Presentation is loading. Please wait.

Presentation is loading. Please wait.

© Digital Integrated Circuits 2nd Sequential Circuits Digital Integrated Circuits A Design Perspective Designing Sequential Logic Circuits Jan M. Rabaey.

Published byShonda Spencer Modified over 8 years ago

Similar presentations

Presentation on theme: "© Digital Integrated Circuits 2nd Sequential Circuits Digital Integrated Circuits A Design Perspective Designing Sequential Logic Circuits Jan M. Rabaey."— Presentation transcript:

1 © Digital Integrated Circuits 2nd Sequential Circuits Digital Integrated Circuits A Design Perspective Designing Sequential Logic Circuits Jan M. Rabaey Anantha Chandrakasan Borivoje Nikolic November 2002

2 © Digital Integrated Circuits 2nd Sequential Circuits Sequential Logic 2 storage mechanisms positive feedback charge-based

3 © Digital Integrated Circuits 2nd Sequential Circuits Naming Conventions  In our text:  a latch is level sensitive  a register is edge-triggered  There are many different naming conventions  For instance, many books call edge- triggered elements flip-flops  This leads to confusion however

4 © Digital Integrated Circuits 2nd Sequential Circuits Latch versus Register  Latch stores data when clock is low D Clk Q D Q  Register stores data when clock rises Clk D D QQ

5 © Digital Integrated Circuits 2nd Sequential Circuits Latches

6 © Digital Integrated Circuits 2nd Sequential Circuits Latch-Based Design N latch is transparent when  = 1 P latch is transparent when  = 0 N Latch Logic P Latch 

7 © Digital Integrated Circuits 2nd Sequential Circuits Timing Definitions t CLK t D t c 2 q t hold t su t Q DATA STABLE DATA STABLE Register CLK DQ

8 © Digital Integrated Circuits 2nd Sequential Circuits Characterizing Timing Register Latch

9 © Digital Integrated Circuits 2nd Sequential Circuits Maximum Clock Frequency Also: t cdreg + t cdlogic > t hold t cd : contamination delay = minimum delay t clk-Q + t p,comb + t setup = T

10 © Digital Integrated Circuits 2nd Sequential Circuits Positive Feedback: Bi-Stability V o 1 V i 2 5 V o 1 V i 2 5 V o 1 V i1 A C B V o2 V i1 =V o2 V o1 V i2 V i2 =V o1

11 © Digital Integrated Circuits 2nd Sequential Circuits Meta-Stability Gain should be larger than 1 in the transition region

12 © Digital Integrated Circuits 2nd Sequential Circuits Writing into a Static Latch D CLK D Converting into a MUX Forcing the state (can implement as NMOS-only) Use the clock as a decoupling signal, that distinguishes between the transparent and opaque states

13 © Digital Integrated Circuits 2nd Sequential Circuits Mux-Based Latches Negative latch (transparent when CLK= 0) Positive latch (transparent when CLK= 1) CLK 1 0D Q 0 1D Q

14 © Digital Integrated Circuits 2nd Sequential Circuits Mux-Based Latch

15 © Digital Integrated Circuits 2nd Sequential Circuits Mux-Based Latch NMOS onlyNon-overlapping clocks

16 © Digital Integrated Circuits 2nd Sequential Circuits Master-Slave (Edge-Triggered) Register Two opposite latches trigger on edge Also called master-slave latch pair

17 © Digital Integrated Circuits 2nd Sequential Circuits Master-Slave Register Multiplexer-based latch pair

18 © Digital Integrated Circuits 2nd Sequential Circuits Reduced Clock Load Master-Slave Register

19 © Digital Integrated Circuits 2nd Sequential Circuits Avoiding Clock Overlap CLK A B (a) Schematic diagram (b) Overlapping clock pairs X D Q CLK

20 © Digital Integrated Circuits 2nd Sequential Circuits Overpowering the Feedback Loop ─ Cross-Coupled Pairs NOR-based set-reset

21 © Digital Integrated Circuits 2nd Sequential Circuits Storage Mechanisms D CLK Q Dynamic (charge-based) Static

22 © Digital Integrated Circuits 2nd Sequential Circuits Other Latches/Registers: C 2 MOS “Keepers” can be added to make circuit pseudo-static

23 © Digital Integrated Circuits 2nd Sequential Circuits Insensitive to Clock-Overlap M 1 DQ M 4 M 2 00 V DD X M 5 M 8 M 6 V (a) (0-0) overlap M 3 M 1 DQ M 2 1 V DD X M 7 1 M 5 M 6 V (b) (1-1) overlap

24 © Digital Integrated Circuits 2nd Sequential Circuits Pipelining Reference Pipelined

25 © Digital Integrated Circuits 2nd Sequential Circuits Other Latches/Registers: TSPC Negative latch (transparent when CLK= 0) Positive latch (transparent when CLK= 1)

26 © Digital Integrated Circuits 2nd Sequential Circuits TSPC Register

27 © Digital Integrated Circuits 2nd Sequential Circuits Including Logic in TSPC AND latch Example: logic inside the latch

28 © Digital Integrated Circuits 2nd Sequential Circuits Pulse-Triggered Latches An Alternative Approach Master-Slave Latches D Clk QD Q Data D Clk Q Data Pulse-Triggered Latch L1L2L Ways to design an edge-triggered sequential cell:

29 © Digital Integrated Circuits 2nd Sequential Circuits Pulsed Latches

30 © Digital Integrated Circuits 2nd Sequential Circuits Latch-Based Pipeline

31 © Digital Integrated Circuits 2nd Sequential Circuits Non-Bistable Sequential Circuits─ Schmitt Trigger VTC with hysteresis Restores signal slopes

32 © Digital Integrated Circuits 2nd Sequential Circuits Noise Suppression using Schmitt Trigger

33 © Digital Integrated Circuits 2nd Sequential Circuits Schmitt Trigger Simulated VTC 2.5 V X (V) V M2 V M1 V in (V) Voltage-transfer characteristics with hysteresis.The effect of varying the ratio of the PMOS deviceM 4. The width isk* 0.5 m. m 2.0 1.5 1.0 0.5 0.0 0.51.01.52.02.5 V x (V) k = 2 k = 3 k = 4 k = 1 V in (V) 2.0 1.5 1.0 0.5 0.0 0.51.01.52.02.5

34 © Digital Integrated Circuits 2nd Sequential Circuits CMOS Schmitt Trigger (2)

35 © Digital Integrated Circuits 2nd Sequential Circuits Monostable

36 © Digital Integrated Circuits 2nd Sequential Circuits Astable Multivibrators (Oscillators) 012N-1 Ring Oscillator simulated response of 5-stage oscillator

37 © Digital Integrated Circuits 2nd Sequential Circuits Relaxation Oscillator

38 © Digital Integrated Circuits 2nd Sequential Circuits Voltage Controller Oscillator (VCO)

Download ppt "© Digital Integrated Circuits 2nd Sequential Circuits Digital Integrated Circuits A Design Perspective Designing Sequential Logic Circuits Jan M. Rabaey."

Similar presentations

Latch versus Register Latch Register stores data when clock is low

Latch versus Register Latch Register stores data when clock is low
Circuiti sequenziali1 Progettazione di circuiti e sistemi VLSI Anno Accademico 2010-2011 Lezione 7 12.4.2011 Circuiti sequenziali.

Circuiti sequenziali1 Progettazione di circuiti e sistemi VLSI Anno Accademico Lezione Circuiti sequenziali.
Introduction to CMOS VLSI Design Sequential Circuits.

Introduction to CMOS VLSI Design Sequential Circuits.
VLSI Design EE 447/547 Sequential circuits 1 EE 447/547 VLSI Design Lecture 9: Sequential Circuits.

VLSI Design EE 447/547 Sequential circuits 1 EE 447/547 VLSI Design Lecture 9: Sequential Circuits.
Latch versus Register  Latch stores data when clock is low D Clk Q D Q Register stores data when clock rises Clk D D QQ.

Latch versus Register  Latch stores data when clock is low D Clk Q D Q Register stores data when clock rises Clk D D QQ.
EE415 VLSI Design Sequential Logic [Adapted from Rabaey’s Digital Integrated Circuits, ©2002, J. Rabaey et al.]

EE415 VLSI Design Sequential Logic [Adapted from Rabaey’s Digital Integrated Circuits, ©2002, J. Rabaey et al.]
Introduction to Sequential Logic Design Latches. 2 Terminology A bistable memory device is the generic term for the elements we are studying. Latches.

Introduction to Sequential Logic Design Latches. 2 Terminology A bistable memory device is the generic term for the elements we are studying. Latches.
Introduction to CMOS VLSI Design Sequential Circuits

Introduction to CMOS VLSI Design Sequential Circuits
1 Lecture 14 Memory storage elements  Latches  Flip-flops State Diagrams.

1 Lecture 14 Memory storage elements  Latches  Flip-flops State Diagrams.
Sequential MOS Logic Circuits

Sequential MOS Logic Circuits
Designing Sequential Logic Circuits

Designing Sequential Logic Circuits
MICROELETTRONICA Sequential circuits Lection 7.

MICROELETTRONICA Sequential circuits Lection 7.
Lecture 11: Sequential Circuit Design. CMOS VLSI DesignCMOS VLSI Design 4th Ed. 11: Sequential Circuits2 Outline  Sequencing  Sequencing Element Design.

Lecture 11: Sequential Circuit Design. CMOS VLSI DesignCMOS VLSI Design 4th Ed. 11: Sequential Circuits2 Outline  Sequencing  Sequencing Element Design.
CHAPTER 3 Sequential Logic/ Circuits.  Concept of Sequential Logic  Latch and Flip-flops (FFs)  Shift Registers and Application  Counters (Types,

CHAPTER 3 Sequential Logic/ Circuits.  Concept of Sequential Logic  Latch and Flip-flops (FFs)  Shift Registers and Application  Counters (Types,
Prof. John Nestor ECE Department Lafayette College Easton, Pennsylvania 18042 ECE 425 - VLSI Circuit Design Lecture 16 - Sequential.

Prof. John Nestor ECE Department Lafayette College Easton, Pennsylvania ECE VLSI Circuit Design Lecture 16 - Sequential.
Introduction to CMOS VLSI Design Lecture 10: Sequential Circuits David Harris Harvey Mudd College Spring 2004.

Introduction to CMOS VLSI Design Lecture 10: Sequential Circuits David Harris Harvey Mudd College Spring 2004.
Lecture 11: Sequential Circuit Design. CMOS VLSI DesignCMOS VLSI Design 4th Ed. 11: Sequential Circuits2 Outline  Sequencing  Sequencing Element Design.

Lecture 11: Sequential Circuit Design. CMOS VLSI DesignCMOS VLSI Design 4th Ed. 11: Sequential Circuits2 Outline  Sequencing  Sequencing Element Design.
Chapter 7 Designing Sequential Logic Circuits Rev 1.0: 05/11/03

Chapter 7 Designing Sequential Logic Circuits Rev 1.0: 05/11/03
CMOS Digital Integrated Circuits

CMOS Digital Integrated Circuits
Digital Integrated Circuits A Design Perspective

Digital Integrated Circuits A Design Perspective

Similar presentations

Ads by Google