Abstract is missing.
- Fujitsu VP2000 seriesNobuo Uchida, M. Hirai, M. Yoshida, K. Hotta. 4-11 [doi]
- The CRAY Y-MP: a user's viewpointK. G. Stevens Jr., Ron Sykora. 12-15 [doi]
- The ES-1: a supercomputing architecture for the 1990sDonald R. Oestreicher. 16-18 [doi]
- The MasPar MP-1 architectureTom Blank. 20-24 [doi]
- The design of the MasPar MP-1: a cost effective massively parallel computerJohn R. Nickolls. 25-28 [doi]
- Software to support massively parallel computing on the MasPar MP-1Peter Christy. 29-33 [doi]
- Designing a VAX for high performanceTryggve Fossum, David B. Fite. 36-43 [doi]
- Micro-architecture of the VAX 9000John E. Murray, Ronald M. Salett, Ricky C. Hetherington, Francis X. McKeen. 44-53 [doi]
- VAX 9000 packaging-the multi chip unitDonald E. Marshall, James B. McElroy. 54-57 [doi]
- Design of scalable shared-memory multiprocessors: the DASH approachDaniel Lenoski, Kourosh Gharachorloo, James Laudon, Anoop Gupta, John L. Hennessy, Mark Horowitz, Monica S. Lam. 62-67 [doi]
- High-speed networks for high-performance computingH. T. Kung. 68-72 [doi]
- MERLIN. A superglue for multicomputer systemsCreve Maples, Larry D. Wittie. 73-81 [doi]
- A user's view of dataflow architecturesOlaf M. Lubeck. 84-87 [doi]
- The Epsilon-2 hybrid dataflow architectureV. Gerald Grafe, Jamie E. Hoch. 88-93 [doi]
- Data-driven approach for programming a transputer-based systemJean-Luc Gaudiot, Liang-Teh Lee, Philippe Aubrée. 94-99 [doi]
- Host interface design for experimental, very high-speed networksBruce S. Davie. 102-106 [doi]
- VAX 6000 model 400 system overviewJohn Croll. 110-114 [doi]
- A VLSI implementation of the VAX vector architectureDavid M. Fenwick, John Redford, Tim Stanley, Douglas D. Williams. 115-119 [doi]
- Vector extensions to the VAX architectureDileep Bhandarkar, Richard Brunner. 120-126 [doi]
- VAX 6000 Model 400 performanceBhagyam Moses, Karen DeGregory, Rajesh Kothari. 127-131 [doi]
- A VLSI-intensive fault-tolerant computer architectureFred J. Pollack, Dave Johnson, Dave Carson, Ron Ebersole, Vittal Kini, Konrad Lai, Bernie Silvernail, Steve Stacey. 134-142 [doi]
- An object-oriented distributed operating systemFred J. Pollack, Kevin C. Kahn, T. Don Dennis, Gerald Holzhammer, Herman D'Hooge, Stephen Tolopka. 143-152 [doi]
- High performance issue oriented architectureDileep Bhandarkar, David A. Orbits, Richard T. Witek, Wayne M. Cardoza, David N. Cutler. 153-160 [doi]
- An IBM second generation RISC processor architectureRandy D. Groves, Richard R. Oehler. 166-172 [doi]
- IBM second-generation RISC machine organizationH. B. Bakoglu, Gregory F. Grohoski, L. E. Thatcher, James A. Kahle, C. R. Moore, David P. Tuttle, Warren E. Maule, W. R. Hardell, Dwain A. Hicks, M. Nguyenphu, Robert K. Montoye, W. T. Glover, Sudhir Dhawan. 173-178 [doi]
- New micro channel featuresJames O. Nicholson, Fred E. Strietelmeier. 179-182 [doi]
- Sun's SPARCstation 1: a workstation for the 1990sAndreas von Bechtolsheim, Edward H. Frank. 184-188 [doi]
- The SBus: Sun's high performance system bus for RISC workstationsEdward H. Frank. 189-194 [doi]
- Software in silicon: the methodology behind Sun's GX graphics accelerator architectureCurtis R. Priem. 195-197 [doi]
- Approaching the desktop supercomputerTrevor G. Marshall. 200-204 [doi]
- Achieving supercomputer performance in a low pain environmentMurray Egan. 205-207 [doi]
- Why MIPS aren't the pointCraig Davidson. 208-210 [doi]
- System issues in embedded controlDennis R. Allison. 214-215 [doi]
- Multiprocessing: an extension of distributed, real-time computingJerry Fiddler, David N. Wilner, Harvey Wong. 216-218 [doi]
- Is it possible to quantify the fault tolerance of distributed/parallel computer systemsDalibor F. Vrsalovic, Zary Segall, Jim Ready. 219-225 [doi]
- An ECL RISC microprocessor designed for two level cacheDavid Roberts, Tim Layman, George Taylor. 228-231 [doi]
- The i960CA SuperScalar implementation of the 80960 architectureSteve McGeady. 232-240 [doi]
- RISC performance pushes back: A perspective on performance limits in general-purpose applicationsMike Johnson. 241-245 [doi]
- The i486 microprocessor integrated cache and bus interfaceKen Shoemaker. 248-253 [doi]
- The execution pipeline of the Intel i486 CPUJohn Crawford. 254-258 [doi]
- The 68040 integer and floating-point unitsBill Ledbetter, Ralph McGarity, Eric E. Quintana, Russel A. Reininger. 259-263 [doi]
- The 68040 on-chip memory subsystemRobin W. Edenfield, Bill Ledbetter, Ralph McGarity. 264-269 [doi]
- Software considerations for real-time RISCJerry Fiddler, Eric Stromberg, David N. Wilner. 274-277 [doi]
- + for embedded real-time computingL. M. Thompson. 282-288 [doi]
- A RISC development case studyR. L. Cates, James J. Farrell III. 290-294 [doi]
- New generations of the 29 K family solutionsBrett Stewart. 295-298 [doi]
- Headroom and legroom in the 80960 architectureT. Baker. 299-306 [doi]
- Designing embedded control applications with the IDT79R3001Michael J. Miller. 307-312 [doi]
- X window system servers in embedded systemsMichael A. Dolan, Larry Hare. 314-319 [doi]
- Microprocessor performance issues in non-impact printer applicationsGordon L. Hanson, David W. Glidewell. 320-323 [doi]
- Object-oriented systems analysis and specification: a model-driven approachBarry D. Kurtz, Scott N. Woodfield, David W. Embley. 328-332 [doi]
- A methodology for design and documentation of persistent object bases of information systemsRafiul Ahad. 333-339 [doi]
- Reuse in software engineering: an object-oriented perspectiveKenneth S. Rubin. 340-346 [doi]
- An object-oriented application development environmentMurthy Ganti, Pankaj Goyal, Rodolphe Nassif, Sunil Podar. 348-355 [doi]
- An integrated C programming environmentRobert J. Evans. 356-359 [doi]
- Using transactions in distributed applicationsWilliam E. Weihl. 366-371 [doi]
- Integrated support for distributed object-oriented applicationsAlexander Schill. 372-379 [doi]
- Improving user-interface responsiveness despite performance limitationsDavid Duis, Jeff Johnson. 380-386 [doi]
- MOPPS: a scheme for managing parallel scientific programs in a distributed architectureHassan Arafeh, Hasan S. AlKhatib, Hal T. Barraclough. 387-394 [doi]
- Analysis vs. presentation in data visualization softwareMike Wilson. 396 [doi]
- Organizing design alternatives using VHDL configurationsSteven S. Leung. 398-402 [doi]
- VHDL as a modeling-for-testability toolAlexander Miczo. 403-409 [doi]
- Behavioral synthesis of testable systems with VHDLLaNae J. Avra, Edward J. McCluskey. 410-415 [doi]
- Emulating peripheral chips using a RISC coreMartin Freeman. 420-426 [doi]
- CREATE-LIFE: a modular design approach for high performance ASICsJunien Labrousse, Gerrit A. Slavenburg. 427-433 [doi]
- AEDAM: design of high performance multi-process systemsPieter S. van der Meulen, Peter Baltus, Ross Morley. 434-441 [doi]
- CrossCheck: an ASIC testability solutionCynthia Wirtz. 444-448 [doi]
- Sequential circuit testingSamiha Mourad. 449-454 [doi]
- SSC-a tool for the synthesis of testable sequential machinesRafic Z. Makki, J. Muha, Silvio Bou-Ghazale, T. Kaylani. 455-461 [doi]
- MAX EPLDs offer fast alternatives to ASICsS. Kopec. 464-469 [doi]
- System development using Actel field programmable gate arraysDennis McCarty. 470-476 [doi]
- Field programmable gate arrays get enough speed and density for computer applicationsWes Patterson. 477-480 [doi]
- Parallel query execution in NonStop SQLHansjörg Zeller. 484-487 [doi]
- Parallelism with IBM's relational Database2 (DB2)Donald J. Haderle. 488-489 [doi]
- Parallelizing the Volcano database query processorGoetz Graefe. 490-493 [doi]
- The theory of deductive database systemsJeffrey D. Ullman. 496-502 [doi]
- Architecture of deductive database systemsCarlo Zaniolo. 503-510 [doi]
- Applications of deductive database systemsShalom Tsur. 511-518 [doi]
- An object-oriented knowledge base approach to a next generation of hypermedia systemHiroshi Ishikawa. 520-527 [doi]
- Comparative analysis of RDBMS and OODBMS: a case studyMohammad A. Ketabchi, S. Mathur, Tore Risch, Jiun-Liang Chen. 528-537 [doi]
- Integrating natural language, query processing, and semantic data modelsHoward W. Beck, Shamkant B. Navathe. 538-543 [doi]
- HDTV is the slogan, high volume-high tech is the issueMichael Borrus. 548-549 [doi]
- New paradigms for visualizationGerald M. Murch. 550-551 [doi]
- Increasing the human-computer bandwidthGary Demos. 552-560 [doi]
- Tandem's remote data facilityJim Lyon. 562-567 [doi]
- Parallel structuring of real-time simulation programsJames C. Browne, K. Sridharan, J. Kiall, Carole Denton, William Eventoff. 580-584 [doi]
- PAT: interactive conversion of sequential to parallel FortranBill Appelbe, Kevin Smith. 585-588 [doi]
- Architecture of the Parallel Programming Support EnvironmentT. G. Lewis, W. G. Rudd. 589-594 [doi]
- In the beginning (mathematics courses)Alice J. Kelly. 598-599 [doi]
- We're all the same (women in engineering)Rebecca A. Failor. 600-602 [doi]
- Corporate tactics which develop the engineering resource poolDonna K. Potter. 603-604 [doi]
- Pocket intelligence: the next plateauMark Cummings. 606-611 [doi]
- Modern virtual screen technology and applicationsAllen Becker. 612-615 [doi]
- The personal information revolution: from portable computing to the intelligent pocket assistantMatthew Morgenstern. 616-622 [doi]
- Practical parallel FortranBron Nelson, Deb Caruso. 624-629 [doi]
- Compile-time instruction scheduling for superscalar processorsDavid N. Glass. 630-633 [doi]
- Exploiting multiple granularities of parallelism in a compilerRandy Allen. 634-640 [doi]