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PA Snowmass 9/99 1
The Future ofField-Programmable
Gate ArraysPeter Alfke
Director, Applications EngineeringXilinx, Inc
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PA Snowmass 9/99 2
wThe future is exciting
wLe future est formidable
wDie Zukunft ist rosig
w Il futuro é fantastico
wEl futuro es formidable
wFramtiden är fantastisk
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PA Snowmass 9/99 3
Why Programmable Logic?
w Ideal for customized designs
w Offers the advantages of high integration— complexity, density, size— cost, power consumption, reliability
w Avoids the problems of ASICs— high NRE cost and long delay— testing problems— increasingly complex electrical issues
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PA Snowmass 9/99 4
Programmable Logic
w SPLDs (Simple Pogrammable Logic Devices =PALs)– $ 227 M, shrinking rapidly = 12% of a $1.955B market,
w CPLDs (Complex Programmable Logic Devices)– $ 688 M = 35%
w FPGAs (Field-Programmable Gate Arrays)— Anti-fuse-based FPGAs
– $ 183 M = 9%— SRAM-based FPGAs
– $ 859 M =44%, growing fast
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PA Snowmass 9/99 5
CPLDs
w AND-OR Structure, derived from PALs
w Advantages— fast pin-to-pin delays, wide input decoding— simple software, easy to understand
w Disadvantages— low complexity, few flip-flops— not scalable in size— high static power consumption ( except CoolRunner )
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PA Snowmass 9/99 6
Anti-Fuse Based FPGAs
w Gate-Array-like structure
w Advantages:— non-volatile, single-chip, instant-on— logic circuits tolerate radiation, — but flip-flops are SEU-sensitive
w Disadvantages— one-time programmable, slow programming— limited complexity, slow process evolution— second-tier suppliers, niche market
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PA Snowmass 9/99 7
SRAM-based FPGAs
w Gate-Array-like structure — look-up-table logic, medium granularity— configured by latches and pass-transistors
w Advantages— highest complexity, many flip-flops— re-configurable, rapid evolution (standard process)— main-stream market, major suppliers
w Disadvantages— Volatile, configuration is radiation-sensitive
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PA Snowmass 9/99 8
Design Alternatives
w Microprocessors— ideal, if fast enough
w Gates, MSI, PALs— inefficient, inflexible, outdated
w Dedicated Standard Chips and Chip Sets— cheap, but inflexible
w ASICs— only for rock-stable, very high-volume designs
w Programable Logic— for flexibility, reconfigurability, fast time-to-market
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PA Snowmass 9/99 9
ASICs Getting Less Attractive
w Non-Recurring Engineering cost increases— more masking steps, more expensive masks
w Minimum order quantities increase— larger wafers, smaller die
w Silicon capability often exceeds user needs
w Suppliers abandon unprofitable market
w Low-tech ASICs have lost their technicaladvantage over FPGAs
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PA Snowmass 9/99 10
User Expectations
w Logic capacity at reasonable cost— 50,000 to a million gates
w Clock speed— 100 MHz and above
w Design effort and time— synthesis, fast compile times, tested and proven cores
w Power consumption— must stay within reasonable limits
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PA Snowmass 9/99 11
FPGA History (XC4000)
w > 20x Bigger
w > 5x Faster
w > 50x Cheaper1/91 1/92 1/93 1/94 1/95 1/96 1/97 1/98 1/99
Year
CapacitySpeedPrice
1
10
100
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PA Snowmass 9/99 12
FPGA Density
Virtex V100075 million Transistors
Den
sity
(sys
tem
gat
es)
50M Gates
Virtex 0.13µ
XC40250XV
50M
2M
1M
500K
1998 1999 2000 2001 2002 2003 2004
4M Virtex 0.15µ
Virtex 0.18µ
10M
50 Million System Gates in 2004
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PA Snowmass 9/99 13
1997 1998 1999 2000 2001 2002
FPGA Speed
0
20
40
60
80
100
120
140
160
180
200
250
300
350
400
450Sy
stem
Clo
ck R
ate*
(MH
z)
4200 MHz D-P Memory4143 MHz ZBT SRAM I/F4155 MHz SONET4125 MHz SDRAM I/F4 66 MHz 64-bit PCI
*1/(Tsetup+Tclock-to-out)
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PA Snowmass 9/99 14
Three Pillars of Progress
w Technology— smaller geometries, more and faster transistors— better defect densities, larger chips
w Architecture— system features: Memory, clocks, I/O— hierarchical interconnect
w Design Methodology— powerful and reliable cores, faster compile time— modular, team-based design, internet-based tools
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PA Snowmass 9/99 15
Recent Developments
w Deep sub-micron arrived earlier than expected— 0.5µ - 0.35µ - 0.25µ - 0.18µ - (0.15µ) -
w Better speed, density, cost “for free”
w Requires voltage migration— 5V - 3.3V - 2.5V - 1.8V - (1.5V) -
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PA Snowmass 9/99 16
Process TechnologyEvolution
Feat
ure
Size
(mic
ron)
5V
3.3V
2.5V1.8V
1.3V
1.2
1.0
0.8
0.6
0.4
0.2
0.1 1.0VV0.8V
1990 1992 1994 1996 1998 2000 2002 2004
1.5V
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PA Snowmass 9/99 17
Cutting-Edge Technology
w FPGA technology is in step with microprocessors,and benefits directly from their fast evolution
w 0.18 micron now, 0.15 in development
w Clear roadmap to 0.13, even 0.10 micron
w Copper technology in 2000
w Copper with low-k dielectric in 2001
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PA Snowmass 9/99 18
Chip Scale 0.8 mmFinePitch BGA 1.0 mm
Flip ChipTechnology
PLCC
PGAPQFP
HQFP
BGA
SBGA
FPGA Packages
1.0mm
1.27mm
100
300
500
700
1000
Pins
1997 1998 1999 2000 2002
FinePitchBGAs
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PA Snowmass 9/99 19
A System-Level SolutionNot Just a High Density Device
2 System Memory
3 SystemTiming
1 SystemIntegration
4 System Interfaces
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PA Snowmass 9/99 20
The FPGA Solution
4th Generation FPGALogic+Memory+Routing
Multi-Standard Select I/O
Temperature Sensing
Delay-Locked Loop for Fast Clock and I/O
3.3 ns SynchronousDual-Port SRAM
500 Mbps SelectMAP Configuration
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PA Snowmass 9/99 21
Memory
w Three-level memory hierarchy:— distributed 4-input look-up-table RAMs
– 16-bit single- and dual-port RAM– 16-bit shift register in Virtex
— versatile dual-port BlockRAMs– 4k x 1 to 256 x 16 format, selectable per port
— 200 MHz interface to large external RAMs
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PA Snowmass 9/99 22
High Performance ClockNetworks
Delay Locked Loops Synchronize on-chip and board level clocks
DLL1 DLL2
DLL3 DLL4
DeskewClockson Chip
Manage up to 4System Clocks
DeskewClocks
on Board
CascadeDLLs
GenerateClocks - multiply - divide - shift
4 DLLs in eachVirtex Device
ConvertClockLevelsusing
SelectI/O
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PA Snowmass 9/99 23
Multi-Standard Select I/OGTL+
5V Tolerant
2.5V SSTL
1.8V
3.3V LVTTL
5V
MicroProcessorMicroProcessor SRAMSRAM
DSPDSP
Mixed SignalMixed Signal
Busses/Backplanes(3/5V PCI, ISA, GTL…)
Busses/Backplanes(3/5V PCI, ISA, GTL…)
FLASHFLASH
SDRAMSDRAMSDRAM
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PA Snowmass 9/99 24
Virtex Supports17 I/O Standards
SDR
AM
SSTL
GT
L+
LVTTL
LVCMOSCTT
SRA
M
HSTL
Chip to ChipLVTTL, LVCMOS
Chip to MemorySSTL2-I, SSTL2-II, SSTL3-I,SSTL3-II, HSTL-I, HSTL-III,HSTL-IV, CTT
Chip to BackplanePCI66, PCI33-5V, PCI333.3V, GTL, GTL+, AGP
Select I/OTM TechnologyAny standard on any pinMultiple standards at once
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PA Snowmass 9/99 25
Interconnect Hierarchy
w Segmented interconnect structure reducesload capacitance and power consumption
w Four high-drive low-skew clock nets— each can drive all flip-flops and registers— each can be driven by its own DLL
w 24 additional low-skew global nets
w Horizontal bi-directional longlines
w Segmented lines between logic blocks
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PA Snowmass 9/99 26
HardwareProgrammable
Programmable SystemExample
Inherently Programmable
SSTL3
1x C
LK
2x C
LK
LVTTL
LVCMOS
GT
L+
2x CLK
SDR
AM
Backplane Logic
Tra
nsla
tors
Custom Logic
Clock Mgmt
OldFPGA
Glue Logic
OldFPGA
Cache Memory
Processor
100MHz System Performance
1M Gates
SoftwareProgrammable
Inherently Programmable
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PA Snowmass 9/99 27
Design Methodology
w Million-Gate Designs
Communication, Coordination and Integration!Communication, Coordination and Integration!
w Variety of Design Flows
w Multiple HDLs In Use
w Global Design Teams
This Requires…This Requires…
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PA Snowmass 9/99 28
Designer1Module
DesignReuse
Designer2Module
Designer3Module
Reduces Compile Time & Increases Performance
Modular Designw Autonomy between team
members
w High Level Floorplanning
w Modular Place and Route
w Modular Time Specs— With industry’s best timingconstraint language
w Modular Incremental Compile— Extensive R&D investment
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PA Snowmass 9/99 29
Internet-Based Design
w WebFITTER,— an Internet-based tool to evaluate CPLD designs
w Internet Team Design— for team-based design over the Internet/Intranet
w Internet Reconfigurable Logic— modify, upgrade, test, and repair FPGA-based systems
by downloading new configurations via the Internet
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PA Snowmass 9/99 30
System on an FPGA
VHDL DesignEnvironment
Verilog DesignEnvironment CoreGen
Designer#2 DSPDesigner
#1New
Modules FIFO
133MhzSDRAM
GbitEthernet
66MhzPCI
IP Modules
LogiCore
AllianceCore
CPU
DesignReuse
160 MHz I/O Performance133 MHz Memory Performance
1 Million System Gates
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PA Snowmass 9/99 31
Reconfigurable Logic
Spectrum of Reconfiguration
Once-and-awhile
Once in a while
Field Upgrades
Application
Multi-PersonalityProducts
Tasks
ReconfigurableComputing
Continuous
Evolving Logic
Turn-on
Adaptive Products
w Cost-effective field upgrades
w New business model
w New types of products
w Mind-boggling opportunities in the long term
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PA Snowmass 9/99 32
Reconfigurable Instrument
w Multipurpose instrumentcan be reconfigured in milliseconds
w Single box for multiple applications
w Painless change,upgrade,or fix— longer lifetime, lower cost
w Encourages experimentation— faster progress
w Extends system lifetime— lower cost
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PA Snowmass 9/99 33
Challenges
w PC-board interconnects and reflections
w Power consumption
w Radiation effects
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PA Snowmass 9/99 34
Moore Meets Einstein
Speed Doubles Every 5 Years…...But the speed of light never changes
’65 ’70 ’75 ’80 ’85 ’90 ’95 ’00 ’05 ’10
Year
Clock Frequency in MHz
Trace Length in cm per 1/4 clock period
2048
1024
512
256
128
64
32
16
8
4
2
1
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PA Snowmass 9/99 35
Transmission Lines
w Some traces must be treated as transmission linesto minimize ringing— transmission line if round trip > transition time— lumped-capacitance if round trip < transition
time
w Signal delay on a PCB:— 140 to 180 ps per inch ( 50 to 70 ps/cm)
w Lumped-capacitance trace length:— 3 inches max for a 1-ns transition time (7.5 cm)— 6 inches max for a 2-ns transition time (15 cm)
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PA Snowmass 9/99 36
Evolution
2010(?)
1000
0.05
10
25
8-16
1995
100
0.5
3
100
4-8
1980
10
5
2
500
2-4
1965
1
-
1
2000
1-2
Max Clock Rate (MHz)
Min IC Geometries (µ)
# of IC Metal Layers
PC Board Trace Width (µ)
# of PC-Board Layers
w Every 5 years: System speed doubles, IC geometry shrinks 50%
w Every 7-8 years: PC-board minimum trace width shrinks 50%
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PA Snowmass 9/99 37
Power Consumption
w Power and heat are serious concerns
w All CMOS power consumption is dynamic— proportional to capacitance = device utilization— proportional to clock frequency— proportional to Vcc2
w Virtex conserves power— 2.5 V ( 1.8 V) supply, small geometries reduce capacitance— built-in temperature-sensing diode for thermal management
w Airflow and heatsink achieve <10 / W
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PA Snowmass 9/99 38
Radiation Effects
w Xilinx XQR-series devices use7-micron epitaxial layer to eliminatelatch-up at LET up to 120 MeVcm2/mg
w Single-Event Upset (SEU) rates have beenmeasured and reported
w FPGAs are being designed into aircraft and LowEarth Orbit Satellites (LEOS)
See www.xilinx.com/products/hirel_qml.htm#Radiation_Hardened
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PA Snowmass 9/99 39
Living with Single-Event Upsets
w Read back configuration in <100 ms— readback does not interfere with normal operation
w Error detection— serial bit-comparison against original configuration— abort and reconfigure whenever an error is detected
w Error correction— use triple redundancy to sustain operation— internal triple redundancy and fast partial reconfiguration
in Virtex devices
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Conclusion
w SRAM-based FPGAs are the fastest-growingIC product category
w Technology equals that used for the mostadvanced microprocessors and memories
w Offers fast time-to-market and low design risk
w Density, speed, and cost challenge ASICs
w Reconfigurability is a unique advantage
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This is the
Dawning of the Age
of Programmable Logic