ABSTRACT
Computer simulation of electronic circuits and systems has become an increasingly important tool in circuit and system design. Such simulations enable one to:
1. Eliminate the necessity of building many breadboard models in order to evaluate different design approaches.
2. Analyze the performance of the circuit as a function of different parameters.
3. Model semiconductor devices and integrated circuits so that intrinsic parameters become accessible.
4. Perform optimization and tolerance analysis of a circuit which requires many evaluations of the circuit with different sets of parameters.
- R D Brennan H Sano PACTOLUS---A digital analog simulator program Proc FJCC Vol 26 1964 Google ScholarDigital Library
- G A Korn T M Korn Electronic analog and hybrid computers McGraw-Hill 1964 Chapt 3Google Scholar
- P Herici Error propagation for difference methods John Wiley 1963Google Scholar
- G A Bekey W J Karplus Hybrid computation John Wiley 1968Google Scholar
- L A O' Neill Adaptive detection and representation Johns Hopkins Univ 1966 PhD ThesisGoogle Scholar
- P Balaban J Logan Analog computer simulation of semiconductor circuits Proc SJCC Vol 32 1968 Google ScholarDigital Library
- I W Sandberg H Shichman Numerical integration of systems of stiff nonlinear differential equations BSTJ Vol 47 No 4 April 1968Google Scholar
Recommendations
Optimized reversible binary-coded decimal adders
Babu and Chowdhury [H.M.H. Babu, A.R. Chowdhury, Design of a compact reversible binary coded decimal adder circuit, Journal of Systems Architecture 52 (5) (2006) 272-282] recently proposed, in this journal, a reversible adder for binary-coded decimals. ...
Hardware Designs for Decimal Floating-Point Addition and Related Operations
Decimal arithmetic is often used in commercial, financial, and Internet-based applications. Due to the growing importance of decimal floating-point (DFP) arithmetic, the IEEE 754 Draft Standard for Floating-Point Arithmetic (IEEE P754) includes ...
Logic Networks of Carry-Save Adders
logic networks of carry-save adders such as high-speed multipliers, multioperand adders, and double-rail input parallel adders are designed based on the parallel adders with a minimum number of NOR gates discussed in [1]. After a discussion of the ...
Comments