Title :
Simulation libraries for system-level design
Author :
Richards, Mark A.
Author_Institution :
Adv. Res. Projects Agency, Arlington, VA, USA
fDate :
2/1/1995 12:00:00 AM
Abstract :
Raising the level of design abstraction to achieve a system synthesis capability requires electronic design automation (EDA) tools for design capture, analysis and verification at the new level of abstraction, as well as tools for synthesis at the next lower level of abstraction. It is essential that simulation libraries exist that support the new toolset. In system synthesis, elements of the desired product functionality will be specified as combinations of functional primitives in a high-order language or as flowgraph representations. Implementation trade offs will require the designer to simulate the performance of these functions when implemented in ASICs, FPGAs, or software. Simulation will require extensive libraries of primitives and their performance characteristics on a wide variety of hardware and software implementations. The paper considers system synthesis and some problems in system-level simulation
Keywords :
circuit CAD; circuit analysis computing; digital simulation; flow graphs; ASIC; EDA tools; FPGA; design abstraction; design analysis; design capture; design verification; electronic design automation; flowgraph; high-order language; performance; product functionality; simulation libraries; synthesis tools; system synthesis; system-level design; system-level simulation; toolset; Application specific integrated circuits; Discrete event simulation; Impedance; Libraries; Marketing and sales; Physics; Power system modeling; Product development; Runtime; System-level design;
