1. ASIC/FPGA design flow

2. Design Flow Detailed Design Detailed Design Ideas Design Ideas Device Programming Device Programming Timing Simulation Timing Simulation Synthesis & Implementation Synthesis & Implementation Functional Simulation Functional Simulation t pd =22.1ns f max =47.1MHz FPGA CPLD

3. Design Flow Detailed Design Detailed Design Ideas Design Ideas Device Programming Device Programming Timing Simulation Timing Simulation Synthesis & Implementation Synthesis & Implementation Functional Simulation Functional Simulation t pd =22.1ns f max =47.1MHz FPGA CPLD

4. Design Ideas What are the main design considerations? –Design feasibility? –Design spec? – (UML, C/C++, Behavioral VHDL) –Cost? –FPGA/CPLD or ASIC? –Which FPGA/CPLD vendor? –Which device family? –Development time?

5. Detailed Design Choose the design entry method –Schematic Gate level design Intuitive & easy to debug –HDL (Hardware Description Language), e.g. Verilog, VHDL, SystemC Descriptive & portable Easy to modify –Mixed HDL & schematic Manage the design hierarchy –Design partitioning Chip partitioning Logic partitioning –Use vendor-supplied libraries or parameterized libraries to reduce design time –Create & manage user-created libraries (circuits)

6. Functional Simulation Preparation for simulation –Generate simulation patterns Waveform entry HDL testbench –Generate simulation netlist Functional simulation –To verify the functionality of your design only Simulation results –Waveform display –Text output Challenge –Sufficient & efficient test patterns

7. HDL Synthesis Synthesis = Translation + Optimization –Translate HDL design files into gate-level netlist –Optimize according to your design constraints Area constraints Timing constraints Power constraints... Main challenges –Learn synthesizable coding style –Write correct & synthesizable HDL design files –Specify reasonable design constraints –Use HDL synthesis tool efficiently assign z=a&b a b z

8. Design Implementation Implementation flow –Netlist merging, flattening, data base building –Design rule checking –Logic optimization –Block mapping & placement –Net routing –Configuration bitstream generation (FPGA only) –Scan flip-flop insertion (ASIC only) Implementation results –Design error or warnings –Device utilization –Timing reports Challenge –How to reach high performance & high utilization implementation? FPGA CPLD a b z 01011...

9. Timing Simulation (optional) Post-layout simulation Includes component and wire delays, clock skew, setup and hold times Same input vectors with functional simulation Not necessary if Static Timing Analysis shows no problems

10. Device Programming (FPGA only) Choose the appropriate configuration scheme –SRAM-based FPGA/CPLD devices Downloading the bitstream via a download cable Programming onto a non-volatile memory device & attaching it on the circuit board –OTP, EPROM, EEPROM or Flash-based FPGA/CPLD devices Using hardware programmer ISP Finish the board design Program the device Challenge –Board design –System considerations FPGA CPLD

11. Testing (ASIC only)