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EC045 COMPUTER AIDED ANALYSIS AND DESIGN
1. OVERVIEW OF EDA
EDA tools, Especially schematic capture (using PSPICE & ORCAD), Simulation (using PSPICE & VHDL), layout (ORCAD for PCBs and magic for VLSI). The various steps in the design cycle, Relation between different software tools used in EDA.
2. ANALOG CIRCUIT TECHNIQUES
Overview of PSPICE, Types of simulation-DC, AC, Transient, Monte Carlo, Parametric and others, Simulation devices – ABMs, Laplace devices, Energy sources, Passive components, Semiconductors, ICs Special devices – voltage makers, Initial conditions, etc., Usage of type schematic editor, Probe and parts.
3. DIGITAL CIRCUIT TECHNIQUES
Overview of digital circuits, PLDs, FPGAs etc., Logic synthesis tools (using ORCAD), Digital simulation at register, Gate and device levels, Hazards, Races and timing violation (using ORCAD or P-logic), VHDL û programming, Concurrency, Simulation, Automatic synthesis and layout.
4. MODELING FOR SIMULATION
Modeling of digital blocks in PSPICE, P-logic, ORCAD and VDHL, Analog modeling in the frequency domain, Time domain, Models for R, L, C. Diode, BJT, JFET and MOSFET, Model parameter extraction (using parts and magic).
5. COMPUTATIONAL TECHNIQUES
Data structures and algorithms for manipulating graphs, Linked lists, Matrices and sparse matrices, Numerical methods with variable time step, Example Runge Kutta fourth order, The structure of the SPICE program, Routing algorithms for PCBs and VLSI, Event driven simulation in VHDL, File formats in EDA, Example EDIF.
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