):3–10,April1980.CODEN
CPTRB4.ISSN0018-9162.
Buzen:1980:MCQ [9]Je?rey P.Buzen and Peter J.Denning.
Measuring and calculating queue length
https://www.doczj.com/doc/e84718564.html,puter,13(4):33–44,
April1980.CODEN CPTRB4.ISSN
0018-9162.
Leverett:1980:OPC [10]Bruce W.Leverett,R.G.G.Cattell,
S.O.Hobbs,J.M.Newcomer, A.H.
Reiner,B.R.Schatz,and W.A.Wulf.
An overview of the Production Quality
Compiler-Compiler https://www.doczj.com/doc/e84718564.html,puter,
13(8):38–49,August1980.CODEN CP-
TRB4.ISSN0018-9162.
Wilkes:1980:IWL [11]M.V.Wilkes.The impact of wide-
band local area communication systems
on distributed https://www.doczj.com/doc/e84718564.html,puter,
13(9):22–25,September1980.CODEN
CPTRB4.ISSN0018-9162.
Isloor:1980:DPO [12]S.S.Isloor and T.A.Marsland.The
deadlock problem:An https://www.doczj.com/doc/e84718564.html,-
puter,13(9):58–78,September1980.
CODEN CPTRB4.ISSN0018-9162.
Flynn:1980:DIA [13]M.Flynn.Directions and issues in ar-
chitecture and https://www.doczj.com/doc/e84718564.html,puter,13
(10):5–22,October1980.CODEN CP-
TRB4.ISSN0018-9162.
REFERENCES9
Rodrigue:1980:PLS [14]G.Rodrigue, E. D.Giroux,and
M.Pratt.Perspectives on large-scale
scienti?c https://www.doczj.com/doc/e84718564.html,puter,13
(10):65–80,October1980.CODEN CP-
TRB4.ISSN0018-9162.
Boberg:1980:PMS [15]R.W.Boberg et al.Proposed Mi-
crocomputer System796Bus Standard.
Computer,13(10):89–105,October1980.
CODEN CPTRB4.ISSN0018-9162.
Vick:1980:AAS [16]C.R.Vick,S.P.Kartashev,and S.I.
Kartashev.Adaptable architectures for
super https://www.doczj.com/doc/e84718564.html,puter,13(11):17–
35,November1980.CODEN CPTRB4.
ISSN0018-9162.
Dennis:1980:DFS [17]Jack B.Dennis.Data?ow supercomput-
https://www.doczj.com/doc/e84718564.html,puter,13(11):48–56,November
1980.CODEN CPTRB4.ISSN0018-
9162.
Chu:1980:TAD [18]W.W.Chu,L.J.Holloway,https://www.doczj.com/doc/e84718564.html,n,and
K.Efe.Task allocation in distributed
data https://www.doczj.com/doc/e84718564.html,puter,13(11):57–
69,November1980.CODEN CPTRB4.
ISSN0018-9162.
Kozdrowicki:1980:SGV [19]E.W.Kozdrowicki and Douglas J.
Theis.Second generation of vector su-
https://www.doczj.com/doc/e84718564.html,puter,13(11):71–
83,November1980.CODEN CPTRB4.
ISSN0018-9162.
Ball:1980:VN [20]A.J.S.Ball,G.V.Bochmann,and
J.Gecsei.Videotex https://www.doczj.com/doc/e84718564.html,-
puter,13(12):8–14,December1980.CO-
DEN CPTRB4.ISSN0018-9162.
Myers:1981:CGR [21]https://www.doczj.com/doc/e84718564.html,puter graphics:Reach-
ing the https://www.doczj.com/doc/e84718564.html,puter,14(3):7–10,14,
17,March1981.CODEN CPTRB4.
ISSN0018-9162.
Stevenson:1981:PSB [22]David Stevenson.A proposed stan-
dard for binary?oating-point arith-
https://www.doczj.com/doc/e84718564.html,puter,14(3):51–62,March
1981.CODEN CPTRB4.ISSN0018-
9162.
Coonen:1981:EIG [23]Jerome T.Coonen.Errata:An imple-
mentation guide to a proposed standard
for?oating point https://www.doczj.com/doc/e84718564.html,puter,
14(3):62–??,March1981.CODEN CP-
TRB4.ISSN0018-9162.See[2].
Cody:1981:APF [24]William J.Cody,Jr.Analysis of propos-
als for the?oating-point https://www.doczj.com/doc/e84718564.html,-
puter,14(3):63–69,March1981.CO-
DEN CPTRB4.ISSN0018-9162.
Hough:1981:API [25]David Hough.Applications of the pro-
posed IEEE-754standard for?oating
point https://www.doczj.com/doc/e84718564.html,puter,14(3):70–
74,March1981.CODEN CPTRB4.
ISSN0018-9162.
Coonen:1981:UDN [26]Jerome T.Coonen.Under?ow and the
denormalized https://www.doczj.com/doc/e84718564.html,puter,14
(3):75–87,March1981.CODEN CP-
TRB4.ISSN0018-9162.
Kernighan:1981:UPE [27]B.W.Kernighan and J.R.Mashey.The
Unix programming https://www.doczj.com/doc/e84718564.html,-
REFERENCES10
puter,14(4):12–24,April1981.CODEN
CPTRB4.ISSN0018-9162.
Teitelman:1981:IPE [28]Warren Teitelman and Larry Masin-
ter.The Interlisp programming envi-
https://www.doczj.com/doc/e84718564.html,puter,14(4):25–33,April
1981.CODEN CPTRB4.ISSN0018-
9162.
Zloof:1981:QOA [29]M.M.Zloof.QBE/OBE:A language for
o?ce and business https://www.doczj.com/doc/e84718564.html,-
puter,14(5):13–22,May1981.CODEN
CPTRB4.ISSN0018-9162.
Stenning:1981:AEA [30]V.Stenning,R.Froggatt,R.Gilbert,
and E.Thomas.The Ada environment:
A https://www.doczj.com/doc/e84718564.html,puter,14(6):26–36,
June1981.CODEN CPTRB4.ISSN
0018-9162.
Sussman:1981:SLC [31]Gerald Jay Sussman,Jack Holloway,
Guy Lewis Steele,Jr.,and Alan Bell.
Scheme-79—Lisp on a https://www.doczj.com/doc/e84718564.html,puter,
14(7):10–21,July1981.CODEN CP-
TRB4.ISSN0018-9162.
Webb:1981:VIM [32]Jon A.Webb and J.K.Aggarwal.Visu-
ally interpreting the motion of objects in
https://www.doczj.com/doc/e84718564.html,puter,14(8):40–46,August
1981.CODEN CPTRB4.ISSN0018-
9162.
Cohler:1981:FPA [33]E.U.Cohler and J.E.Storer.Func-
tionally parallel architecture for array
https://www.doczj.com/doc/e84718564.html,puter,14(9):28–36,
September1981.CODEN CPTRB4.
ISSN0018-9162.
Maron:1981:IAP [34]N.Maron and T.A.Brengle.Integrat-
ing an array processor into a scienti?c
computing https://www.doczj.com/doc/e84718564.html,puter,14(9):41–
44,September1981.CODEN CPTRB4.
ISSN0018-9162.
Brode:1981:PFP [35]B.Brode.Precompilation of Fortran
programs to facilitate array process-
https://www.doczj.com/doc/e84718564.html,puter,14(9):46–51,September
1981.CODEN CPTRB4.ISSN0018-
9162.
Cohen:1981:HWP [36]Danny Cohen.On Holy Wars and a
plea for https://www.doczj.com/doc/e84718564.html,puter,14(10):48–
54,October1981.CODEN CPTRB4.
ISSN0018-9162.This is an entertaining
account of the Big-Endian and Little-
Endian problems of bit and byte order-
ing.
Pohm:1981:CMS [37]A.V.Pohm and https://www.doczj.com/doc/e84718564.html,puter
memory https://www.doczj.com/doc/e84718564.html,puter,14(10):93–
110,October1981.CODEN CPTRB4.
ISSN0018-9162.
Chang:1981:PDB [38]S.K.Chang and T.L.Kunii.Pictorial
data base https://www.doczj.com/doc/e84718564.html,puter,14(11):
13–21,November1981.CODEN CP-
TRB4.ISSN0018-9162.
Chang:1981:PQL [39]N.S.Chang and K.S.Fu.Picture query
languages for pictorial data-base sys-
https://www.doczj.com/doc/e84718564.html,puter,14(11):23–33,Novem-
ber1981.CODEN CPTRB4.ISSN
0018-9162.
REFERENCES11
Zobrist:1981:PIP [40]A.L.Zobrist and G.Nagy.Pictorial in-
formation processing of LANDSAT data
for geographic https://www.doczj.com/doc/e84718564.html,puter,14
(11):34–41,November1981.CODEN
CPTRB4.ISSN0018-9162.
Chock:1981:MDS [41]Margaret Chock,Alfonso F.Cardenas,
and Allen Klinger.Manipulating data
structures in pictorial information sys-
https://www.doczj.com/doc/e84718564.html,puter,14(11):43–50,Novem-
ber1981.CODEN CPTRB4.ISSN
0018-9162.
Dias:1981:PSI [42]D.M.Dias and J.R.Jump.Packet
switching interconnection networks for
modular https://www.doczj.com/doc/e84718564.html,puter,14(12):43–
53,December1981.CODEN CPTRB4.
ISSN0018-9162.
Chen:1981:INU [43]P.-Y.Chen,https://www.doczj.com/doc/e84718564.html,wrie,P.-C.Yew,
and D.A.Padua.Interconnection net-
works using shu?https://www.doczj.com/doc/e84718564.html,puter,14(12):
55–63,December1981.CODEN CP-
TRB4.ISSN0018-9162.
Satyanarayanan:1981:DTV [44]M.Satyanarayanan and D.P.Bhan-
darkar.Design trade-o?s in VAX-11
translation bu?er https://www.doczj.com/doc/e84718564.html,-
puter,14(12):103–111,December1981.
CODEN CPTRB4.ISSN0018-9162.
Plattner:1981:MPE [45]B.Plattner and J.Nievergelt.Monitor-
ing program execution:A https://www.doczj.com/doc/e84718564.html,-
puter,16(11):76–93,November1981.
CODEN CPTRB4.ISSN0018-9162.
Lantz:1982:RIG [46]https://www.doczj.com/doc/e84718564.html,ntz,K.D.Gradischnig,J.A.
Feldman,R.F.,and Rashid.Rochester’s
intelligent https://www.doczj.com/doc/e84718564.html,puter,11(10):
54–68,October1982.CODEN CP-
TRB4.ISSN0018-9162.
Haynes:1982:SHP [47]L.S.Haynes,https://www.doczj.com/doc/e84718564.html,u,D.P.Siewiorek,
and D.W.Mizel.A survey of highly
parallel https://www.doczj.com/doc/e84718564.html,puter,15(1):9–
24,January1982.CODEN CPTRB4.
ISSN0018-9162.
Gottlieb:1982:NAV [48]Allan Gottlieb and https://www.doczj.com/doc/e84718564.html,-
works and algorithms for very-large-
scale parallel https://www.doczj.com/doc/e84718564.html,puter,
15(1):27–36,January1982.CODEN
CPTRB4.ISSN0018-9162.
Kung:1982:WSA [49]H.T.Kung.Why systolic architectures?
Computer,15(1):37–46,January1982.
CODEN CPTRB4.ISSN0018-9162.
Ahmed:1982:HCC [50]H.M.Ahmed,J.M.Delosme,and
M.Morf.Highly concurrent computing
structures for matrix arithmetic and sig-
nal https://www.doczj.com/doc/e84718564.html,puter,15(1):65–82,
January1982.CODEN CPTRB4.ISSN
0018-9162.
Agerwala:1982:DS [51]T.Agerwala and Arvind.DataFlow sys-
https://www.doczj.com/doc/e84718564.html,puter,15(2):10–30,February
1982.CODEN CPTRB4.ISSN0018-
9162.
Ackerman:1982:DFL [52]W.B.Ackerman.Data?ow languages.
Computer,15(2):15–25,February1982.
CODEN CPTRB4.ISSN0018-9162.
REFERENCES12
Davis:1982:DFP [53]Alan L.Davis and Robert M.Keller.
Data?ow program https://www.doczj.com/doc/e84718564.html,puter,
15(2):26–41,February1982.CODEN
CPTRB4.ISSN0018-9162.
Watson:1982:PDF [54]I.Watson and J.Gurd.A practical
data?ow https://www.doczj.com/doc/e84718564.html,puter,15(2):
51–57,February1982.CODEN CP-
TRB4.ISSN0018-9162.
Gajski:1982:SOD [55]D.D.Gajski,D.A.Padua,D.J.Kuck,
and R.H.Kuhn.A second opinion on
data?ow machines and https://www.doczj.com/doc/e84718564.html,-
puter,15(2):58–69,February1982.CO-
DEN CPTRB4.ISSN0018-9162.
Levy:1982:VMM [56]H.M.Levy and P.H.Lipman.Vir-
tual memory management in the VAX/
VMS operating https://www.doczj.com/doc/e84718564.html,puter,15
(3):35–41,March1982.CODEN CP-
TRB4.ISSN0018-9162.
Hwang:1982:ULC
[57]K.Hwang,W.J.Croft,G.H.Goble,
B.W.Wah,F.A.Briggs,W.R.Sim-
mons,and C.L.Coates.A Unix-Based
local computer network with load bal-
https://www.doczj.com/doc/e84718564.html,puter,15(4):55–66,April
1982.CODEN CPTRB4.ISSN0018-
9162.
Kenville:1982:ODD [58]Richard F.Kenville.Optical disk data
https://www.doczj.com/doc/e84718564.html,puter,15(7):21–25,July
1982.CODEN CPTRB4.ISSN0018-
9162.
Copeland:1982:WIM [59]George Copeland.What if mass storage
were free?Computer,15(7):27–35,July
1982.CODEN CPTRB4.ISSN0018-
9162.
OLear:1982:SCM [60]B.T.O’Lear and J.H.Choy.Software
considerations in mass storage systems.
Computer,15(7):36–44,July1982.CO-
DEN CPTRB4.ISSN0018-9162.
Lawrie:1982:EAF [61]https://www.doczj.com/doc/e84718564.html,wrie,J.M.Randal,and R.R.
Barton.Experiments with automatic?le
https://www.doczj.com/doc/e84718564.html,puter,15(7):45–55,July
1982.CODEN CPTRB4.ISSN0018-
9162.
Shoch:1982:EEL [62]John F.Shoch,Y.K.Dalal,David D.
Redell,and Ronald C.Crane.Evolu-
tion of the Ethernet local computer net-
https://www.doczj.com/doc/e84718564.html,puter,15(8):10–27,August
1982.CODEN CPTRB4.ISSN0018-
9162.
Boral:1982:ADF [63]H.Boral and D.J.DeWitt.Applying
data?ow techniques to data base ma-
https://www.doczj.com/doc/e84718564.html,puter,15(8):57–63,August
1982.CODEN CPTRB4.ISSN0018-
9162.Reprinted in A.R.Hurson,L.L.
Miller,and S.H.Pakzad,Parallel Ar-
chitectures for Database Systems,IEEE
Computer Society Press,Washington,
DC,1989.
Patterson:1982:VR [64]D.A.Patterson and C.H.Sequin.A
VLSI https://www.doczj.com/doc/e84718564.html,puter,15(9):8–21,
September1982.CODEN CPTRB4.
ISSN0018-9162.
Brayer:1982:TAD [65]K.Brayer and https://www.doczj.com/doc/e84718564.html,?eur.A testbed
approach to the design of a computer
REFERENCES13
communication https://www.doczj.com/doc/e84718564.html,puter,15
(10):14–23,October1982.CODEN CP-
TRB4.ISSN0018-9162.
McDonald:1982:FDT [66]W.C.McDonald and R.W.Smith.A
?exible distributed testbed for real-time
https://www.doczj.com/doc/e84718564.html,puter,15(10):25–39,
October1982.CODEN CPTRB4.ISSN
0018-9162.
Gehringer:1982:CT [67]E.F.Gehringer,A.K.Jones,and Z.Z.
Segall.The Cm*https://www.doczj.com/doc/e84718564.html,puter,15
(10):40–49,October1982.CODEN CP-
TRB4.ISSN0018-9162.
Hall:1982:MCS [68]Ernest L.Hall,James K. B.Tio,
Charles A.McPherson,and Firooz A.
Sadjadi.Measuring curved surfaces for
robot https://www.doczj.com/doc/e84718564.html,puter,15(12):42–54,
December1982.CODEN CPTRB4.
ISSN0018-9162.
Arvind:1982:U [69]Arvind and Kim P.Gostelow.The
https://www.doczj.com/doc/e84718564.html,puter,16(1):42–49,
January1982.CODEN CPTRB4.ISSN
0018-9162.
Fu:1983:ICA [70]K.Hwang and K.Fu.Integrated com-
puter architectures for image process-
ing and database https://www.doczj.com/doc/e84718564.html,-
puter,16(1):51–60,January1983.CO-
DEN CPTRB4.ISSN0018-9162.
Atkinson:1983:APP [71]M.P.Atkinson,P.J.Bailey,K.J.
Chisholm,P.W.Cockshott,and R.Mor-
rison.An approach to persistent pro-
https://www.doczj.com/doc/e84718564.html,puter,16(4):360–365,
April1983.CODEN CPTRB4.ISSN
0018-9162.
Benhamou:1983:MIG [72]Eric Benhamou and Judy Estrin.Mul-
tilevel internetworking gateways:Archi-
tecture and https://www.doczj.com/doc/e84718564.html,puter,16
(9):27–34,September1983.CODEN
CPTRB4.ISSN0018-9162.
Hinden:1983:DII [73]R.Hinden,J.Haverty,and A.Sheltzer.
The DARPA Internet:Interconnect-
ing heterogeneous computer networks
with https://www.doczj.com/doc/e84718564.html,puter,16(9):38–48,
September1983.CODEN CPTRB4.
ISSN0018-9162.papers box.
Thornton:1983:HNL [74]James E.Thornton and Gary S.
Christensen.Hyperchannel network
https://www.doczj.com/doc/e84718564.html,puter,16(9):50–54,Septem-
ber1983.CODEN CPTRB4.ISSN
0018-9162.
Redell:1983:IEM [75]David D.Redell and James E.White.
Interconnecting electronic mail sys-
https://www.doczj.com/doc/e84718564.html,puter,16(9):55–63,Septem-
ber1983.CODEN CPTRB4.ISSN
0018-9162.
Brachman:1983:WII [76]Ronald J.Brachman.What IS-A is and
isn’t:An analysis of taxonomic links
in semantic https://www.doczj.com/doc/e84718564.html,puter,16
(10):30–36,October1983.CODEN CP-
TRB4.ISSN0018-9162.
Schubert:1983:DTP [77]Lenhart K.Schubert,Mary Angela Pa-
palaskaris,and Jay Taugher.Determin-
ing type,part,color,and time relation-
https://www.doczj.com/doc/e84718564.html,puter,16(10):53–60,October
1983.CODEN CPTRB4.ISSN0018-
9162.Special Issue on Knowledge Rep-
resentation.
REFERENCES14
Brachman:1983:KAF [78]Ronald J.Brachman,Richard E.Fikes,
and Hector J.Levesque.KRYPTON:A
functional approach to knowledge repre-
https://www.doczj.com/doc/e84718564.html,puter,16(10):67–73,Oc-
tober1983.CODEN CPTRB4.ISSN
0018-9162.Special Issue on Knowledge
Representation.
Davis:1983:RSB [79]Randall Davis and Howard Shrobe.Rep-
resenting structure and behavior of dig-
ital https://www.doczj.com/doc/e84718564.html,puter,16(10):75–81,
October1983.CODEN CPTRB4.ISSN
0018-9162.
Mylopoulos:1983:BKS [80]John Mylopoulos,Tetsutaro Shiba-
hara,and John K.Tsotsos.Building
knowledge-based systems:The PSN ex-
https://www.doczj.com/doc/e84718564.html,puter,16(10):83–89,Oc-
tober1983.CODEN CPTRB4.ISSN
0018-9162.
Havens:1983:RKV [81]W.Havens and A.Mackworth.Repre-
senting knowledge of the visual world.
Computer,16(10):90–96,October1983.
CODEN CPTRB4.ISSN0018-9162.
Balzer:1983:STU [82]Robert Balzer,Thomas E.Cheatham,
Jr.,and Cordell Green.Software tech-
nology in the1990s:Using a new
https://www.doczj.com/doc/e84718564.html,puter,16(11):39–45,
November1983.CODEN CPTRB4.
ISSN0018-9162.
Gajski:1983:GEI [83]D.Gajski and R.Kuhn.Guest Editors’
introduction:New VLSI https://www.doczj.com/doc/e84718564.html,-
puter,16(12):11–14,December1983.
CODEN CPTRB4.ISSN0018-9162.
Lee:1984:BPS [84]J.K.F.Lee and A.J.Smith.Branch
prediction strategies and branch target
bu?er https://www.doczj.com/doc/e84718564.html,puter,17(1):6–22,
January1984.CODEN CPTRB4.ISSN
0018-9162.
Gligor:1984:IHD [85]V.D.Gligor and G.L.Luckenbaugh.
Interconnecting heterogeneous database
management https://www.doczj.com/doc/e84718564.html,puter,17
(1):33–43,January1984.CODEN CP-
TRB4.ISSN0018-9162.
Boari:1984:MPT [86]Maurelio Boari,Stefano Crespi-Reghizzi,
Alberto Dapra,Francesco Maderna,
and Antonio Natali.Multiple-
microprocessor programming tech-
niques:MML,a new set of https://www.doczj.com/doc/e84718564.html,-
puter,17(1):47–59,January1984.CO-
DEN CPTRB4.ISSN0018-9162.
Grinberg:1984:CVA [87]J.Grinberg,G.R.Nudd,and R. D.
Etchells.A cellular VLSI architecture.
Computer,17(1):69–81,January1984.
CODEN CPTRB4.ISSN0018-9162.
Weide:1984:PCI [88]B.W.Weide,M. E.Brown,J.Ra-
manathan,and K.Schwan.Process con-
trol:Integration and design method-
ology https://www.doczj.com/doc/e84718564.html,puter,17(2):27–
32,February1984.CODEN CPTRB4.
ISSN0018-9162.
Roussopoulos:1984:AMD [89]N.Roussopoulos and R.T.Yeh.An
adaptable methodology for database de-
https://www.doczj.com/doc/e84718564.html,puter,17(5):64–80,May1984.
CODEN CPTRB4.ISSN0018-9162.
REFERENCES15
Welch:1984:THP [90]Terry A.Welch.A technique for high
performance data https://www.doczj.com/doc/e84718564.html,-
puter,17(6):8–20,June1984.CODEN
CPTRB4.ISSN0018-9162.
Hsieh:1984:RSC [91]W.N.Hsieh and I.Gitman.Routing
strategies in computer https://www.doczj.com/doc/e84718564.html,-
puter,17(6):46–56,June1984.CODEN
CPTRB4.ISSN0018-9162.
MacDougall:1984:IPP [92]Myron MacDougall.Instruction-level
program and processor https://www.doczj.com/doc/e84718564.html,-
puter,17(7):14–24,July1984.CODEN
CPTRB4.ISSN0018-9162.
Snyder:1984:PPP [93]L.Snyder.Parallel programming and
the Poker programming environment.
Computer,17(7):27–36,July1984.CO-
DEN CPTRB4.ISSN0018-9162.
Keller:1984:SPR [94]R.M.Keller and F.C.H.Lin.Simulated
performance of a reduction-based multi-
https://www.doczj.com/doc/e84718564.html,puter,17(7):70–82,July
1984.CODEN CPTRB4.ISSN0018-
9162.
Sarrazin:1984:FSM [95]D.B.Sarrazin and M.Malek.Fault-
tolerant semiconductor https://www.doczj.com/doc/e84718564.html,-
puter,17(8):49–56,August1984.CO-
DEN CPTRB4.ISSN0018-9162.
Mittal:1984:PAK [96]S.Mittal, B.Chandrasekaran,and
J.Sticklen.Patrec:A knowledge-
directed database for a diagnostic ex-
pert https://www.doczj.com/doc/e84718564.html,puter,17(9):51–58,
September1984.CODEN CPTRB4.
ISSN0018-9162.
MacHover:1984:ICG [97]C.MacHover and W.Myers.Interactive
computer https://www.doczj.com/doc/e84718564.html,puter,17(10):
145–161,October1984.CODEN CP-
TRB4.ISSN0018-9162.
Brown:1984:AOS [98]R.L.Brown and P.J.Denning.Ad-
vanced operating https://www.doczj.com/doc/e84718564.html,puter,
17(10):173–190,October1984.CODEN
CPTRB4.ISSN0018-9162.
Fu:1984:PRC [99]K.S.Fu and A.Rosenfeld.Pattern
recognition and computer https://www.doczj.com/doc/e84718564.html,-
puter,17(10):274–282,October1984.
CODEN CPTRB4.ISSN0018-9162.
Glinert:1984:PIG [100]E.P.Glinert and S.L.Tanimoto.PICT: An interactive graphical programming
https://www.doczj.com/doc/e84718564.html,puter,17(11):7–25,
November1984.CODEN CPTRB4.
ISSN0018-9162.
Shemer:1984:GDC [101]J.Shemer and P.M.Neches.The gen-esis of a database https://www.doczj.com/doc/e84718564.html,puter,
17(11):42–??,November1984.CODEN
CPTRB4.ISSN0018-9162.
Laurent:1984:GAG [102]https://www.doczj.com/doc/e84718564.html,urent and S.Motet.GEOMATIC: A3-D graphic relief simulation sys-
https://www.doczj.com/doc/e84718564.html,puter,17(12):25–30,December
1984.CODEN CPTRB4.ISSN0018-
9162.
Yoshiura:1984:TCM [103]H.Yoshiura,K.Fujimura,and T.L.Ku-nii.Top-down construction of3-D me-
chanical object shapes from engineering
REFERENCES16
https://www.doczj.com/doc/e84718564.html,puter,17(12):32–40,De-
cember1984.CODEN CPTRB4.ISSN
0018-9162.
Woo:1984:ISM [104]T. C.Woo.Interfacing solid model-ing to CAD and CAM:Data struc-
tures and algorithms for decomposing
a https://www.doczj.com/doc/e84718564.html,puter,17(12):44–49,De-
cember1984.CODEN CPTRB4.ISSN
0018-9162.
Chu:1985:CKT [105]Y.Chu.Chinese/Kanji text and data https://www.doczj.com/doc/e84718564.html,puter,18(1):10–66,Jan-
uary1985.CODEN CPTRB4.ISSN
0018-9162.
Maruyama:1985:HV [106]F.Maruyama and M.Fujita.Hard-ware veri?https://www.doczj.com/doc/e84718564.html,puter,18(2):22–
32,February1985.CODEN CPTRB4.
ISSN0018-9162.U.S.Copyright Clear-
ance Center Code:0018-9162/85/0200-
0022$01.00.
Suzuki:1985:CPE [107]N.Suzuki.Concurrent PROLOG as an e?cient VLSI design https://www.doczj.com/doc/e84718564.html,-
puter,18(2):33–40,February1985.CO-
DEN CPTRB4.ISSN0018-9162.U.
S.Copyright Clearance Center Code:
0018-9162/85/0200-0033$01.00.
Lieberherr:1985:ZAL [108]K.J.Lieberherr and S.M.German.
Zeus:A language for expressing algo-
rithms in https://www.doczj.com/doc/e84718564.html,puter,18(2):
55–65,February1985.CODEN CP-
TRB4.ISSN0018-9162.Zeus.
Piloty:1985:CPC [109]R.Piloty and D.Borrione.The CON-LAN project:concepts,implementa-
tions and https://www.doczj.com/doc/e84718564.html,puter,18
(2):81–92,February1985.CODEN CP-
TRB4.ISSN0018-9162.
Shahdad:1985:VHD [110]M.Shahdad,R.Lipsett, F. E.
Marschner,K.Sheehan,H.Cohen,
R.Waxman,and D.Ackley.VHSIC
hardware description https://www.doczj.com/doc/e84718564.html,-
puter,18(2):94–103,February1985.
CODEN CPTRB4.ISSN0018-9162.
VHDL.
Berman:1985:CRT [111]S.Berman,P.Parikh,and C.S.G.Lee.
Computer recognition of two overlap-
ping parts using a single https://www.doczj.com/doc/e84718564.html,-
puter,18(3):70–80,March1985.CO-
DEN CPTRB4.ISSN0018-9162.
Anonymous:1985:NCA [112]Anonymous.New con?guration added, price cut,for https://www.doczj.com/doc/e84718564.html,puter,18
(5):122–??,May1985.CODEN CP-
TRB4.ISSN0018-9162.
Gajski:1985:EIM [113]Daniel D.Gajski and Jih-Kwon Peir.Es-sential issues in multiprocessor systems.
Computer,18(6):9–27,June1985.CO-
DEN CPTRB4.ISSN0018-9162.
Schneck:1985:PPP [114]P.B.Schneck,D.Austin,S.L.Squires, J.Lehmann,D.Mizell,and K.Wallgren.
Parallel processor programs in the Fed-
eral https://www.doczj.com/doc/e84718564.html,puter,18(6):43–
56,June1985.CODEN CPTRB4.ISSN
0018-9162.
Murakami:1985:RPM [115]K.Murakami,T.Kakuta,R.Onai,and N.Ito.Research on parallel machine ar-
chitecture for?fth-generation computer
REFERENCES17
https://www.doczj.com/doc/e84718564.html,puter,18(6):76–92,June
1985.CODEN CPTRB4.ISSN0018-
9162.Month June.
Wah:1985:MCS [116]Benjamin W.Wah,G.J.Li,and C.F.
Yu.Multiprocessing of combinatorial
search https://www.doczj.com/doc/e84718564.html,puter,18(6):93–
108,June1985.CODEN CPTRB4.
ISSN0018-9162.
Miller:1985:TRM [117]https://www.doczj.com/doc/e84718564.html,ler and M.W.Collins.Toward
a reference model of mass storage sys-
https://www.doczj.com/doc/e84718564.html,puter,18(7):9–22,July1985.
CODEN CPTRB4.ISSN0018-9162.
Ammon:1985:HLJ [118]G.Ammon,J.Calabria,and D.Thomas.
A high-speed,large-capacity,jukebox
optical disk https://www.doczj.com/doc/e84718564.html,puter,18(7):
36–46,July1985.CODEN CPTRB4.
ISSN0018-9162.
Raeder:1985:SCG [119]G.Raeder.A survey of current graphi-cal programming https://www.doczj.com/doc/e84718564.html,puter,
18(8):11–25,August1985.CODEN CP-
TRB4.ISSN0018-9162.
Brown:1985:PVG [120]G.P.Brown,R.T.Carling,C.F.Herot,
D. A.Kramlich,and P.Souza.Pro-
gram visualization:Graphical support
for software https://www.doczj.com/doc/e84718564.html,puter,18
(8):27–35,August1985.CODEN CP-
TRB4.ISSN0018-9162.
London:1985:APU [121]R.L.London and R.A.Duisberg.Ani-mating programs using https://www.doczj.com/doc/e84718564.html,-
puter,18(8):61–71,August1985.CO-
DEN CPTRB4.ISSN0018-9162.
Melamed:1985:VSP [122]B.Melamed and R.J.T.Morris.Vi-sual simulation:The performance analy-
sis https://www.doczj.com/doc/e84718564.html,puter,18(8):87–94,
August1985.CODEN CPTRB4.ISSN
0018-9162.
Colwell:1985:ISB [123]Robert P.Colwell,Charles Y.Hitchcock, III,E.Douglas Jensen,H.M.Brinkley
Sprunt,and Charles P.Kollar.Instruc-
tion sets and beyond:Computers,com-
plexity,and https://www.doczj.com/doc/e84718564.html,puter,18
(9):8–19,September1985.CODEN CP-
TRB4.ISSN0018-9162.
Coutaz:1985:AUI [124]Jo¨e lle Coutaz.Abstractions for user interface https://www.doczj.com/doc/e84718564.html,puter,18(9):21–
34,September1985.CODEN CPTRB4.
ISSN0018-9162.
Hartzband:1985:EKR [125]D.J.Hartzband and F.J.Maryanski.
Enhancing knowledge representation in
engineering https://www.doczj.com/doc/e84718564.html,puter,18(9):
39–??,September1985.CODEN CP-
TRB4.ISSN0018-9162.
Yankelovich:1985:RWE [126]Nicole Yankelovich,Norman Meyrowitz, and Andries van Dam.Reading and
writing the electronic https://www.doczj.com/doc/e84718564.html,puter,
18(10):15–30,October1985.CODEN
CPTRB4.ISSN0018-9162.
Sarin:1985:CRC [127]S.Sarin and https://www.doczj.com/doc/e84718564.html,puter-based real-time conferencing https://www.doczj.com/doc/e84718564.html,-
puter,18(10):33–45,October1985.CO-
DEN CPTRB4.ISSN0018-9162.
REFERENCES18
Horak:1985:ODA [128]Wolfgang Horak.O?ce Document Ar-chitecture and O?ce Document Inter-
change formats:Current status of inter-
national https://www.doczj.com/doc/e84718564.html,puter,18
(10):50–60,October1985.CODEN CP-
TRB4.ISSN0018-9162.
Bono:1985:SGS [129]Peter R.Bono.A survey of graphics standards and their role in information
https://www.doczj.com/doc/e84718564.html,puter,18(10):63–75,
October1985.CODEN CPTRB4.ISSN
0018-9162.
Reynolds:1985:DEM [130]J.K.Reynolds,J.B.Postel,A.R.Katz,
G.G.Finn,and A.L.DeSchon.The
DARPA experimental multimedia mail
https://www.doczj.com/doc/e84718564.html,puter,18(10):82–91,Oc-
tober1985.CODEN CPTRB4.ISSN
0018-9162.
Sakata:1985:DIM [131]S.Sakata and T.Ueda.A distributed in-tero?ce mail https://www.doczj.com/doc/e84718564.html,puter,18(10):
106–116,October1985.CODEN CP-
TRB4.ISSN0018-9162.
Carlson:1985:APD [132]W.W.Carlson and K.Hwang.Algo-rithmic performance of data?ow multi-
https://www.doczj.com/doc/e84718564.html,puter,18(12):30–40,De-
cember1985.CODEN CPTRB4.ISSN
0018-9162.
Yalamanchili:1985:RSP [133]S.Yalamanchili and J.K.Aggarwal.Re-con?guration strategies for parallel ar-
https://www.doczj.com/doc/e84718564.html,puter,18(12):44–61,
December1985.CODEN CPTRB4.
ISSN0018-9162.
Fisher:1985:SL V [134]A.L.Fisher and H.T.Kung.Syn-chronizing large VLSI processor ar-
https://www.doczj.com/doc/e84718564.html,puter,C-34(8):734–740,Au-
gust1985.CODEN CPTRB4.ISSN
0018-9162.
Navathe:1986:IUV [135]S.Navathe,R.Elmasri,and https://www.doczj.com/doc/e84718564.html,rson.
Integrating user views in database de-
https://www.doczj.com/doc/e84718564.html,puter,19(1):50–62,January
1986.CODEN CPTRB4.ISSN0018-
9162.
Goguen:1986:RIS [136]Joseph Goguen.Reusing and intercon-necting software https://www.doczj.com/doc/e84718564.html,-
puter,19(2):16–28,February1986.
CODEN CPTRB4.ISSN0018-
9162.Reprinted in Tutorial:Soft-
ware Reusability,Peter Freeman,ed-
itor,IEEE Computer Society,1987,
pages251–263,and in Domain Analysis
and Software Systems Modelling,Ruben
Prieto-Diaz and Guillermo Arango,ed-
itors,IEEE Computer Society,1991,
pages125–137.
Agrawal:1986:EPM [137]D.P.Agrawal,V.K.Janakiram,and
G.C.Pathak.Evaluating the perfor-
mance of multicomputer con?gurations.
Computer,19(5):23–37,May1986.CO-
DEN CPTRB4.ISSN0018-9162.
Fisher:1986:IDD [138]D.A.Fisher and R.M.Weatherly.Is-sues in the design of a distributed oper-
ating system for https://www.doczj.com/doc/e84718564.html,puter,19(5):
38–47,May1986.CODEN CPTRB4.
ISSN0018-9162.
REFERENCES19
Larson:1986:VAB [139]James https://www.doczj.com/doc/e84718564.html,rson.A visual approach to browsing in a database environment.
Computer,19(6):62–71,June1986.CO-
DEN CPTRB4.ISSN0018-9162.
Bruno:1986:RSS [140]G.Bruno, A.Elia,and https://www.doczj.com/doc/e84718564.html,face.A rule-based system to schedule produc-
https://www.doczj.com/doc/e84718564.html,puter,19(7):32–??,July1986.
CODEN CPTRB4.ISSN0018-9162.
Stroebel:1986:CPE [141]G.J.Stroebel,R.D.Baxter,and M.J.
Denney.A capacity planning expert sys-
tem for IBM System/https://www.doczj.com/doc/e84718564.html,puter,19
(7):42–??,July1986.CODEN CPTRB4.
ISSN0018-9162.
Talukdar:1986:TPS [142]S.N.Talukdar,E.Cardozo,and L.V.
Leao.Toast:The power system opera-
tor’s https://www.doczj.com/doc/e84718564.html,puter,19(7):53–??,
July1986.CODEN CPTRB4.ISSN
0018-9162.
Brown:1986:KCM [143]David C.Brown and B.Chan-drasekaran.Knowledge and control for a
mechanical design expert https://www.doczj.com/doc/e84718564.html,-
puter,19(7):92–100,July1986.CODEN
CPTRB4.ISSN0018-9162.
Mittal:1986:PES [144]S.Mittal,C.L.Dym,and M.Morjaria.
Pride:An expert system for the design
of paper handling https://www.doczj.com/doc/e84718564.html,puter,
19(7):102–??,July1986.CODEN CP-
TRB4.ISSN0018-9162.
Chien:1986:ESS [145]Y.-T.Chien and J.Liebowitz.Expert systems in the SDI https://www.doczj.com/doc/e84718564.html,-
puter,19(7):115–??,July1986.CODEN
CPTRB4.ISSN0018-9162.
Mundie:1986:PPA [146]D.A.Mundie and D.A.Fisher.Paral-lel processing in https://www.doczj.com/doc/e84718564.html,puter,19(8):
20–25,August1986.CODEN CPTRB4.
ISSN0018-9162.
Ahuja:1986:DPL [147]Sudhir Ahuja,Nicholas Carriero,and David Gelernter.Domesticating paral-
lelism:Linda and https://www.doczj.com/doc/e84718564.html,puter,19
(8):26–34,August1986.CODEN CP-
TRB4.ISSN0018-9162.
Halstead:1986:PSC [148]R.H.Halstead.Parallel symbolic https://www.doczj.com/doc/e84718564.html,puter,19(8):35–43,August
1986.CODEN CPTRB4.ISSN0018-
9162.
Hudak:1986:PP [149]P.R.Hudak.Para-functional https://www.doczj.com/doc/e84718564.html,puter,19(8):60–70,August
1986.CODEN CPTRB4.ISSN0018-
9162.
Snodgrass:1986:TD [150]R.T.Snodgrass and I.Ahn.Tempo-ral https://www.doczj.com/doc/e84718564.html,puter,19(9):35–42,
September1986.CODEN CPTRB4.
ISSN0018-9162.
Myers:1986:CEI [151]B. A.Myers.A complete and e?-cient implementation of covered win-
https://www.doczj.com/doc/e84718564.html,puter,19(9):57–67,Septem-
ber1986.CODEN CPTRB4.ISSN
0018-9162.
Roussopoulos:1986:PTD [152]N.Roussopoulos and H.Kang.Prin-ciples and techniques in the design of
REFERENCES20
https://www.doczj.com/doc/e84718564.html,puter,19(12):19–25,De-
cember1986.CODEN CPTRB4.ISSN
0018-9162.
Mark:1986:MM [153]L.Mark and N.Roussopoulos.Meta-data https://www.doczj.com/doc/e84718564.html,puter,19(12):
26–36,December1986.CODEN CP-
TRB4.ISSN0018-9162.
Wiederhold:1986:VOD [154]G.Wiederhold.Views,objects,and https://www.doczj.com/doc/e84718564.html,puter,19(12):37–44,De-
cember1986.CODEN CPTRB4.ISSN
0018-9162.
Christodoulakis:1986:DPC [155]S.Christodoulakis and C.Faloutsos.De-sign and performance considerations for
an optical disk-based,multimedia ob-
ject https://www.doczj.com/doc/e84718564.html,puter,19(12):45–56,De-
cember1986.CODEN CPTRB4.ISSN
0018-9162.
Moldovan:1986:PMA [156]D.I.Moldovan and J.A.B.Fortes.Par-titioning and mapping algorithms into
?xed-size systolic https://www.doczj.com/doc/e84718564.html,puter,C-
35(1):1–12,January1986.CODEN CP-
TRB4.ISSN0018-9162.
Hwang:1987:CAA [157]K.Hwang,J.Ghosh,and https://www.doczj.com/doc/e84718564.html,puter architectures for
arti?cial intelligence https://www.doczj.com/doc/e84718564.html,-
puter,20(1):19–27,January1987.CO-
DEN CPTRB4.ISSN0018-9162.
Ungar:1987:WPS [158]D.Ungar and D.Patterson.What price Smalltalk?Computer,20(1):67–74,Jan-
uary1987.CODEN CPTRB4.ISSN
0018-9162.
Fahlman:1987:CAA [159]S.E.Fahlman and Geo?rey E.Hinton.
Connectionist architectures for arti?cial
https://www.doczj.com/doc/e84718564.html,puter,20(1):100–109,
January1987.CODEN CPTRB4.ISSN
0018-9162.
Ketabchi:1987:MMC [160]M.A.Ketabchi and V.Berzins.Mod-eling and managing CAD databases.
Computer,20(2):93–102,February1987.
CODEN CPTRB4.ISSN0018-9162.
Berra:1987:CAS [161]P. B.Berra,Soon M.Chung,and Nabil https://www.doczj.com/doc/e84718564.html,puter architecture
for a surrogate?le to a very large data/
knowledge https://www.doczj.com/doc/e84718564.html,puter,20(3):25–32,
March1987.CODEN CPTRB4.ISSN
0018-9162.
Pleszkun:1987:ALM [162]A.R.Pleszkun and M.J.Thazhutha-veetil.The architecture of LISP ma-
https://www.doczj.com/doc/e84718564.html,puter,20(3):35–44,March
1987.CODEN CPTRB4.ISSN0018-
9162.
Dongarra:1986:HDM [163]J.Dongarra.How do the‘mini-supers’stack up?Computer,19
(3):93,100,March1986.CODEN
CPTRB4.ISSN0018-9162.URL
https://www.doczj.com/doc/e84718564.html,/utk/people/
JackDongarra/PAPERS/How-Do-the-
Minisupers-Stack-Up.pdf.
Brooks:1987:NSB [164]Frederick P.Brooks,Jr.No silver bul-let:essence and accidents of software en-
https://www.doczj.com/doc/e84718564.html,puter,20(4):10–19,April
1987.CODEN CPTRB4.ISSN0018-
9162.
绝密★启用前 2019年全国统一高考数学试卷(文科)(全国新课标Ⅰ) 一、选择题:本题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一 项是符合题目要求的。 1.设3i 12i z -=+,则z = A .2 B .3 C .2 D .1 2.已知集合{}{}{}1,2,3,4,5,6,72,3,4,52,3,6,7U A B ===,,,则U B A =I e A .{}1,6 B .{}1,7 C .{}6,7 D .{}1,6,7 3.已知0.20.3 2log 0.2,2,0.2a b c ===,则 A .a b c << B .a c b << C .c a b << D .b c a << 4.古希腊时期,人们认为最美人体的头顶至肚脐的长度与肚脐至足底的长度之比是 512 -( 51 2 -≈0.618,称为黄金分割比例),著名的“断臂维纳斯”便是如此.此外,最美人体的头顶至咽喉的长度与咽喉至肚脐的长度之比也是 51 -.若某人满足上述两个黄金分割比例,且腿长为105cm ,头顶至脖子下端的长度为26 cm ,则其身高可能是 A .165 cm B .175 cm C .185 cm D .190 cm 5.函数f (x )= 2 sin cos x x x x ++在[—π,π]的图像大致为
A . B . C . D . 6.某学校为了解1 000名新生的身体素质,将这些学生编号为1,2,…,1 000,从这些新生中用系统抽样方法等距抽取100名学生进行体质测验.若46号学生被抽到,则下面4名学生中被抽到的是 A.8号学生B.200号学生C.616号学生D.815号学生7.tan255°= A.-2-3B.-2+3C. 2-3D.2+3 8.已知非零向量a,b满足a=2b,且(a–b)⊥b,则a与b的夹角为 A.π 6 B. π 3 C. 2π 3 D. 5π 6 9.如图是求 1 1 2 1 2 2 + + 的程序框图,图中空白框中应填入 A.A= 1 2A + B.A= 1 2 A +C.A= 1 12A + D.A= 1 1 2A + 10.双曲线C: 22 22 1(0,0) x y a b a b -=>>的一条渐近线的倾斜角为130°,则C的离心率为
2016年普通高等学校招生全统一考试 文科数学 本试卷分第Ⅰ卷(选择题)和第Ⅱ卷(非选择题)两部分,共24题,共150分 第Ⅰ卷 一、选择题:本题共12小题,每小题5分,在每小题给出的四个选项中,只有一项是符合题目要求的。 (1) 已知集合{ }3,2,1=A ,{} 92 <=x x B ,则=B A (A ){}3,2,1,0,1,2-- (B ) {}2,1,0,1- (C ){}3,2,1 (D ){}2,1 (2) 设复数z 满足i i z -=+3,则=z (A )i 21+- (B )i 21- (C )i 23+ (D )i 23- (3) 函数)sin(?ω+=x A y 的部分图像如图所示,则 (A ))62sin(2π - =x y (B ))32sin(2π -=x y (C ))6 2sin(2π + =x y (D ))3 2sin(2π +=x y (4) 体积为8的正方体的顶点都在同一球面上,则该球面的表面积为 (A )π12 (B )π3 32 (C )π8 (D )π4 (5) 设F 为抛物线C :x y 42 =的焦点,曲线)0(>= k x k y 与C 交于点P ,x PF ⊥轴,则=k (A )21 (B )1 (C )2 3 (D )2 (6) 圆013822 2=+--+y x y x 的圆心到直线01=-+y ax 的距离为1,则=a (A )3 (B )4 3 - (C )3 (D )2 (7) 右图是由圆柱与圆锥组合而成的几何体的三视图,则该几何体的表 面积为 (A )20π (B )24π (C )28π (D )32π
2019年高考文科数学真题及答案全国卷I 第Ⅰ卷 一、选择题:本大题共12小题, 每小题5分, 在每小题给出的四个选项中, 只有一项是符合题目要求的. 1.(2019课标全国Ⅰ, 文2) 2 12i 1i +(-) =( ). A . 11i 2-- B .11+i 2- C .11+i 2 D .11i 2- 2.(2019课标全国Ⅰ, 文1)已知集合A ={1,2,3,4}, B ={x |x =n 2 , n ∈A }, 则A ∩B =( ). A .{1,4} B .{2,3} C .{9,16} D .{1,2} 3.(2019课标全国Ⅰ, 文3)从1,2,3,4中任取2个不同的数, 则取出的2个数之差的绝对值为2的概率是( ). A .12 B .13 C .14 D .16 4.(2019课标全国Ⅰ, 文4)已知双曲线C :22 22=1x y a b -(a >0, b >0)5 则 C 的渐近线方程为( ). A .y =14x ± B .y =13x ± C .y =1 2x ± D .y =±x 5.(2019课标全国Ⅰ, 文5)已知命题p :?x ∈R,2x <3x ;命题q :?x ∈R , x 3 =1-x 2 , 则下列命题中为真命题的是( ). A .p ∧q B .?p ∧q C .p ∧?q D .?p ∧?q 6.(2019课标全国Ⅰ, 文6)设首项为1, 公比为 2 3 的等比数列{a n }的前n 项和为S n , 则( ). A .Sn =2an -1 B .Sn =3an -2 C .Sn =4-3an D .Sn =3-2an 7.(2019课标全国Ⅰ, 文7)执行下面的程序框图, 如果输入的t ∈[-1,3], 则输出的s 属于( ). A .[-3,4] B .[-5,2] C .[-4,3] D .[-2,5] 8.(2019课标全国Ⅰ, 文8)O 为坐标原点, F 为抛物线C :y 2 =2x 的焦点, P 为C 上一点, 若|PF |=42 则△POF 的面积为( ). A .2 B .22.3.4 9.(2019课标全国Ⅰ, 文9)函数f (x )=(1-cos x )sin x 在[-π, π]的图像大致为( ).
2018年全国统一高考数学试卷(文科)(新课标Ⅲ) 一、选择题:本题共12小题,每小题5分,共60分。在每小题给出的四个选 项中,只有一项是符合题目要求的。 1.(5分)已知集合A={x|x﹣1≥0},B={0,1,2},则A∩B=()A.{0}B.{1}C.{1,2}D.{0,1,2} 2.(5分)(1+i)(2﹣i)=() A.﹣3﹣i B.﹣3+i C.3﹣i D.3+i 3.(5分)中国古建筑借助榫卯将木构件连接起来.构件的凸出部分叫榫头,凹进部分叫卯眼,图中木构件右边的小长方体是榫头.若如图摆放的木构件与某一带卯眼的木构件咬合成长方体,则咬合时带卯眼的木构件的俯视图可以是() A.B. C.D. 4.(5分)若sinα=,则cos2α=() A.B.C.﹣D.﹣ 5.(5分)若某群体中的成员只用现金支付的概率为0.45,既用现金支付也用非现金支付的概率为0.15,则不用现金支付的概率为() A.0.3B.0.4C.0.6D.0.7 6.(5分)函数f(x)=的最小正周期为() A.B.C.πD.2π
7.(5分)下列函数中,其图象与函数y=lnx的图象关于直线x=1对称的是()A.y=ln(1﹣x)B.y=ln(2﹣x)C.y=ln(1+x)D.y=ln(2+x) 8.(5分)直线x+y+2=0分别与x轴,y轴交于A,B两点,点P在圆(x﹣2)2+y2=2上,则△ABP面积的取值范围是() A.[2,6]B.[4,8]C.[,3]D.[2,3] 9.(5分)函数y=﹣x4+x2+2的图象大致为() A.B. C.D. 10.(5分)已知双曲线C:﹣=1(a>0,b>0)的离心率为,则点(4,0)到C的渐近线的距离为() A.B.2C.D.2 11.(5分)△ABC的内角A,B,C的对边分别为a,b,c.若△ABC的面积为,则C=() A.B.C.D. 12.(5分)设A,B,C,D是同一个半径为4的球的球面上四点,△ABC为等边三角形且面积为9,则三棱锥D﹣ABC体积的最大值为() A.12B.18C.24D.54
2016年全国高考新课标1卷文科数学试题 第Ⅰ卷 一、选择题,本大题共12小题,每小题5分,共60分.在每小题给出的四个选项中,只有 一项是符合题目要求的. 1.设集合A={1,3,5,7},B={x |2≤x ≤5},则A ∩B=( ) A .{1,3} B .{3,5} C .{5,7} D .{1,7} 2.设(1+2i )(a+i )的实部与虚部相等,其中a 为实数,则a=( ) A .-3 B .-2 C .2 D . 3 3.为美化环境,从红、黄、白、紫4种颜色的花中任选2种花种在一个花坛中,余下的2 种花种在另一个花坛中,则红色和紫色的花不在同一花坛的概率是( ) A . 13 B .12 C .23 D .56 4.ΔABC 的内角A ,B ,C 的对边分别为a ,b ,c . 已知2 2,cos 3 a c A === , 则b=( ) A . B C .2 D .3 5.直线l 经过椭圆的一个顶点和一个焦点,若椭圆中心到l 的距离为其短轴长的 1 4 ,则该椭圆的离心率为( ) A .13 B .12 C .23 D .34 6.若将函数y =2sin (2x +6 π )的图像向右平移14个周期后,所得图像对应的函数为 ( ) A .y =2sin(2x + 4π) B .y =2sin(2x +3π) C .y =2sin(2x –4π) D .y =2sin(2x –3 π ) 7.如图,某几何体的三视图是三个半径相等的圆及每个 圆中两条相互垂直的半径.若该几何体的体积是 283 π , 则它的表面积是( ) A .17π B .18π C .20π D .28π 8.若a >b >0,0
考试时间:____分钟 题型单选题填空题简答题总分 得分 1.已知集合A={0,2},B={ -2,-1,0,1,2},则A∩B= A. {0,2} B. {1,2} C. {0} D. {-2,-1,0,1,2} 2,设z=,则∣z∣= A. 0 B. C. 1 D. 3.某地区经过一年的新农村建设,农村的经济收入增加了一倍,实现翻番,为更好地了解该地区农村的经济收入变化情况,统计了该地区新农村建设前后农村的经济收入构成比例,得到如下饼图:
则下面结论中不正确的是 A. 新农村建设后,种植收入减少 B. 新农村建设后,其他收入增加了一倍以上 C. 新农村建设后,养殖收入增加了一倍 D. 新农村建设后,养殖收入与第三产业收入的总和超过了经济收入的一半 4.已知椭圆C:+=1的一个焦点为(2,0),则C的离心率为 A. B. C. D. 5.已知椭圆的上、下底面的中心分别为O?,O?,过直线的平面截该圆柱所得的截面是面积为8的正方形,则该圆柱的表面积为 A. 12π B. 12π C. 8π D. 10π 6.设函数f(x)=x 3+(a-1)x 2+ax。若f(x)为奇函数,则曲线y= f(x)在点(0,0)处的切线方程为 A. y=-2x B. y=-x
C. y=2x D. y=x 7.在?ABC中,AD为BC边上的中线,E为AD的中点,则= A. - B. - C. + D. + 8.已知函数f(x)=2cos 2x-sin 2x+2,则 A. f(x)的最小正周期为π,最大值为3 B. 不f(x)的最小正周期为π,最大值为4 C. f(x)的最小正周期为2π,最大值为3 D. D. f(x)的最小正周期为2π,最大值为4 9.某圆柱的高为2,底面周长为16,其三视图如右图。圆柱表面上的点M在正视图上的对应点为A,圆柱表面上的点N在左视图上的对应点为B,则在此圆柱侧面上,从M到N的路径中,最短路径的长度为 A. B. C. 3
2017年普通高等学校招生全国统一考试(I 卷) 文科数学 一、选择题:本题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是符 合题目要求的。 1. 已知集合}023|{}2|{>-=<=x x B x x A ,,则 A. }23 |{<=x x B A I B. ?=B A I C. }2 3 |{<=x x B A Y D. R =B A Y 2. 为评估一种农作物的种植效果,选了n 块地作试验田。这n 块地的亩产量(单位:kg )分别为x 1,x 2,…,x n , 下面给出的指标中可以用来评估这种农作物亩产量稳定程度的是 A. x 1,x 2,…,x n 的平均数 B. x 1,x 2,…,x n 的标准差 C. x 1,x 2,…,x n 的最大值 D. x 1,x 2,…,x n 的中位数 3. 下列各式的运算结果为纯虚数的是 A. i(1 + i)2 B. i 2(1 - i) C. (1 + i)2 D. i(1 + i) 4. 如图,正方形ABCD 内的图形来自中国古代的太极图。正方形内切圆中的黑色部分 和白色部分关于正方形的中心成中心对称。在正方形内随机取一点,则此点取自黑 色部分的概率是 A. 41 B. 8π C. 2 1 D. 4 π 5. 已知F 是双曲线C :13 2 2 =-y x 的右焦点,P 是C 上一点,且PF 与x 轴垂直,点A 的坐标是(1,3),则△APF 的面积为 A. 3 1 B. 2 1 C. 3 2 D. 2 3 6. 如图,在下列四个正方体中,A 、B 为正方体的两个顶点,M 、N 、Q 为所在棱的中点,则在这四个正方体中, 直线AB 与平面MNQ 不平行的是 A. B. C. D. 2017.6
2007年普通高等学校招生全国统一考试试题卷(全国 卷Ⅱ) 文科数学(必修+选修Ⅰ) 注意事项: 1. 本试题卷分第Ⅰ卷(选择题)和第Ⅱ卷(非选择题)两部分,共4页,总分150分, 考试时间120分钟. 2. 答题前,考生须将自己的姓名、准考证号、考场号、座位号填写在本试题卷指定的 位置上. 3. 选择题的每小题选出答案后,用2B 铅笔将答题卡上对应题目的答案标号涂黑,如 需改动,用橡皮擦干净后,再选涂其他答案,不能答在试题卷上. 4. 非选择题必须使用0.5毫米的黑色字迹的签字笔在答题卡上书写,字体工整,笔迹 清楚 5. 非选择题必须按照题号顺序在答题卡上各题目的答题区域内作答.超出答题区域或 在其它题的答题区域内书写的答案无效;在草稿纸、本试题卷上答题无效. 6. 考试结束,将本试题卷和答题卡一并交回. 第Ⅰ卷(选择题) 本卷共12小题,每小题5分,共60分.在每小题给出的四个选项中,只有一项是符合题目要求的. 参考公式: 如果事件A B ,互斥,那么 球的表面积公式 ()()()P A B P A P B +=+ 2 4πS R = 如果事件A B ,相互独立,那么 其中R 表示球的半径 ()()()P A B P A P B = 球的体积公式 如果事件A 在一次试验中发生的概率是p ,那么 3 4π3 V R = n 次独立重复试验中事件A 恰好发生k 次的概率 其中R 表示球的半径 ()(1)(012)k k n k n n P k C p p k n -=-=,,,…, 一、选择题 1.cos330=( ) A . 12 B .12 - C D .2.设集合{1 234}{12}{24}U A B ===,,,,,,,,则()U A B =e( ) A .{2} B .{3} C .{124},, D .{1 4},
1998年普通高等学校招生全国统一考试 数学(文史类) 本试卷分第Ⅰ卷(选择题)和第Ⅱ卷(非选择题)两部分,满分150分,考试120分钟. 第Ⅰ卷(选择题共65分) 一.选择题:本大题共15小题;第(1)-(10)题每小题4分,第(11)-第(15)题每小题5分,65分.在每小题给出四项选项,只一项符合题目要求的 (1) sin600o( ) (A) (B) -(C) (D) - (2) 函数y=a|x|(a>1)的图像是( ) (3) 已知直线x=a(a>0)和圆(x-1)2+y2=4相切,那么a的值是( ) (A) 5 (B) 4 (C) 3 (D) 2 (4) 两条直线A1x+B1y+C1=0,A2x+B2y+C2=0垂直的充要条件是( ) (A) A1A2+B1B2=0 (B) A1A2-B1B2=0 (C) (D) (5) 函数f(x)=( x≠0)的反函数f-1(x)= ( ) (A) x(x≠0) (B) (x≠0) (C) -x(x≠0) (D) -(x≠0) (6) 已知点P(sinα-cosα,tgα)在第一象限,则[ 0,2π]内α的取值范围是( ) (A) ()∪() (B) ()∪() (C) ()∪() (D) ()∪() (7) 已知圆锥的全面积是底面积的3倍,那么该圆锥的侧面积展开图扇形的圆心角为 ( )
(A) 120o(B) 150o(C) 180o(D) 240o (8) 复数-i的一个立方根是i,它的另外两个立方根是( ) (A)I (B) -I (C) ±I (D) ±i (9) 如果棱台的两底面积是S,S′,中截面的面积是S0,那么( ) (A) 2(B) S0= (C) 2S0=S+S′(D) (10) 2名医生和4名护士被分配到2所学校为学生体检,每校分配1名医生和2名护士.不同的分配方法共( ) (A) 6种(B) 12种(C) 18种(D) 24种 (11) 向高为H的水瓶中注水,注满为止,如果注水量V与水深h的函数关系的图像如右图所示,那么水瓶的形状是( ) (12) 椭圆=1的焦点为F1,点P在椭圆上,如果线段PF1的中点M在y轴上,那么点M的纵坐标是( ) (A) ±(B) ±(C) ±(D) ± (13) 球面上有3个点,其中任意两点的球面距离都等于大圆周长为,经过这3个点的小圆的周长为4π,那么这个球的半径为( ) (A) 4(B)2(C) 2 (D) (14) 一个直角三角形三内角的正弦值成等比数列,其最小内角的正弦值为( ) (A) (B) (C) (D)
2017年普通高等学校招生全国统一模拟考试 文科数学 考场:___________座位号:___________ 本试卷分第I 卷(选择题)和第II 卷(非选择题)两部分。满分150分,考试时间120分 钟. 第I 卷(选择题共60分) 选择题:本大题共12小题,每小题5分,共60分.在每小题给出的四个选项中,只有一项是符合题目要求的。 (1)设集合A={4,5,7,9},B={3,4,7,8,9},全集U A B =,则集合 () U A B 中的元素共有( ) (A) 3个 (B ) 4个 (C )5个 (D )6个 (2)(2) 复数 3223i i +=-( ) (A )1 (B )1- (C )i (D)i - (3)已知()()3,2,1,0a b =-=-,向量a b λ+与2a b -垂直,则实数λ的值为( ) (A )17- (B )17 (C )1 6 - (D )16 (4)已知tan a =4,cot β=1 3 ,则tan(a+β)=( ) (A)711 (B)711- (C) 713 (D) 713 - (5)已知双曲线)0(13 2 22>=- a y a x 的离心率为2,则=a ( ) A. 2 B. 26 C. 2 5 D. 1 (6)已知函数()f x 的反函数为()()10g x x =+2lgx >,则=+)1()1(g f ( ) (A )0 (B )1 (C )2 (D )4
(7)在函数①|2|cos x y =,②|cos |x y = ,③)62cos(π + =x y ,④)4 2tan(π -=x y 中,最小正周期为π的所有函数为( ) A.①②③ B. ①③④ C. ②④ D. ①③ (8)如图,网格纸的各小格都是正方形,粗实线画出的事一个几何体的三视图,则这个几 何体是( ) A.三棱锥 B.三棱柱 C.四棱锥 D.四棱柱 (9)若0tan >α,则( ) A. 0sin >α B. 0cos >α C. 02sin >α D. 02cos >α (10) 如果函数3cos(2)y x φ=+的图像关于点4(,0)3 π 中心对称,那么φ的最小值为( ) (A) 6π (B) 4π (C) 3π (D) 2 π (11)设,x y 满足24, 1,22,x y x y x y +≥?? -≥??-≤? 则z x y =+ ( ) (A )有最小值2,最大值3 (B )有最小值2,无最大值 (C )有最大值3,无最小值 (D )既无最小值,也无最大值 (12)已知椭圆2 2:12 x C y +=的右焦点为F,右准线l ,点A l ∈,线段AF 交C 于点B 。若3FA FB =,则AF =( ) (A) (B) 2 (C) (D) 3 第Ⅱ卷(非选择题 共90分)
2017年全国统一高考数学试卷(文科)(新课标Ⅰ) 一、选择题:本大题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是符合题目要求的。 1.(5分)已知集合A={x|x<2},B={x|3﹣2x>0},则() A.A∩B={x|x<}B.A∩B=?C.A∪B={x|x<}D.A∪B=R 2.(5分)为评估一种农作物的种植效果,选了n块地作试验田.这n块地的亩产量(单位:kg)分别是x1,x2,…,x n,下面给出的指标中可以用来评估这种农作物亩产量稳定程度的是() A.x1,x2,…,x n的平均数B.x1,x2,…,x n的标准差 C.x1,x2,…,x n的最大值D.x1,x2,…,x n的中位数 3.(5分)下列各式的运算结果为纯虚数的是() A.i(1+i)2B.i2(1﹣i)C.(1+i)2D.i(1+i) 4.(5分)如图,正方形ABCD内的图形来自中国古代的太极图.正方形内切圆中的黑色部分和白色部分关于正方形的中心成中心对称.在正方形内随机取一点,则此点取自黑色部分的概率是() A.B.C.D. 5.(5分)已知F是双曲线C:x2﹣=1的右焦点,P是C上一点,且PF与x 轴垂直,点A的坐标是(1,3),则△APF的面积为() A.B.C.D. 6.(5分)如图,在下列四个正方体中,A,B为正方体的两个顶点,M,N,Q 为所在棱的中点,则在这四个正方体中,直线AB与平面MNQ不平行的是()
A.B.C. D. 7.(5分)设x,y满足约束条件,则z=x+y的最大值为() A.0 B.1 C.2 D.3 8.(5分)函数y=的部分图象大致为() A.B. C.D. 9.(5分)已知函数f(x)=lnx+ln(2﹣x),则() A.f(x)在(0,2)单调递增 B.f(x)在(0,2)单调递减 C.y=f(x)的图象关于直线x=1对称 D.y=f(x)的图象关于点(1,0)对称 10.(5分)如图程序框图是为了求出满足3n﹣2n>1000的最小偶数n,那么在
2017 年普通高等学校招生全国统一考试(III 卷) 文科数学 一、选择题:本题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是符 合题目要求的。 1. 已知集合}8,6,4,2{}4,3,2,1{==B A ,,则A ∩B 中元素的个数为 A. 1 B. 2 C. 3 D. 4 2. 复平面内表示复数z = i(-2 + i)的点位于 A. 第一象限 B. 第二象限 C. 第三象限 D. 第四象限 3. 某城市为了解游客人数的变化规律,提高旅游服务质量,收集并整理了2014年1月至2016年12月期间月接待 游客量(单位:万人)的数据,绘制了下面的折线图。 根据该折线图,下列结论错误的是 A. 月接待游客量逐月增加 B. 年接待游客量逐年增加 C. 各年的月接待游客量高峰期大致在7、8月 D. 各年1月至6月的月接待游客量相对于7月至12月,波动性更小,变化比较平稳 4. 已知== -ααα2sin 3 4 cos sin ,则 A. 9 7- B. 9 2 - C. 9 2 D. 9 7 5. 设x 、y 满足约束条件?? ? ??≥≥≤-+,0,0,0623y x y x 则z = x - y 的取值范围是 A. [-3,0] B. [-3,2] C. [0,2] D. [0,3] 6. 函数)6 cos()3sin(51)(π π-++= x x x f 的最大值为 A. 56 B. 1 C. 5 3 D. 5 1 2017.6
7. 函数2sin 1x x x y + +=的部分图象大致为 A. B. C. D. 8. 执行右面的程序框图,为使输出S 的值小于91,则输入的正整数N 的最小值为 A. 5 B. 4 C. 3 D. 2 9. 已知圆柱的高为1,它的两个底面的圆周在直径为2的同一个球的球面上,则 该圆柱的体积为 A. π B. 43π C. 2 π D. 4 π 10. 在正方体ABCD -A 1B 1C 1D 1中,E 为棱CD 的中点,则 A. A 1E ⊥DC 1 B. A 1E ⊥BD C. A 1E ⊥BC 1 D. A 1E ⊥AC 11. 已知椭圆C :)0(122 22>>=+b a b y a x 的左、右顶点分别为A 1、A 2,且以线段A 1A 2为直径的圆与直线 02=+-ab ay bx 相切,则C 的离心率为 A. 3 6 B. 3 3 C. 3 2 D. 3 1 12. 已知函数)e e (2)(11 2 +--++-=x x a x x x f 有唯一零点,则a = A. 21- B. 31 C. 2 1 D. 1 二、填空题:本题共4小题,每小题5分,共20分。 13. 已知向量a = (-2,3),b = (3,m ),且a ⊥b ,则m =__________。 14. 双曲线)0(19222>=- a y a x 的一条渐近线方程为x y 5 3 =,则a =___________。 15. △ABC 的内角A 、B 、C 的对边分别为a 、b 、c ,已知C = 60°,b =3,c = 3,则A =__________。 16. 设函数?? ?>≤+=, 0,2, 0,1)(x x x x f x 则满足1)2 1()(>-+x f x f 的x 的取值范围是_______________。 三、解答题:共70分。解答应写出文字说明、证明过程或演算步骤。第17~21题为必考题,每个试 题考生都必须作答。第22、23题为选考题,考生根据要求作答。 (一)必考题:共60分。
年普通高等学校招生全国统一考试 文科数学 一、选择题:本大题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是 符合题目要求的。 1.已知集合A={1,2,3,4},B={2,4,6,8},则A ?B 中元素的个数为 A .1 B .2 C .3 D .4 2.复平面内表示复数z=i(–2+i)的点位于 A .第一象限 B .第二象限 C .第三象限 D .第四象限 3.某城市为了解游客人数的变化规律,提高旅游服务质量,收集并整理了2014年1月至2016年12月期间月接待游客量(单位:万人)的数据,绘制了下面的折线图. 根据该折线图,下列结论错误的是 # A .月接待游客逐月增加 B .年接待游客量逐年增加 C .各年的月接待游客量高峰期大致在7,8月 D .各年1月至6月的月接待游客量相对于7月至12月,波动性更小,变化比较平稳 4.已知4 sin cos 3 αα-= ,则sin 2α= A .79 - B .29 - C . 29 D . 79 5.设x ,y 满足约束条件32600 0x y x y +-≤?? ≥??≥? ,则z =x -y 的取值范围是 A .–3,0] B .–3,2] C .0,2] D .0,3] 6.函数f (x )= sin(x + 3π)+cos(x ?6 π )的最大值为
A . 65 B .1 C . D . # 7.函数y =1+x + 2sin x x 的部分图像大致为 A . B . C . D . 8.执行下面的程序框图,为使输出S 的值小于91,则输入的正整数N 的最小值为 A .5 B .4 C .3 D .2 9.已知圆柱的高为1,它的两个底面的圆周在直径为2的同一个球的球面上,则该圆柱的体积为 A .π B . 3π4 C . π2 D . π4 10.在正方体1111ABCD A B C D -中,E 为棱CD 的中点,则 A .11A E DC ⊥ B .1A E BD ⊥ C .11A E BC ⊥ D .1A E AC ⊥ 11.已知椭圆C :22 221x y a b +=,(a >b >0)的左、右顶点分别为A 1,A 2,且以线段A 1A 2为直径的圆与 直线20bx ay ab -+=相切,则C 的离心率为 ) A . 6 B . 3 C . 23 D . 13 12.已知函数2 1 1()2()x x f x x x a e e --+=-++有唯一零点,则a = A .12 - B .13 C . 12 D .1 二、填空题:本题共4小题,每小题5分,共20分。
2017年普通高等学校招生全国统一考试1卷 文科数学 一、选择题:本大题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是符合题目要求的。 1.已知集合A ={}|2x x <,B ={}|320x x ->,则 A .A B =3|2x x ? ??? ? B .A B =? C .A B 3|2x x ??=< ???? D .A B=R 2.为评估一种农作物的种植效果,选了n 块地作试验田.这n 块地的亩产量(单位:kg )分别为x 1,x 2,…,x n ,下面给出的指标中可以用来评估这种农作物亩产量稳定程度的是 A .x 1,x 2,…,x n 的平均数 B .x 1,x 2,…,x n 的标准差 C .x 1,x 2,…,x n 的最大值 D .x 1,x 2,…,x n 的中位数 3.下列各式的运算结果为纯虚数的是 A .i(1+i)2 B .i 2(1-i) C .(1+i)2 D .i(1+i) 4.如图,正方形ABCD 内的图形来自中国古代的太极图.正方形内切圆中的黑色部分和白色部分关于正方形的中心成中心对称.在正方形内随机取一点,则此点取自黑色部分的概率是( ) A . 14 B . π8 C .12 D .π 4 5.已知F 是双曲线C :x 2 -2 3 y =1的右焦点,P 是C 上一点,且PF 与x 轴垂直,点A 的坐标是(1,3).则△APF 的面积为( ) A .13 B .1 2 C .2 3 D .3 2 6.如图,在下列四个正方体中,A ,B 为正方体的两个顶点,M ,N ,Q 为所在棱的中点,则在这四个正方体中,直接AB 与平面MNQ 不平行的是 7.设x ,y 满足约束条件33,1,0,x y x y y +≤?? -≥??≥? 则z =x +y 的最大值为 A .0 B .1 C .2 D .3 8..函数sin21cos x y x =-的部分图像大致为( )
2017年普通高等学校招生全国统一考试 文科数学 注意事项: 1.答题前,考生务必将自己的姓名、准考证号填写在答题卡上。 2.回答选择题时,选出每小题答案后,用铅笔把答题卡上对应题目的答案标号涂黑。如需 改动,用橡皮擦干净后,再选涂其他答案标号。回答非选择题时,将答案写在答题卡上。写在本试卷上无效。 3.考试结束后,将本试卷和答题卡一并交回。 一、选择题:本大题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有 一项是符合题目要求的。 1.已知集合A={1,2,3,4},B={2,4,6,8},则A B I 中元素的个数为 A .1 B .2 C .3 D .4 2.复平面内表示复数(2)z i i =-+的点位于 A .第一象限 B .第二象限 C .第三象限 D .第四象限 3.某城市为了解游客人数的变化规律,提高旅游服务质量,收集并整理了2014年1月至 2016年12月期间月接待游客量(单位:万人)的数据,绘制了下面的折线图. 根据该折线图,下列结论错误的是 A .月接待游客逐月增加 B .年接待游客量逐年增加 C .各年的月接待游客量高峰期大致在7,8月 D .各年1月至6月的月接待游客量相对于7月至12月,波动性更小,变化比较平稳 4.已知4 sin cos 3 αα-= ,则sin 2α=
A .79 - B .29 - C . 29 D . 79 5.设,x y 满足约束条件326000x y x y +-≤?? ≥??≥? ,则z x y =-的取值范围是 A .[-3,0] B .[-3,2] C .[0,2] D .[0,3] 6.函数1()sin()cos()536 f x x x ππ = ++-的最大值为 A .65 B .1 C .35 D . 15 7.函数2sin 1x y x x =++的部分图像大致为 A . B . C . D . 8.执行右面的程序框图,为使输出S 的值小于91,则输入的正 整数N 的最小值为 A .5 B .4 C .3 D .2 9.已知圆柱的高为1,它的两个底面的圆周在直径为2的同一个 球的球面上,则该圆柱的体积为 A .π B . 34π C . 2 π D .4 π
2017年普通高等学校招生全国统一考试 文科数学 注意事项: 1.答题前,考生务必将自己的姓名、准考证号填写在答题卡上。 2.回答选择题时,选出每小题答案后,用铅笔把答题卡上对应题目的答案标号涂黑。如需改动,用橡皮擦干净后,再选涂其他答案标号。回答非选择题时,将答案写在答题卡上。写在本试卷上无效。 3.考试结束后,将本试卷和答题卡一并交回。 一、选择题:本大题共12小题,每小题5分,共60分。在每小题给出的四个选项中,只有一项是符合题目要求的。 1.已知集合A={1,2,3,4},B={2,4,6,8},则A B 中元素的个数为 A .1 B .2 C .3 D .4 2.复平面内表示复数(2)z i i =-+的点位于 A .第一象限 B .第二象限 C .第三象限 D .第四象限 3.某城市为了解游客人数的变化规律,提高旅游服务质量,收集并整理了2014年1月至2016年12月期间月接待游客量(单位:万人)的数据,绘制了下面的折线图. 根据该折线图,下列结论错误的是 A .月接待游客逐月增加 B .年接待游客量逐年增加 C .各年的月接待游客量高峰期大致在7,8月 D .各年1月至6月的月接待游客量相对于7月至12月,波动性更小,变化比较平稳
4.已知4 sin cos 3 αα-= ,则sin 2α= A .79 - B .29 - C . 29 D . 79 5.设,x y 满足约束条件326000x y x y +-≤?? ≥??≥? ,则z x y =-的取值范围是 A .[-3,0] B .[-3,2] C .[0,2] D .[0,3] 6.函数1()sin()cos()536 f x x x ππ = ++-的最大值为 A .65 B .1 C .35 D . 15 7.函数2sin 1x y x x =++的部分图像大致为 A . B . C . D . 8.执行右面的程序框图,为使输出S 的值小于91,则输入的正整数N 的最小值为 A .5 B .4 C .3 D .2 9.已知圆柱的高为1,它的两个底面的圆周在直径为2的同一个球的球面上,则该圆柱的体积为
2018年普通高等学校招生全国统一考试 文科数学 注意事项: 1.答卷前,考生务必将自己的姓名、考生号等填写在答题卡和试卷指定位置上. 2.回答选择题时,选出每小题答案后,用铅笔把答题卡上对应题目的答案标号涂黑.如需改动,用橡皮擦干净后,再选涂其它答案标号.回答非选择题时,将答案写在答题卡上,写在本试卷上无效.3.考试结束后,将本试卷和答题卡一并交回. 一、选择题(本题共12小题,每小题5分,共60分.在每小题给出的四个选项中,只有一项是符合题目要求的.) 1.已知集合{} 02 A=,,{} 21012 B=-- ,,,,,则A B=() A.{} 02 ,B.{} 12 ,C.{}0D.{} 21012 -- ,,,, 2.设 1 2 1 i z i i - =+ + ,则z=() A.0 B.1 2 C.1D 3.某地区经过一年的新农村建设,农村的经济收入增加了一倍.实现翻番.为更好地了解该地区农村的经济收入变化情况,统计了该地区新农村建设前后农村的经济收入构成比例.得到如下饼图: 则下面结论中不正确的是() A.新农村建设后,种植收入减少 B.新农村建设后,其他收入增加了一倍以上 C.新农村建设后,养殖收入增加了一倍 D.新农村建设后,养殖收入与第三产业收入的总和超过了经济收入的一半 4.已知椭圆C: 22 2 1 4 x y a +=的一个焦点为() 2,0,则C的离心率() A.1 3 B. 1 2 C D
5.已知圆柱的上、下底面的中心分别为1O ,2O ,过直线12O O 的平面截该圆柱所得的截面是面积为8的正方形,则该圆柱的表面积为( ) A . B .12π C . D .10π 6.设函数()()321f x x a x ax =+-+.若()f x 为奇函数,则曲线()y f x =在点()00,处的切线方程为( ) A .2y x =- B .y x =- C .2y x = D .y x = 7.在ABC △中,AD 为BC 边上的中线,E 为AD 的中点,则EB =( ) A .31 44AB AC - B .13 44AB AC - C .31 44 AB AC + D . 13 44 AB AC + 8.已知函数()2 2 2cos sin 2f x x x =-+,则( ) A .()f x 的最小正周期为π,最大值为3 B .()f x 的最小正周期为π,最大值为4 C .()f x 的最小正周期为2π,最大值为3 D .()f x 的最小正周期为2π,最大值为4 9.某圆柱的高为2,底面周长为16,其三视图如图所示,圆柱表面上的点M 在正视图上的对应点为A ,圆柱表面上的点N 在左视图上的对应点为B ,则在此圆柱侧面上,从M 到N 的路径中,最短路径的长度为( ) A . B . C .3 D .2 10.在长方体1111ABCD A BC D -中, 2AB BC ==,1AC 与平面11BB C C 所成的角为30?,则该长方体的体积为( ) A .8 B . C . D .
普通高等学校招生全国统一考试(文科数学) 一、选择题:1.已知集合A ={}|2x x <,B ={}|320x x ->,则 A .A I B =3|2x x ? ??? ? B .A I B =? C .A U B 3|2x x ? ?=?? ? D .A U B=R 2.为评估一种农作物的种植效果,选了n 块地作试验田.这n 块地的亩产量(单位:kg )分别为x 1,x 2,…,x n ,下面给出的指标中可以用来评估这种农作物亩产量稳定程度的是 A .x 1,x 2,…,x n 的平均数 B .x 1,x 2,…,x n 的标准差 C .x 1,x 2,…,x n 的最大值 D .x 1,x 2,…,x n 的中位数 3.下列各式的运算结果为纯虚数的是 A .i(1+i)2 B .i 2(1-i) C .(1+i)2 D .i(1+i) 4.如图,正方形ABCD 内的图形来自中国古代的太极图.正方形内切圆中的黑色部分和白色部分关于正方形的中心成中心对称.在正方形内 随机取一点,则此点取自黑色部分的概率是 A .1 4 B . π8 C . 12 D .π 4 5.已知F 是双曲线C :x 2 -2 3y =1的右焦点,P 是C 上一点,且PF 与x 轴垂直,点A 的坐标是(1,3).则△APF 的面积为 A .13 B .1 2 C .2 3 D .3 2 6.如图,在下列四个正方体中,A ,B 为正方体的两个顶点,M ,N ,Q 为所在棱的中点,则在这四个正方体中,直接AB 与平面MNQ 不平行的是
7.设x ,y 满足约束条件33,1,0,x y x y y +≤?? -≥??≥? 则z =x +y 的最大值为 A .0 B .1 C .2 D .3 8..函数sin2 1cos x y x = -的部分图像大致为 9.已知函数()ln ln(2)f x x x =+-,则 A .()f x 在(0,2)单调递增 B .()f x 在(0,2)单调递减 C .y =()f x 的图像关于直线x =1对称 D .y =()f x 的图像关于点(1,0)对称 10.如图是为了求出满足321000 n n ->的最小偶数n ,那么在 和 两个空白框中,可以分别填入 A .A >1000和n =n +1 B .A >1000和n =n +2 C .A ≤1000和n =n +1 D .A ≤1000和n =n +2 11.△ABC 的内角A 、B 、C 的对边分别为a 、b 、c 。已知sin sin (sin cos )0B A C C +-=,a =2,c 2,