Spdas1 vlsibput
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VLSI
• What is VLSI?– “Very Large Scale Integration”
• SSI – Small-Scale Integration (0-102)---1960• MSI – Medium-Scale Integration (102-103)---1967• LSI – Large-Scale Integration (103-105)---1972• VLSI – Very Large-Scale Integration (105-107)---1978• ULSI – Ultra Large-Scale Integration (>=107)---1989• GSI _ Giant Scale Integration (>=109)---2000
*Where these are given as no of transistors.
Integration Level Trends
Obligatory historical Moore’s law plot
• Integrated Circuits/MEMsHierarchy of various technology
Semiconductor process
Silicon GaAs
UnipolarBipolar UnipolarBipolar
ECL
TTL
NMOS PMOS
CMOS
Chips
• Integrated circuits consist of:– A small square or rectangular “die”, < 1mm thick
• Small die: 1.5 mm x 1.5 mm => 2.25 mm2
• Large die: 15 mm x 15 mm => 225 mm2
– Larger die sizes mean:• More logic, memory• Less volume• Less yield
– Dies are made from silicon (substrate)• Substrate provides mechanical support and
electrical common point
Advancements over the years
• © Intel 4004 Processor
• Introduced in 1971• 2300 Transistors• 108 KHz Clock
• © Intel P4 Processor• Introduced in 2000• 40 Million Transistors• 1.5GHz Clock
System Design Pyramid
• Photo-litho-graphy: latin: light-stone-writing
• Photolithography: an optical means for transferring patterns onto a substrate.
• Patterns are first transferred to a photoresist layer.
•Typically a wafer is about 8-10 inches in diameter.
Individual ICs are placed inside it.
Photolithography and Patterning
Photoresist is a liquid film that is spread out onto a substrate, exposed with a desired pattern, and developed into a selectively placed layer for subsequent processing.
• Photolithography is a binary pattern transfer: there is no gray-scale, color, nor depth to the image.
Steps
• Photo resist Coating (covering)
A light sensitive organic polymer (plastic)
• Mask/ Reticle formation
• Exposure to light (UV/X-RAY/E-BEAM)
WHAT IS A PHOTOMASK?
Photomasks are high precision plates containing microscopic images of
electronic circuits. Photomasks are made from very flat pieces of quartz or glass with a layer of chrome on one side. Etched in the chrome is a portion of an electronic circuit
design. This circuit design on the mask is also called geometry.
The Resist
The first step is to coat the Si/SiO2 wafer with a film of a light sensitive material, called a resist.
A resist must also be capable of high fidelity recording of the pattern (resolution) and durable enough to survive later process steps
Solvent Evaporates
Photolithography
Energy - causes (photo)chemical reactions that modify resist dissolution rate
Mask - blocks energy transmission to some areas of the resist
Aligner- aligns mask to previously exposed layers of the overall design
Resist - records the masked pattern of energy
Energy
Mask + Aligner
PhotoresistWafer
Next Generation LithographyIn 1996, five technology options were proposed for the 130 nm gate length technology:
•X-ray proximity Lithography (XPL)
•Extreme Ultraviolet (EUV)
•Electron Projection Lithography (EPL)
•Ion Projection Lithography (IPL)
•Direct-write lithography (EBDW).
These options were referred to as the next generation lithography.
MOSFET Design Rules
• Lambda based design Rule
• Micron Rule
Minimum width and Spacing
Layer Value
Poly 2L
Active 3L
N select 3L
Metal 3L
Stick Diagrams
Metal
poly
ndiff
pdiffCan also drawin shades of
gray/line style.
• Wiring Tracks
• A wiring track is the space required for a wire– 4 width, 4 spacing from neighbor = 8
pitch
• Transistors also consume one wiring track
• Well spacing
• Wells must surround transistors by 6 – Implies 12 between opposite transistor
flavors– Leaves room for one wire track
Basic Circuit Layout
Gnd
VDD
x x
X
X
X
X
VDD
x x
Gnd
Stick Diagra
m
Stick Diagrams
Layout Diagrams
Gnd
VDD
x x
X
X
X
X
VDD
x x
Gnd
Stick Diagrams
Example: Inverter
MOSFET Arrays and AOI GatesA B C
yx
y
x
A B C
Parallel Connected MOS Patterning
x
y
A B
X X X
A B
x
y
Alternate Layout Strategy
A B
x
y
X X
X X
x
A B
y
MOSFET Arrays and AOI Gates
NAND2 Layout
Gnd
Vp
ba.
a b
Vp
Gnd
X X X
X X
a b
ba.
NOR2 Layout
Gnd
Vp
ba
a b
Vp
Gnd
X X
ba
X X X
a
b
Stick Diagrams
Power
Ground
B
C
OutA
Cells, Libraries, and Hierarchical Design
• Creation of a Cell Library
x
Gnd
xX
X
X
X
X
X
X
X
VDD
X x x
X X X
X X
a
b
X
X
X
X
VDD
x
Gnd
X
.a b
.a b
Gnd
X X
ba
X X X
a
b
X
X
X
X
VDD
x a b
• Cell Placement• System Hierarchy (MOSFET-Gates-F/Fs-
Registers-Networks-Systems)• Floorplans and Interconnect Wiring• Y= (# of Good Chips/Total No)*100%• Y=Yield• ‘Y’ depends on total area=A, and no of
defects=D,
• Y=e *100%AD
Interconnects• Place and Route Algorithm.
• Wiring Delay
• td=kl2
• l=length of inter connect.td