Answered step by step
Verified Expert Solution
Question
1 Approved Answer
need solution 3. A digital system-on-chip in a 1 V, 65 nm process (with 50 nm drawn channel lengths and 1 = 25 nm) has
need solution
3. A digital system-on-chip in a 1 V, 65 nm process (with 50 nm drawn channel lengths and 1 = 25 nm) has 1 billion transistors, of which 500 million are used in type A logic gates and the remainder are used in type B logic gates. The average type A transistor width is 12 A and the average type B transistor width is 8 1. A typical behavior of the output signal of both type of logic gates for a single clock cycle is shown below: [10] Type A Type B t(ns) Assume each transistor contributes 1 ff/um of gate capacitance and 0.8 ff/um of diffusion capacitance. Neglect wire capacitance. The system is operating at 1 GHz. a. Estimate the activity factor for type A & type B logic gates. b. Estimate the switching power of the system. 3. A digital system-on-chip in a 1 V, 65 nm process (with 50 nm drawn channel lengths and 1 = 25 nm) has 1 billion transistors, of which 500 million are used in type A logic gates and the remainder are used in type B logic gates. The average type A transistor width is 12 A and the average type B transistor width is 8 1. A typical behavior of the output signal of both type of logic gates for a single clock cycle is shown below: [10] Type A Type B t(ns) Assume each transistor contributes 1 ff/um of gate capacitance and 0.8 ff/um of diffusion capacitance. Neglect wire capacitance. The system is operating at 1 GHz. a. Estimate the activity factor for type A & type B logic gates. b. Estimate the switching power of the system Step by Step Solution
There are 3 Steps involved in it
Step: 1
Get Instant Access to Expert-Tailored Solutions
See step-by-step solutions with expert insights and AI powered tools for academic success
Step: 2
Step: 3
Ace Your Homework with AI
Get the answers you need in no time with our AI-driven, step-by-step assistance
Get Started