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EECS 141: Digital Integrated Circuits - Fall 2009 Report Cover Sheet TERM PROJECT: Functional Unit Design Report 3 – Putting it all Together and Optimization Due Monday, December 8, 2009 by 5:00pm in the drop box. Names Description of Optimization Objectives (You should describe what your optimization goals were here: e.g., minimum power, maximum speed, good balance of speed/area, etc.) Parameter Value Cell Area Calculated Decoder Delay Simulated Decoder Delay Simulated WL-A Delay Calculated Adder Delay Simulated Adder Delay Total Simulated Delay Calculated Power Dissipation Simulated Power Dissipation Total Area Units µm2 ps ps ps ps ps ps µW µW µm2 GRADE Approach, result and correctness (65%) Report (35%) TOTAL Complete Functional Unit Design (Annotated schematic or block diagram and layout of the complete Functional Unit. Simulation showing representative operation with worst-case delay and timing of critical signals, including any clocks you used. You should provide highlights of the key optimizations/design decisions you made here - e.g., using domino logic in the adder, reducing the supply voltage for the SRAM, etc.) SRAM Cell Design (Schematic and layout of the SRAM cell. Read and write margins/butterfly plots. You can skip this section if you did not modify the SRAM cell we gave you, but otherwise you should explain any changes you made from the design given to you in phase 1. ) Decoder Design (Annotated schematics with gate sizes and layout of the decoder. Simulation showing worst-case propagation delay, hand calculation of decoder delay and power. Explain your design decisions and approach. You do not need to provide transistor level schematics of any standard gates you used, but you should provide schematics of any new/non-obvious gates.) Adder Design (Annotated schematics with gate sizes and layout of the adder. Identify the critial path and show hand calculation of delay and power. Worst-case delay simulation showing the critical signals. Explain your design decisions and approach. Schematics of any new and non-obvious gates.) Appendix (This space has been provided for you to include relevant information that did not fit into the previous sections. This is a good place to put any additional analyses you did that didn’t fit or you weren’t sure where to put. For example, you might provide a more detailed power break-down/estimate of each of the major blocks, logical effort sizing calculations of the complete decoder/SRAM/adder path, output buffer/multiplexor sizing, etc.)
