1. XC9500XL New 3.3v ISP CPLDs

2. XILINX Products XILINX CPLDs FPGAs Software SPROMs Cores HardWire
Hi-Rel
CPLDs
Xilinx offerings an entire host of PLDs solutions, including CPLDs. The FastFLASH products now have a new family to include in their product portfolio -- the XC9500XL. These new 3.3V ISP CPLDs are Flash-based and now complement a total 3.3v PLD solution for our customers.
XC9500XL
XC9500

3. Total Product Life Cycle Support
Intuitive, Productive Design Flows
High-Performance ISP
ISP/JTAG for Manufacturing, Test & Field Upgrades
Flash Technology for Highest Programming Reliability
Lowest Cost
Proto-
typing
Field
Upgrades
Manufacturing/Test
Product
Life Cycle
The same, basic credo exists for the entire FastFLASH family -- provide the user with TOTAL PRODUCT LIFE CYCLE SUPPORT. And do it better than any other CPLD supplier! Every step of the cycle is supported with the best features:
1. Software that has easy, intuitive flows
2. High speed ISP (4ns/200MHz)
3. ISP/JTAG that’s designed for every step of the cycle
4. The best and latest technology, Flash, which addresses the field upgrade and overall reliability issues better than older EEPROM technology
5. A resulting cost structure which is the lowest in the industry, giving our users the best prices and value of any CPLD.

4. XC9500XL Key Features High performance 36 to 288 macrocell densities
tPD = 4ns, fSYS = 200MHz
36 to 288 macrocell densities
Highest programming reliability
10,000 program/erase cycles
Most complete IEEE JTAG support
Space-efficient packaging, including chip scale pkg
Industry’s first 0.35um Flash CPLD
This lists the major, key features of the new 9500XL product family.
Focus on the speed leadership. Also, point out that by using Flash technology, we can offer the best programming reliability (key for 50% of the CPLD applications today -- FIELD UPGRADES) as well as the lowest cost.
CSP is leadership and only Xilinx has the 0.8mm ball-to-ball spacing. More on this in a later slide.

5. XC9500XL Architecture Embraces In-System Changes
Advanced, 2nd Generation Pin-Locking
Superior routability with speed
Maximum Flexibility
54-input function block fan-in
90 p-terms per output
3 global, locally invertible clocks
global set/reset pin
p-term OE per macrocell
clock enable
The XC9500XL architecture is an enhancement of the popular XC9500 architecture, considered by many to be the most flexible architecture on the market-- for accommodating unexpected in-system changes!
Pin-locking continues to improve, with the XL incorporating an even better pin-locking performance. This comes as a result of an enhanced interconnect, more inputs to the function block and significantly enhanced routing software.
To make the 9500XL family THE most flexible (I.e., best at accommodating design changes while improving speed), we’ve provided this long list of industry leading architecture features. Especially key are the 54 function block inputs. The increase (with the 9500 having 36 inputs) provides more inputs to the function block, better overall utilization and better pin-locking. Only XILINX has 54 function block inputs! 5

6. XC9500XL System Features I/O Flexibility Input hysteresis on all pins
5v tolerant; direct interface to 3.3v & 2.5v
Input hysteresis on all pins
User programmable grounds
Bus hold circuitry for simple bus interface
Easy ATE integration for ISP & JTAG
fast, concurrent programming times
This list itemizes all the great system features that are available on the XC9500XL as is specifically targeted at meeting the system designer’s needs. Each feature is designed to help the actual application of incorporating a CPLD onto the system board.

7. New XC9500XL 3.3V Family XC9536XL XC9572XL XC95144XL XC95288XL
Macrocells 36 72
144
288
Usable Gates
800
1600
3200
6400
tPD (ns) 4 5 5 6
fSYSTEM
200
178
178
151
Packages
(Max. User
I/Os)
44PC (34)
64VQ (36)
48CS (36)
44PC (34)
64VQ(52)
100TQ (72)
48CS (38)
100TQ (81)
144TQ (117)
144CS (117)
144TQ (117)
208PQ (168)
352BG (192)
The family is planned with 4 devices in the most popular macrocell densities.
Note the full complement of pin-compatible package options. Each package has list in parenthesis the actual number of I/Os. Easy density migration is available for all like packages. This lowers the users risk when his/her design grows.
World class speed spec’s reflect the key attribute of this new 3.3V ISP family. Only Xilinx offers a 4ns tpd and system cycle speeds of 200MHz.
The family will become available starting 2H98, beginning with the XC95144XL. After that, the ‘72XL and ‘36XL will become available in end Q4C98. The 95288XL will be available in Q1C99.
BGA
CSP 9

8. XC9500XL Supports High-Speed Applications
Fast decode logic
DSP, SDRAM, CPU
High-frequency state machines
bus arbiter, data path controller
Leading-edge systems
networking
graphics
workstations
With the highest speeds, these leading edge applications become possible. 4

9. Most Complete JTAG Testability
IEEE Std boundary-scan
testability & advanced system debug/diagnosis
8 instructions supported (incl. CLAMP)
Full support on all family members
Industry-standard ISP interface
Complete 3rd party support
The XC9500XL family has the most complete, industry-standard JTAG boundary-scan capabilities -- supporting an important capability for all new system designs.
In addition to manufacturing test benefits, JTAG boundary-scan enhances development and debug as well, especially in complex, tightly packed systems. JTAG allows all internal nodes to be read out using only the 4 JTAG pins!
The XC9500XL (along with XC9500) is the only CPLD family to support full JTAG boundary-scan in the whole CPLD family -- even lower density devices!
The JTAG-based in-system programming (ISP) protocol allows compliance with emerging standards, such as the IEEE subcommittee formalizing a standard for ISP. 6

10. Chip Scale Packaging Leadership
Supports high-growth market segments: Communications, Computers, Consumer
New 48-pin CSP:
1/3 size of the VQ44
Xilinx has lead the industry again with the introduction of the small, space-efficient Chip Scale Package. The CSP solution is available on the 36XL/72XL and 144XL.
The smaller package makes it ideal for applications that require programmable logic in the smallest footprint possible.
Uses standard IR techniques for mounting to PC board

11. Productive Implementation Flow for CPLDs
Simplified Project Management
Implementation Templates for Speed & Density
Push Button Design Flows
USER BENEFITS
Faster Clock Speeds
Higher Device Utilization
optimized logic/cm2
Industry’s Best Pin-Locking
more design flexibility, less risk, lower cost
The new v1.5 software provides CPLD designers with one of the industry best design flows available today. From the simple project manager, to the ready-built speed and density templates, and the push-button design flow manager, Xilinx CPLD software provides the designer with an excellent solution.
These enhancement apply to both Foundation and Alliance software solutions from Xilinx.

12. Xilinx CPLD Process Leadership
Non-Volatile
Year used in
Year used in
SPLD/CPLD
Technology
Memories
SPLD/CPLD
Pioneer
Bipolar Fuse
1973
1978
MMI (AMD)
EPROM
1979
1984
Altera EP-series
5V EEPROM
1986
1991
Lattice ispLSI
5V FLASH
1990
1995
Xilinx XC9500
With each change in non-volatile technology comes a new application and also a new product leader. With bipolar fuse technology, MMI lead the way in SPLDs. With the invent of EPROM memory technology, Altera applied it to CPLDs and quickly became the CPLD leader (still applies today). When 5V EEPROM memory technology was introduced, 5 years later Lattice applied it well to ISP CPLDs.
But times and technologies have moved on.
XILINX saw this change and was the first PLD vendor to move to 5v ISP Flash technology. Based on the technology trends of the past, plus the significant benefits of Flash both in memories and logic, XILINX is perfectly positioned to become the next leader in CPLDs.
3.3V FLASH
1993
1998
Xilinx XC9500XL

13. Xilinx Has Fastest CPLDs with Smallest Die Size
True 3.3V 0.35µm
Small Die
(0.35µm metal)
Degraded 5V
Inefficient 3.3V
Large Die
Lattice ispLSI2000V
Altera Max7000A
Only the Xilinx Flash-based CPLD products are TRUE 0.35 micron technology. Competitive CPLDs aren’t really true 0.35 micron, as the graph shows, and results in either a larger die (weakens their cost competitiveness) or slower speeds (lose out at fast system designs).
Lattice die are 0.5 micron drawn from a derated 5v part yielding a very slow 3.3v device. Vantis devices are faster than Lattice but their metal technology (0.5 micron) makes for a large, expensive die. Altera is the next fastest 3.3V device but they too have larger metal technology, resulting in a big die.
The Xilinx 0.35 micron Flash process includes both gate length and metal dimensions, something that none of the other CPLD vendors can match. The result is that Xilinx has the smallest 0.35 micron die which provides the lowest cost solution as well as supporting the fastest device speeds.
(0.5µm metal)
Vantis Mach5LV
Slow
Fast
(0.5µm drawn length)
(0.35µm drawn length)

14. Xilinx Lowering Cost Across The Supply Chain
LEADING EDGE
TECHNOLOGY
STREAM-LINED
OPERATIONS
“MEMORY STYLE”
MANUFACTURING
1st with Flash ISP
Only true 0.35um
Apply memory
R&D advantages
to CPLDs
Long-term foundry
agreements
Stream-lined device/pkg
offerings
High volume packages
10ns slowest speed grade
Off-shore sort, test and
assembly
Multi-site parallel test
Fast time-to-market
Xilinx has a very aggressive supply chain management program aimed at reducing cost, providing high volumes of product, in the right product options.
Our Flash technology benefits are numerous and proven out by all the major memory vendors today. Operations are streamlined for efficiency and our manufacturing flow is set up very much like the way memories are handled today. All this supports our strategy of providing the most cost efficient CPLD in the industry. 9

15. New Price Points Open Up New CPLD Applications
Motherboards for PCs and servers
PC peripherals and add-on cards
DVD players/controller cards
Graphics cards
Automotive
Engine control
Automotive navigation systems (GPS)
Consumer
Coffeemakers
Video Games/Toys
These new cost points, supported by our technology and supply chain management strategies, allow users that haven’t designed with CPLDs previous now to do so. Densities, ease-of-use and now lower prices make CPLDs the logic of choice for almost every cost sensitive application.

16. XC9500XL The Complete CPLD Solution
Product Life Cycle Support
Flexible 3.3v ISP Architecture
New Leadership Features
Productive Software
Lowest Cost Solution
Today, Xilinx has moved from a supplier of CPLDs to a position of leadership in both 3.3v and 5v CPLDs. Lead by the XC9500XL 3.3v ISP CPLDs, and together with our software, Xilinx provides logic users the industry’s best SOLUTION today.

17. XC9500XL Appendix

18. 3.3V ISP CPLD Comparison 32 to 288 Macrocells
Xilinx
XC9500XL
Altera
Max7000AE
Lattice
isp2000V
Vantis
Mach4LV
Description
Macrocell range (<= 288)
Number of user I/O pins
Best tPD
Best fMAX
Architecture
Maximum block fan-in
Max p-terms/macrocell
Local clock inversion
Individual OE per output
Reliability
Endurance Rating (cycles)
Data Retention (years)
Process Technology
4ns
200MHz 54 90
Yes
10,000
20 yrs
FLASH
5ns
178MHz 36 32 No
100
10 yrs
EEPROM
7.5ns
100MHz 18 20 No
10,000
20 yrs
EEPROM
7.5ns
125MHz 34 20 No
100
10 yrs
EEPROM 62

19. FastFLASHTM 3.3V Die Size Leadership
Max7128A
128 Macrocells
EEPROM
XC95144XL
144 Macrocells
FLASH
1.0x*
1.18x*
* Factor based on per macrocell comparison

20. Leadership CPLD Pricing
Device
Macrocells
Price
Price/MC
XC9536XL 36
$ 1.20
$0.03
XC9572XL 72
$ 1.85
$0.03
XC95144XL
144
$ 5.65
$0.04
XC95288XL
288
$11.95
$0.04
Note: Pricing for 100,000 unit quantities in mid-1999