Lecture Notes
From CSE460t Wiki
Jump to navigationJump to searchLOGIC MINIMIZATION
- Standard Cell Example
- Karnaugh Maps
- Synthesis of Two-Level Circuits
- Quine-McCluskey Example
- UCP Reduction Techniques
http://en.wikipedia.org/wiki/Petrick%27s_method
- Espresso Example
- Espresso Example Output
- Espresso Cyclic Example
- Espresso Cyclic Example Output
- Don't Cares
- Multiple Output Functions
- VHDL Example 1
- VHDL Example 1 Synthesized RTL Schematic Default Settings
- VHDL Example 1 Xilinx Spartan 6 Technology Map Schematic Default Settings
- VHDL Example 2 (Quine-McCluskey Example)
- VHDL Example 2 Synthesized RTL Schematic Default Settings
- VHDL Example 2 Xilinx Spartan 6 Technology Map Schematic Default Settings
- VHDL Example 3 (12-bit Arctan Function)
- VHDL Example 4 (12-bit Arctan Function MSB)
- VHDL Example 4 Xilinx Spartan 6 Technology Map Schematic Default Settings (1 LUT)
- VHDL Example 5 (12-bit Arctan Function Bit 10)
- VHDL Example 5 Xilinx Spartan 6 Technology Map Schematic Default Settings (3 LUTs)
- VHDL Example 6 (12-bit Arctan Function Bit 9)
- VHDL Example 6 Xilinx Spartan 6 Technology Map Schematic Default Settings (10 LUTs)
- VHDL Example 7 (12-bit Arctan Function Bit 8)
- VHDL Example 7 Xilinx Spartan 6 Technology Map Schematic Default Settings (19/23 LUTs)
- VHDL Example 8 (12-bit Arctan Function Bit 0)
- VHDL Example 8 Xilinx Spartan 6 Technology Map Schematic Default Settings (2869 LUTs)
- VHDL Example 9 (12-bit Arctan Function Bit 0, Only Bit 0 Specified)
- VHDL Example 9 Xilinx Spartan 6 Technology Map Schematic Default Settings (3121 LUTs)
- VHDL Example 9 Xilinx Spartan 6 Technology Map Schematic Preserve Hierarchy/Optimize Area (2384 LUTs)
- VHDL Example 10 (12-bit Arctan Function Bit 0 Broken Into 64 Sections/Outputs)
- VHDL Example 10 Xilinx Spartan 6 Technology Map Schematic Default Settings (87 LUTs)
- VHDL Example 10 Xilinx Spartan 6 Technology Map Schematic Preserve Hierarchy/Optimize Area (64 LUTs)
- VHDL Example 11 (12-bit Arctan Function Bit 0 Broken Into 64 Sections/Outputs Then Combined Into One Output)
- VHDL Example 11 Xilinx Spartan 6 Technology Map Schematic Default Settings (115 LUTs, 7 Levels of Logic, 12.289 ns)
- VHDL Example 11 Xilinx Spartan 6 Technology Map Schematic Preserve Hierarchy/Optimize Area (85 LUTs, 6 Levels of Logic, 11.966 ns)
- Bit Zero Optimal LUTS (85 LUTs Is Optimal)
- Decomposition By Expansion
- Altera vs. Xilinx
- Xilinx vs. Altera
- Altera Logic Efficiency Analysis
- Altera FPGA Architecture White Paper
SEQUENTIAL SYSTEMS
- Figure 7.4 VHDL Description Version 1
- Xilinx Spartan 6 Technology Map Schematic Default Settings
- Default Version 1 Synthesis Report
- Version 1 ModelSim Simulation
- Figure 7.4 VHDL Description Version 2
- Default Version 2 Synthesis Report
- Figure 7.4 VHDL Description Version 3
- Default Version 3 Synthesis Report
- VHDL Description Version 4 (3 states)
- Version 4 ModelSim Simulation
- Default Version 4 Synthesis Report
- XST User Guide (See Page 276 for Compact State Encoding)
- Redundant FSM With Five States From Class
- Simplification of Completely Specified Machines by Implication Tables
- Definitions and Theorems for Sequential Machines
- Simplification of Incompletely Specified Machines
- Prime Compatibles Example from Hachtel and Somenzi
FINITE AUTOMATA
http://www.arl.wustl.edu/~mbecchi/files/becchi_conext2007.pdf
ASYNCHRONOUS CIRCUITS AND METASTABILITY
- NOR Latch
- NOR Latch VHDL Description
- NOR Latch VHDL Simulation
- Clocked NOR Latch
- Edge-Triggered D Flip-Flop
- Edge-Triggered D Flip-Flop VHDL Description
- Edge-Triggered D Flip-Flop VHDL Simulation
- Edge-Triggered D Flip-Flop VHDL Simulation with Hold Time Violation
- Anomalous Behavior of Synchronizer and Arbiter Circuits
- Measured Flip-Flop Responses to Marginal Triggering
- David M. Zar Metastability Lecture
- David M. Zar Fundamental Mode Design Example VHDL
- David M. Zar Fundamental Mode Design Example Simulation
- State Assignment
- Cypress 2Kx9 Sync FIFO