lecture 16: circuit pitfallsvlsi.hongik.ac.kr/lecture/이전 강의...
TRANSCRIPT
![Page 1: Lecture 16: Circuit Pitfallsvlsi.hongik.ac.kr/lecture/이전 강의 자료/VLSI_SOC/VLSIlect16... · –Or fails in SFSF corner. D0 X Y D1 S Principle: Threshold drop – X never](https://reader035.vdocuments.us/reader035/viewer/2022071103/5fdcd16e0037a9742b137bcf/html5/thumbnails/1.jpg)
Introduction toCMOS VLSICMOS VLSI
Design
Lecture 16: Circuit Pitfalls
![Page 2: Lecture 16: Circuit Pitfallsvlsi.hongik.ac.kr/lecture/이전 강의 자료/VLSI_SOC/VLSIlect16... · –Or fails in SFSF corner. D0 X Y D1 S Principle: Threshold drop – X never](https://reader035.vdocuments.us/reader035/viewer/2022071103/5fdcd16e0037a9742b137bcf/html5/thumbnails/2.jpg)
OutlineOutline Circuit Pitfalls Circuit Pitfalls
– Detective puzzleGi i it d t di d– Given circuit and symptom, diagnose cause and recommend solutionAll these pitfalls have caused failures in real chips– All these pitfalls have caused failures in real chips
Noise Budgets Reliability Reliability
CMOS VLSI Design16: Circuit Pitfalls Slide 2
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Bad Circuit 1Bad Circuit 1 Circuit Symptom Circuit
– 2:1 multiplexer Symptom
– Mux works when selected D is 0 but not 1. S
– Or fails at low VDD.– Or fails in SFSF corner.
XD0YD1
S
SS
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 3
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Bad Circuit 1Bad Circuit 1 Circuit Symptom Circuit
– 2:1 multiplexer Symptom
– Mux works when selected D is 0 but not 1. S
– Or fails at low VDD.– Or fails in SFSF corner.(NMOS PMOS voltage temp corner)
XD0YD1
S
S (NMOS-PMOS-voltage-temp corner) S
Principle: Threshold dropX never rises above V V– X never rises above VDD-Vt
– Vt is raised by the body effect– The threshold drop is most serious as Vt becomes a greater p t g
fraction of VDD. Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 4
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Bad Circuit 1Bad Circuit 1 Circuit Symptom Circuit
– 2:1 multiplexer Symptom
– Mux works when selected D is 0 but not 1. S
– Or fails at low VDD.– Or fails in SFSF corner.
XD0YD1
S
SS
Principle: Threshold dropX never rises above V V– X never rises above VDD-Vt
– Vt is raised by the body effect– The threshold drop is most serious as Vt becomes a greater p t g
fraction of VDD. Solution: Use transmission gates, not pass transistors
CMOS VLSI Design16: Circuit Pitfalls Slide 5
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Bad Circuit 2Bad Circuit 2 Circuit Symptom Circuit
– Latch Symptom
– Load a 0 into Q– Set = 0 – Eventually Q
spontaneously flips to 1 D Q
X
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 6
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Bad Circuit 2Bad Circuit 2 Circuit Symptom Circuit
– Latch Symptom
– Load a 0 into Q– Set = 0 – Eventually Q
spontaneously flips to 1 D Q
X
Principle: LeakageX is a dynamic node holding value as charge on the node– X is a dynamic node holding value as charge on the node
– Eventually subthreshold leakage may disturb charge Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 7
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Bad Circuit 2Bad Circuit 2 Circuit Symptom Circuit
– Latch Symptom
– Load a 0 into Q– Set = 0 – Eventually Q
spontaneously flips to 1 D Q
X
Principle: LeakageX is a dynamic node holding value as charge on the node– X is a dynamic node holding value as charge on the node
– Eventually subthreshold leakage may disturb charge Solution: Staticize node with feedback Q
X
– Or periodically refresh node (requires fast clock, not practical processes with big leakage)
D X
CMOS VLSI Design16: Circuit Pitfalls Slide 8
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Bad Circuit 3Bad Circuit 3 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate (Y=0)– Then evaluate X
– Eventually Y spontaneously flips to 1 1
0YX
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 9
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Bad Circuit 3Bad Circuit 3 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate (Y=0)– Then evaluate X
– Eventually Y spontaneously flips to 1 1
0YX
Principle: LeakageX is a dynamic node holding value as charge on the node– X is a dynamic node holding value as charge on the node
– Eventually subthreshold leakage may disturb charge Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 10
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Bad Circuit 3Bad Circuit 3 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate (Y=0)– Then evaluate X
– Eventually Y spontaneously flips to 1 1
0YX
Principle: LeakageX is a dynamic node holding value as charge on the node– X is a dynamic node holding value as charge on the node
– Eventually subthreshold leakage may disturb charge Solution: Keeper Y
p
1
0Y
X
CMOS VLSI Design16: Circuit Pitfalls Slide 11
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Bad Circuit 4Bad Circuit 4 Circuit Symptom Circuit
– Pseudo-nMOS OR Symptom
– When only one input is true, Y = 0.
– Perhaps only happens in SF (NMOS-PMOS) corner. A B
YX
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 12
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Bad Circuit 4Bad Circuit 4 Circuit Symptom Circuit
– Pseudo-nMOS OR Symptom
– When only one input is true, Y = 0.
– Perhaps only happens in SF corner. A B
YX
Principle: Ratio FailurenMOS and pMOS fight each other– nMOS and pMOS fight each other.
– If the pMOS is too strong, nMOS cannot pull X low enough. Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 13
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Bad Circuit 4Bad Circuit 4 Circuit Symptom Circuit
– Pseudo-nMOS OR Symptom
– When only one input is true, Y = 0.
– Perhaps only happens in SF corner. A B
YX
Principle: Ratio FailurenMOS and pMOS fight each other– nMOS and pMOS fight each other.
– If the pMOS is too strong, nMOS cannot pull X low enough. Solution: Check that ratio is satisfied in all corners
CMOS VLSI Design16: Circuit Pitfalls Slide 14
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Bad Circuit 5Bad Circuit 5 Circuit Symptom Circuit
– Latch Symptom
– Q stuck at 1.– May only happen for y y pp
certain latches where input is driven by a small gate located far
QD
X
small gate located far away.
Principle:
weak
Solutions:
CMOS VLSI Design16: Circuit Pitfalls Slide 15
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Bad Circuit 5Bad Circuit 5 Circuit Symptom Circuit
– Latch Symptom
– Q stuck at 1.– May only happen for y y pp
certain latches where input is driven by a small gate located far
QD
X
small gate located far away.
Principle: Ratio Failure (again)Series resistance of D driver wire
weak
– Series resistance of D driver, wire resistance, and tgate must be much less than weak feedback inverter.
QD
weakstronger
Solutions:g
CMOS VLSI Design16: Circuit Pitfalls Slide 16
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Bad Circuit 5Bad Circuit 5 Circuit Symptom Circuit
– Latch Symptom
– Q stuck at 1.– May only happen for y y pp
certain latches where input is driven by a small gate located far
QD
X
small gate located far away.
Principle: Ratio Failure (again)Series resistance of D driver wire
weak
– Series resistance of D driver, wire resistance, and tgate must be much less than weak feedback inverter.
QD
weakstronger
Solutions: Check relative strengths– Avoid unbuffered diffusion inputs where driver is unknown
g
CMOS VLSI Design16: Circuit Pitfalls Slide 17
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Bad Circuit 6Bad Circuit 6 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate while A = B = 0, so Z = 0
Y ,
– Set = 1– A risesB
A
Y
X
Z
– Z is observed to sometimes rise Principle:
Solutions:
CMOS VLSI Design16: Circuit Pitfalls Slide 18
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Bad Circuit 6Bad Circuit 6 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate while A = B = 0, so Z = 0
Y ,
– Set = 1– A risesB
A
Y
X
Z
– Z is observed to sometimes rise Principle: Charge Sharing
If X was low it shares charge with Y– If X was low, it shares charge with Y Solutions:
B
A
Y
X
Cx
CY
Z
x
CMOS VLSI Design16: Circuit Pitfalls Slide 19
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Bad Circuit 6Bad Circuit 6 Circuit Symptom Circuit
– Domino AND gate Symptom
– Precharge gate while A = B = 0, so Z = 0
Y ,
– Set = 1– A risesB
A
Y
X
Z
– Z is observed to sometimes rise Principle: Charge Sharing
If X was low it shares charge with Y– If X was low, it shares charge with Y Solutions: Limit charge sharing
B
A
Y
X
Cx
CY
Z
Yx Y DD
CV V VC C
– Safe if CY >> CX
– Or precharge node X too
xx Y DDx YC C
CMOS VLSI Design16: Circuit Pitfalls Slide 20
Or precharge node X too
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Bad Circuit 7Bad Circuit 7 Circuit Symptom Circuit
– Dynamic gate + latch Symptom
– Precharge gate while transmission gate latch
is opaque– Evaluate
When latch becomes
0
XY
– When latch becomes transparent, X falls
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 21
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Bad Circuit 7Bad Circuit 7 Circuit Symptom Circuit
– Dynamic gate + latch Symptom
– Precharge gate while transmission gate latch
is opaque– Evaluate
When latch becomes
0
XY
– When latch becomes transparent, X falls
Principle: Charge SharingIf Y was low it shares charge with X– If Y was low, it shares charge with X
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 22
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Bad Circuit 7Bad Circuit 7 Circuit Symptom Circuit
– Dynamic gate + latch Symptom
– Precharge gate while transmission gate latch
is opaque– Evaluate
When latch becomes
0
XY
– When latch becomes transparent, X falls
Principle: Charge SharingIf Y was low it shares charge with X (X d ’t t hi h h d)– If Y was low, it shares charge with X (X doesn’t stay high as precharged)
Solution: Buffer dynamic nodes before driving transmission gateg g
CMOS VLSI Design16: Circuit Pitfalls Slide 23
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Bad Circuit 8Bad Circuit 8 Circuit Symptom Circuit
– Latch Symptom
– Q changes while latch is opaque
D VGND
– Especially if D comes from a far-away driver
QD
weakVDD
VDD
Principle:
Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 24
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Bad Circuit 8Bad Circuit 8 Circuit Symptom Circuit
– Latch Symptom
– Q changes while latch is opaque
D VGND
– Especially if D comes from a far-away driver
QD
weakVDD
VDD
Principle: Diffusion Input Noise SensitivityIf D < V transmission gate turns on– If D < -Vt, transmission gate turns on
– Most likely because of power supply noise or coupling on D Solution:
CMOS VLSI Design16: Circuit Pitfalls Slide 25
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Bad Circuit 8Bad Circuit 8 Circuit Symptom Circuit
– Latch Symptom
– Q changes while latch is opaque
D VGND
– Especially if D comes from a far-away driver
QD
weakVDD
VDD
Principle: Diffusion Input Noise Sensitivity
– Most likely because of power supply noise or coupling on D Solution: Buffer D locally 0y
QD
0
weakVDD
VDD
CMOS VLSI Design16: Circuit Pitfalls Slide 26
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Bad Circuit 9Bad Circuit 9 Circuit Symptom Circuit
– Anything Symptom
– Some gates are slower than expected
Principle:
CMOS VLSI Design16: Circuit Pitfalls Slide 27
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Bad Circuit 9Bad Circuit 9 Circuit Symptom Circuit
– Anything Symptom
– Some gates are slower than expected
Principle: Hot Spots and Power Supply Noise
CMOS VLSI Design16: Circuit Pitfalls Slide 28
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NoiseNoise Sources Sources
– Power supply noise / ground bounceC iti li– Capacitive coupling
– Charge sharingL k– Leakage
– Noise feedthrough C Consequences
– Increased delay (for noise to settle out)– Or incorrect computations
CMOS VLSI Design16: Circuit Pitfalls Slide 29
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ReliabilityReliability Hard Errors Hard Errors Soft Errors
F
InfantUseful
W
Failure Rat
InfantMortality
OperatingLife
WearOut
te
Time
CMOS VLSI Design16: Circuit Pitfalls Slide 30
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ElectromigrationElectromigration “Electron wind” causes movement of metal atoms Electron wind causes movement of metal atoms
along wires Excessive electromigration leads to open circuitsg p Most significant for unidirectional (DC) current
– Depends on current density Jdc (current / area)y dc ( )– Exponential dependence on temperature
aEkTe– Black’s Equation:
2
kT
ndc
eMTTFJ
MTTF: Mean Time To Failures
– Typical limits: Jdc < 1 – 2 mA / m2
See videos
CMOS VLSI Design16: Circuit Pitfalls Slide 31
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Self HeatingSelf-Heating Current through wire resistance generates heat Current through wire resistance generates heat
– Oxide surrounding wires is a thermal insulatorH t t d t b ild i i– Heat tends to build up in wires
– Hotter wires are more resistive, slower S lf h ti li it AC t d iti f li bilit Self-heating limits AC current densities for reliability
2
0
( )T
I t dtI
– Typical limits: Jrms < 15 mA / m2
0rmsI
T
CMOS VLSI Design16: Circuit Pitfalls Slide 32
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Hot CarriersHot Carriers Electric fields across channel impart high energies to Electric fields across channel impart high energies to
some carriersThese “hot” carriers may be blasted into the gate– These hot carriers may be blasted into the gate oxide where they become trapped
– Accumulation of charge in oxide causes shift in VtAccumulation of charge in oxide causes shift in Vtover time
– Eventually Vt shifts too far for devices to operate y t pcorrectly
Choose VDD to achieve reasonable product lifetimeDD p– Worst problems for inverters and NORs with slow
input risetime and long propagation delays
CMOS VLSI Design16: Circuit Pitfalls Slide 33
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LatchupLatchup Latchup: positive feedback leading to V GND short Latchup: positive feedback leading to VDD DD – GND short
– Major problem for 1970’s CMOS processes before it ll d t dit was well understood
Avoid by minimizing resistance of body to GND / VDD
U l t f b t t d ll tA
YGND VDD
– Use plenty of substrate and well taps
n+
p substrate
p+
n well
n+p+ n+ p+
n well Rwell
Rwell Vwell
p substrate
substrate tapwell tap
Rsub
well
Vsub
Vwell RsubVsub
CMOS VLSI Design16: Circuit Pitfalls Slide 34
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Guard RingsGuard Rings Latchup risk greatest when diffusion to substrate Latchup risk greatest when diffusion-to-substrate
diodes could become forward-biased Surround sensitive region with guard ring to collect Surround sensitive region with guard ring to collect
injected charge
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OvervoltageOvervoltage High voltages can damage transistors High voltages can damage transistors
– Electrostatic dischargeO id i M t l li d– Oxide arcing Metal line damage
– PunchthroughTi d d t di l t i b kd (TDDB)– Time-dependent dielectric breakdown (TDDB)• Accumulated wear from tunneling currents
R i l V f hi id d h h l Requires low VDD for thin oxides and short channels Use ESD protection structures where chip meets
real orldreal world
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SummarySummary Static CMOS gates are very robust Static CMOS gates are very robust
– Will settle to correct value if you wait long enough Oth i it ff f i t f itf ll Other circuits suffer from a variety of pitfalls
– Tradeoff between performance & robustness V i t t t h k i it f itf ll Very important to check circuits for pitfalls
– For large chips, you need an automatic checker.D i l ’ h h h– Design rules aren’t worth the paper they are printed on unless you back them up with a tool.
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Soft ErrorsSoft Errors In 1970’s DRAMs were observed to occasionally flip In 1970’s, DRAMs were observed to occasionally flip
bits for no apparent reasonUltimately linked to alpha particles and cosmic– Ultimately linked to alpha particles and cosmic rays
Collisions with particles create electron-hole pairs in Collisions with particles create electron hole pairs in substrate– These carriers are collected on dynamic nodes, y ,
disturbing the voltage Minimize soft errors by having plenty of charge on y g p y g
dynamic nodes Tolerate errors through ECC, redundancy
CMOS VLSI Design16: Circuit Pitfalls Slide 38