Asynchronous Circuit DesignWith asynchronous circuit design becoming a powerful tool in the development of new digital systems, circuit designers are expected to have asynchronous design skills and be able to leverage them to reduce power consumption and increase system speed. This book walks readers through all of the different methodologies of asynchronous circuit design, emphasizing practical techniques and real-world applications instead of theoretical simulation. The only guide of its kind, it also features an ftp site complete with support materials. Market: Electrical Engineers, Computer Scientists, Device Designers, and Developers in industry. |
Contents
Communication Channels 2 Communication Channels | 23 |
Deadlock | 34 |
Communication Protocols | 57 |
Graphical Representations | 85 |
Huffman Circuits | 131 |
Muller Circuits | 207 |
Timed Circuits | 259 |
Verification | 295 |
Applications | 321 |
Appendix A VHDL Packages | 347 |
Appendix B Sets and Relations | 359 |
365 | |
393 | |
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Common terms and phrases
ack_patron ack-wine algorithm allowed arrives assignment assume asynchronous becomes begin behavior block bottle bound called channel circuit clock column communication compatible complete component Consider constraint contains corresponding cover cube defined delay described determine downto enabled end process event Example excitation exists extended failure falling Finally firing flow table function gate given graph hazard hazard-free implementation implicant indicates initial input insertion instruction intersects logic loop machine marking matrix method minimization module necessary Note operation output pair patron performance Petri port POSET possible prime problem procedure produce protocol receive reduced region represent req_patron req-wine reset result rising rule satisfied sequence shown in Figure signal solution specification step structure takes timer trace transition true variable violating wait wine winery wires zone
Popular passages
Page 384 - In Proc. International Symposium on Advanced Research in Asynchronous Circuits and Systems. IEEE Computer Society Press, Apr.
Page 385 - J.-K. Rho, G. Hachtel, F. Somenzi, and R. Jacoby, Exact and heuristic algorithms for the minimization of incompletely specified state machines, IEEE Trans.
Page 381 - AJ Martin, SM Burns, TK Lee, D. Borkovic, and PJ Hazewindus. The design of an asynchronous microprocessor.
Page 383 - Low-power operation using self-timed circuits and adaptive scaling of the supply voltage.
Page 391 - Arceo. The design and verification of a highperformance low-control-overhead asynchronous differential equation solver.