Electronics assignment
CALIFORNIA STATE UNIVERSITY, FULLERTON
Computer Engineering
EGCP 441 - 02 – Advanced Electronics for Computer Engineering
(Spring 2017) Lab No 6: Interconnect Modeling Using Cad
Laboratory Goals
Understanding of Interconnection
Effect of parasitic capacitance
Spice netlist
Transient analysis using Hspice or Tspice
Pre-lab / lab reading
Course Textbook (Chapter no 6)
Lecture slides no 15
1. Output Resistance using Hspice For the inverter shown in Figure 1 measure the Rout using the Hspice. Compared the
measured results with the hand calculations. For hand calculation assume for 0.5um
technology, VDD=2.5 V, K’n=100 uA/V 2 , Vtn=0.4 V, λn=0.1 V
-1 , (W/L)n=10, K’p=60 uA/V
2 ,
Vtp=-0.4V, λp=0.2 V -1
, (W/L)p=17
Write the netlist for the circuit shown in Figure 1
Connect a load capacitance of 100 fF
Measure the propagation delay tPLH using Hspice.
Using tp = 0.69 x Rout x Cout
Calculate the propagation delay (𝑡𝑝 = 𝑡𝑝𝑙ℎ+𝑡𝑝ℎ𝑙
2 ) using average current technique.
Figure 1 CMOS inverter circuit
Then equate the propagation delay to a simple RC network and find Rout.
2. Delay Measurement using Hspice An interconnection modeling of an interconnection network is shown in Figure 2. Use the
spice netlist given with the lab to model the interconnection network.
For the interconnection network shown in Figure 2 measure the delay at node no 5 using
Hspice.
Write the netlist for the interconnection network shown in Figure 2
Use Elmore technique to compute the time constant and LH propagation delay (tPLH)
of the above network from the gate input to node 5.
3. Analysis
Write a brief summary report for the lab. Be sure to also include the following topics:
Include the schematic for Figure 1 and Figure 2. A netlist for part 1 and part 2. Also include
the transient response for part 1 and part 2.
Show each calculation steps. Compare your simulation result your hand calculation. If there
is any difference then list down the possible reason behind it.
Explain any difficulties you had with these labs. (Please include any suggestions to improve
them).
Figure 2 RC interconnection modelling