Experience Using Multiprocessor Systems—A Status Report
ACM Computing Surveys (CSUR)
First version of a data flow procedure language
Programming Symposium, Proceedings Colloque sur la Programmation
Computer Design Language - Version Munich (CDLM) a modern multi-level language
DAC '83 Proceedings of the 20th Design Automation Conference
Processor-memory interconnections for multiprocessors
ISCA '79 Proceedings of the 6th annual symposium on Computer architecture
The Yorktown Simulation Engine
DAC '82 Proceedings of the 19th Design Automation Conference
Performance analysis and design of a logic simulation machine
ISCA '87 Proceedings of the 14th annual international symposium on Computer architecture
Compiled-code-based simulation with timing verification
EURO-DAC '94 Proceedings of the conference on European design automation
Fundamentals of parallel logic simulation
DAC '86 Proceedings of the 23rd ACM/IEEE Design Automation Conference
Statistics on logic simulation
DAC '86 Proceedings of the 23rd ACM/IEEE Design Automation Conference
Hardware-accelerated concurrent fault simulation: eventflow computing versus dataflow computing
ATS '95 Proceedings of the 4th Asian Test Symposium
Events suppression technique for high performance VHDL simulation
HPC-ASIA '97 Proceedings of the High-Performance Computing on the Information Superhighway, HPC-Asia '97
Hi-index | 0.00 |
The Munich Simulation Computer (MuSiC), a special-purpose, highly-parallel programmable machine, is an approach to transfer concepts (developed for data flow computers) to fast, mixed-design-level simulation of digital systems. To gain high performance, however, the operation principle is modified from data flow computation to event flow computation. This paper presents the event flow computation scheme and its implementation by the MUSIC organisation. Parameters, which influence performance, are discussed and it is shown that MuSiC can simulate more than 8 million gates and flipflops at a speed of up to some billion events per second.