Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage...

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Logical Effort Section 6.5-6.6.1

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Transcript of Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage...

Page 1: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Logical Effort

Section 6.5-6.6.1

Page 2: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Problems:

• P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does the size of the inverters make any difference in the result?

Page 3: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Problem

• P6.4 Determine the self-capacitance at the output assuming step changes at the inputs shown.

Page 4: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Sizing Issues

Page 5: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Proper Formulation of a Delay Problem

Page 6: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Reformulate a Delay Problem

Key Concepts:Intrinsic Time ConstantFanout Ratio

Page 7: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Optimal Sizing of Inverter Chain

Page 8: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Stage Fanout

Page 9: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Delay Versus Fanout

Page 10: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Examples

• Examples 6.8• Examples 6.9

Page 11: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Series of Mixed Gates

Page 12: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Example

• Example 6.10

Page 13: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Derivation of Logic Effort

Page 14: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Obtain Logic Effort of a Gate

• From definition of intrinsic time constant

Page 15: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Determine LE by taking the ratio of Input Capacitances

Page 16: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Determine LE by taking the Delay Ratio

Page 17: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

Determine the Parasitic Term

• 2 input-NAND• 2 input-NOR• Subtleties of Table 6.2

Page 18: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

NAND2

NMOS in series PMOS in parallel

Page 19: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

NAND3

NMOS in series PMOS in parallel

Page 20: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

NAND4

Page 21: Logical Effort Section 6.5-6.6.1. Problems: P6.2 Compute the oscillation frequency of a seven-stage ring oscillator using 0.18 micron technology. Does.

NOR2


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