lecture 11 – flip-flops borivoje...
TRANSCRIPT
inst.eecs.berkeley.edu/~ee241b
Borivoje Nikolić
EE241B : Advanced Digital Circuits
Lecture 11 – Flip-Flops
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1EECS241B L11 FLIP-FLOPS
Announcements
• Response to project abstracts sent• Please let me know if you didn’t receive it
• Team web pages
• Be careful not to leak proprietary info (interface tools via Hammer)
• Assignment 2 posted
2EECS241B L11 FLIP-FLOPS
Outline
• Module 3• Design of latches and flip-flops
3EECS241B L11 FLIP-FLOPS
3. Design for Performance
3.D Latch Design
4EECS241B L11 FLIP-FLOPS
MUX
• 2-input MUX
A
Sel
YSel
B
Sel
Sel
SelA
Sel
Sel
B
Y
A
B
Sel
1
0
Y
EECS241B L11 FLIP-FLOPS 5
Transmission Gates
EECS241B L11 FLIP-FLOPS 6
S
A
S
Y
Latch vs. Flip-Flop
Courtesy of IEEE Press, New York. 2000EECS241B L11 FLIP-FLOPS 7
Latches
D
Clk
Clk
Q
Clk
D
Clk
Q
Transmission-Gate Latch C2MOS Latch
EECS241B L11 FLIP-FLOPS 8
Usually without contention
Latches
Courtesy of IEEE Press, New York. 2000EECS241B L11 FLIP-FLOPS 9
Clk-Q Delay
TSetup-1
TClk-Q
Time
Setup-Hold Time Illustrations
Circuit before clock arrival (Setup-1 case)
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Timet=0
ClockDataTSetup-1
EECS241B L11 FLIP-FLOPS 10
Clk-Q Delay
TSetup-1
TClk-Q
Time
Timet=0
ClockDataTSetup-1
Setup-Hold Time Illustrations
Circuit before clock arrival (Setup-1 case)
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
EECS241B L11 FLIP-FLOPS 11
Clk-Q Delay
TSetup-1
TClk-Q
Time
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Timet=0
ClockDataTSetup-1
Setup-Hold Time Illustrations
Circuit before clock arrival (Setup-1 case)
EECS241B L11 FLIP-FLOPS 12
Clk-Q Delay
TSetup-1
TClk-Q
Time
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Timet=0
ClockDataTSetup-1
Setup-Hold Time Illustrations
Circuit before clock arrival (Setup-1 case)
EECS241B L11 FLIP-FLOPS 13
Timet=0
ClockDataTSetup-1
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Setup-Hold Time Illustrations
Circuit before clock arrival (Setup-1 case)
Clk-Q Delay
TSetup-1
TClk-Q
Time
EECS241B L11 FLIP-FLOPS 14
Setup-Hold Time Illustrations
Hold-1 case
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Timet=0
0
Clk-Q Delay
THold-1
TClk-Q
Time
EECS241B L11 FLIP-FLOPS 15
Clk-Q Delay
THold-1
TClk-Q
Time
Setup-Hold Time Illustrations
Hold-1 case
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
0
EECS241B L11 FLIP-FLOPS 16
Clk-Q Delay
THold-1
TClk-Q
Time
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Setup-Hold Time Illustrations
Hold-1 case
0
EECS241B L11 FLIP-FLOPS 17
Clk-Q Delay
THold-1
TClk-Q
Time
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Setup-Hold Time Illustrations
Hold-1 case
0
EECS241B L11 FLIP-FLOPS 18
Clk-Q Delay
THold-1
TClk-Q
Time
D
CN
QM
CP
D1 SM
Inv1
Inv2TG1
Timet=0
ClockTHold-1
Data
Setup-Hold Time Illustrations
Hold-1 case
0
EECS241B L11 FLIP-FLOPS 19
More Precise Setup Time
tD 2 C
t
t
t
tC 2 Q1.05tC 2 Q
tSu
tH
Clk
D
Q
(a)
Td-clk
1.05(tclk-q)
tclk-q
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Generating Complementary Clocks
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Latch tD-Q and tClk-Q
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tsetup
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Key Point
• Two ways to design a flip-flop• Latch pair
• Pulsed latch
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3. Design for Performance
3.E Flip-Flop Design
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Latch vs. Flip-Flop
Courtesy of IEEE Press, New York. 2000EECS241B L11 FLIP-FLOPS 26
Flip-Flops
• Performance metrics
• Delay metrics• Insertion delay
• Inherent race immunity
• ‘Softness’ (Clock skew absorption)
• Inclusion of logic
• Small (+constant) clock load
• Power/Energy Metrics• Power/energy
• Design robustness• Noise immunity
EECS241B L11 FLIP-FLOPS 27
Scan Test
EECS241B L11 FLIP-FLOPS 28