Actel AGLP125-V5FCS289I Igloo plus low-power flash fpgas with flashfreeze technology Datasheet

IGLOO PLUS Low-Power Flash FPGAs
with Flash*Freeze Technology
Features and Benefits
High-Performance Routing Hierarchy
Low Power
Advanced I/O
1.2 V to 1.5 V Core Voltage Support for Low Power
Supports Single-Voltage System Operation
5 µW Power Consumption in Flash*Freeze Mode
Low-Power Active FPGA Operation
Flash*Freeze Technology Enables Ultra-Low Power
Consumption while Maintaining FPGA Content
• Configurable Hold Previous State, Tristate, HIGH, or LOW
State per I/O in Flash*Freeze Mode
• Easy Entry To / Exit From Ultra-Low-Power Flash*Freeze Mode
Feature Rich
• 30 k to 125 k System Gates
• Up to 36 kbits of True Dual-Port SRAM
• Up to 212 User I/Os
Reprogrammable Flash Technology
130-nm, 7-Layer Metal, Flash-Based CMOS Process
Live-at-Power-Up (LAPU) Level 0 Support
Single-Chip Solution
Retains Programmed Design When Powered Off
In-System Programming (ISP) and Security
• Secure ISP Using On-Chip 128-Bit Advanced Encryption
Standard (AES) Decryption via JTAG (IEEE 1532–compliant)†
• FlashLock® to Secure FPGA Contents
• Segmented, Hierarchical Routing and Clock Structure
• 1.2 V, 1.5 V, 1.8 V, 2.5 V, and 3.3 V Mixed-Voltage Operation
• Bank-Selectable I/O Voltages—4 Banks per Chip on All
• Single-Ended
3.3 V / 2.5 V / 1.8 V / 1.5 V / 1.2 V
• Selectable Schmitt Trigger Inputs
• I/O Registers on Input, Output, and Enable Paths
• Hot-Swappable and Cold-Sparing I/Os
• Programmable Output Slew Rate and Drive Strength
• Weak Pull-Up/-Down
• IEEE 1149.1 (JTAG) Boundary Scan Test
• Pin-Compatible Small-Footprint Packages across the IGLOO
PLUS Family
Clock Conditioning Circuit (CCC) and PLL
• Six CCC Blocks, One with an Integrated PLL
• Configurable
Shift, Multiply/Divide,
Capabilities, and External Feedback
• Wide Input Frequency Range (1.5 MHz up to 250 MHz)
Embedded Memory
• 1 kbit of FlashROM User Nonvolatile Memory
• SRAMs and FIFOs with Variable-Aspect-Ratio 4,608-Bit RAM
Blocks (×1, ×2, ×4, ×9, and ×18 organizations)†
• True Dual-Port SRAM (except ×18)†
Table 1-1 • IGLOO PLUS Product Family
System Gates
30 k
60 k
125 k
Typical Equivalent Macrocells
VersaTiles (D-flip-flops)
Flash*Freeze Mode (typical, µW)
RAM kbits (1,024 bits)
4,608-Bit Blocks
Secure (AES) ISP
FlashROM Bits
VersaNet Globals 2
I/O Banks
CS201, CS289
CS201, CS289
CS281, CS289
Integrated PLL in CCCs
Maximum User I/Os
Package Pins
1. AGLP060 in CS201 does not support the PLL.
2. Six chip (main) and twelve quadrant global networks are available for AGLP060 and AGLP125.
† The AGLP030 device does not support this feature.
December 2008
© 2008 Actel Corporation
I/Os Per Package 1
Single-Ended I/Os
Note: When the Flash*Freeze pin is used to directly enable Flash*Freeze mode and not used as a regular I/O, the number of
single-ended user I/Os available is reduced by one.
Table 1-2 • Package Dimensions
10 × 10
14 × 14
14 × 14
20 × 20
Pitch (mm)
Height (mm)
Length × Width (mm/mm)
Nominal Area (mm
IGLOO PLUS Low-Power Flash FPGAs
IGLOO PLUS Ordering Information
Application (Temperature Range)
Blank = Commercial (0°C to +70°C ambient temperature)
I = Industrial (–40°C to +85°C ambient temperature)
PP = Pre-Production
ES = Engineering Sample (room temperature only)
Package Lead Count
Lead-Free Packaging
Blank = Standard Packaging
G= RoHS-Compliant Packaging
Package Type
CS = Chip Scale Package (0.5 mm and 0.8 mm pitches)
VQ = Very Thin Quad Flat Pack (0.4 mm pitch)
Speed Grade
F = 20% Slower than Standard*
Blank = Standard
Supply Voltage
2 = 1.2 V to 1.5 V
5 = 1.5 V only
Part Number
AGLP030 = 30,000 System Gates
AGLP060 = 60,000 System Gates
AGLP125 = 125,000 System Gates
1. Marking information: IGLOO PLUS V2 devices do not have a V2 marking, but IGLOO PLUS V5 devices are marked
2. The DC and switching characteristics for the –F speed grade targets are based only on simulation.
The characteristics provided for the –F speed grade are subject to change after establishing FPGA specifications. Some
restrictions might be added and will be reflected in future revisions of this document. The –F speed grade is only
supported in the Commercial temperature range.
3. "G" indicates RoHS-compliant packages.
Temperature Grade Offerings
C, I
C, I
C, I
C, I
C, I
C, I
C, I
C, I
1. C = Commercial temperature range: 0°C to 70°C ambient temperature.
2. I = Industrial temperature range: –40°C to 85°C ambient temperature.
Speed Grade and Temperature Grade Matrix
Temperature Grade
–F 1
1. The characteristics provided for the –F speed grade are subject to change after establishing FPGA specifications. Some
restrictions might be added and will be reflected in future revisions of this document. The –F speed grade is only
supported in the Commercial temperature range.
2. C = Commercial temperature range: 0°C to 70°C ambient temperature.
3. I = Industrial temperature range: –40°C to 85°C ambient temperature.
Contact your local Actel representative for device availability:
1 – IGLOO PLUS Device Family Overview
General Description
The IGLOO PLUS family of flash FPGAs, based on a 130 nm flash process, offers the lowest power
FPGA, a single-chip solution, small-footprint packages, reprogrammability, and an abundance of
advanced features.
The Flash*Freeze technology used in IGLOO PLUS devices enables entering and exiting an ultralow-power mode that consumes as little as 5 µW while retaining the design information, SRAM
content, registers, and I/O states. Flash*Freeze technology simplifies power management through
I/O and clock management with rapid recovery to operation mode.
The Low Power Active capability (static idle) allows for ultra-low-power consumption while the
IGLOO PLUS device is completely functional in the system. This allows the IGLOO PLUS device to
control system power management based on external inputs (e.g., scanning for keyboard stimulus)
while consuming minimal power.
Nonvolatile flash technology gives IGLOO PLUS devices the advantage of being a secure, lowpower, single-chip solution that is live at power-up (LAPU). IGLOO PLUS is reprogrammable and
offers time-to-market benefits at an ASIC-level unit cost.
These features enable designers to create high-density systems using existing ASIC or FPGA design
flows and tools.
IGLOO PLUS devices offer 1 kbit of on-chip, reprogrammable, nonvolatile FlashROM storage as well
as clock conditioning circuitry based on an integrated phase-locked loop (PLL). IGLOO PLUS devices
have up to 125 k system gates, supported with up to 36 kbits of true dual-port SRAM and up to 212
user I/Os. The AGLP030 devices have no PLL or RAM support.
Flash*Freeze Technology
The IGLOO PLUS device offers unique Flash*Freeze technology, allowing the device to enter and
exit ultra-low-power Flash*Freeze mode. IGLOO PLUS devices do not need additional components
to turn off I/Os or clocks while retaining the design information, SRAM content, registers, and I/O
states. Flash*Freeze technology is combined with in-system programmability, which enables users
to quickly and easily upgrade and update their designs in the final stages of manufacturing or in
the field. The ability of IGLOO PLUS V2 devices to support a wide range of core and I/O voltages
(1.2 V to 1.5 V) allows further reduction in power consumption, thus achieving the lowest total
system power.
During Flash*Freeze mode, each I/O can be set to the following configurations: hold previous state,
tristate, or set as HIGH or LOW.
The availability of low-power modes, combined with reprogrammability, a single-chip and singlevoltage solution, and availability of small-footprint, high-pin-count packages, make IGLOO PLUS
devices the best fit for portable electronics.
Flash Advantages
Low Power
IGLOO PLUS devices exhibit power characteristics similar to those of an ASIC, making them an ideal
choice for power-sensitive applications. IGLOO PLUS devices have only a very limited power-on
current surge and no high-current transition period, both of which occur on many FPGAs.
IGLOO PLUS devices also have low dynamic power consumption to further maximize power savings;
power is even further reduced by the use of a 1.2 V core voltage.
Low dynamic power consumption, combined with low static power consumption and Flash*Freeze
technology, gives the IGLOO PLUS device the lowest total system power offered by any FPGA.
IGLOO PLUS Device Family Overview
The nonvolatile, flash-based IGLOO PLUS devices do not require a boot PROM, so there is no
vulnerable external bitstream that can be easily copied. IGLOO PLUS devices incorporate FlashLock,
which provides a unique combination of reprogrammability and design security without external
overhead, advantages that only an FPGA with nonvolatile flash programming can offer.
IGLOO PLUS devices (except AGLP030) utilize a 128-bit flash-based lock and a separate AES key to
secure programmed intellectual property and configuration data. In addition, all FlashROM data in
IGLOO PLUS devices can be encrypted prior to loading, using the industry-leading AES-128
(FIPS192) bit block cipher encryption standard. AES was adopted by the National Institute of
Standards and Technology (NIST) in 2000 and replaces the 1977 DES standard. IGLOO PLUS devices
have a built-in AES decryption engine and a flash-based AES key that make them the most
comprehensive programmable logic device security solution available today. IGLOO PLUS devices
with AES-based security allow for secure, remote field updates over public networks such as the
Internet, and ensure that valuable IP remains out of the hands of system overbuilders, system
cloners, and IP thieves. The contents of a programmed IGLOO PLUS device cannot be read back,
although secure design verification is possible.
Security, built into the FPGA fabric, is an inherent component of the IGLOO PLUS family. The flash
cells are located beneath seven metal layers, and many device design and layout techniques have
been used to make invasive attacks extremely difficult. The IGLOO PLUS family, with FlashLock and
AES security, is unique in being highly resistant to both invasive and noninvasive attacks. Your
valuable IP is protected and secure, making remote ISP possible. An IGLOO PLUS device provides
the most impenetrable security for programmable logic designs.
Single Chip
Flash-based FPGAs store their configuration information in on-chip flash cells. Once programmed,
the configuration data is an inherent part of the FPGA structure, and no external configuration
data needs to be loaded at system power-up (unlike SRAM-based FPGAs). Therefore, flash-based
IGLOO PLUS FPGAs do not require system configuration components such as EEPROMs or
microcontrollers to load device configuration data. This reduces bill-of-materials costs and PCB
area, and increases security and system reliability.
The IGLOO PLUS devices can be operated with a 1.2 V or 1.5 V single-voltage supply for core and
I/Os, eliminating the need for additional supplies while minimizing total power consumption.
Live at Power-Up
The Actel flash-based IGLOO PLUS devices support Level 0 of the LAPU classification standard. This
feature helps in system component initialization, execution of critical tasks before the processor
wakes up, setup and configuration of memory blocks, clock generation, and bus activity
management. The LAPU feature of flash-based IGLOO PLUS devices greatly simplifies total system
design and reduces total system cost, often eliminating the need for CPLDs and clock generation
PLLs. In addition, glitches and brownouts in system power will not corrupt the IGLOO PLUS device's
flash configuration, and unlike SRAM-based FPGAs, the device will not have to be reloaded when
system power is restored. This enables the reduction or complete removal of the configuration
PROM, expensive voltage monitor, brownout detection, and clock generator devices from the PCB
design. Flash-based IGLOO PLUS devices simplify total system design and reduce cost and design
risk while increasing system reliability and improving system initialization time.
IGLOO PLUS flash FPGAs allow the user to quickly enter and exit Flash*Freeze mode. This is done
almost instantly (within 1 µs), and the device retains configuration and data in registers and RAM.
Unlike SRAM-based FPGAs, the device does not need to reload configuration and design state from
external memory components; instead, it retains all necessary information to resume operation
Reduced Cost of Ownership
Advantages to the designer extend beyond low unit cost, performance, and ease of use. Unlike
SRAM-based FPGAs, flash-based IGLOO PLUS devices allow all functionality to be live at power-up;
no external boot PROM is required. On-board security mechanisms prevent access to all the
programming information and enable secure remote updates of the FPGA logic. Designers can
perform secure remote in-system reprogramming to support future design iterations and field
1 -2
IGLOO PLUS Low-Power Flash FPGAs
upgrades with confidence that valuable intellectual property cannot be compromised or copied.
Secure ISP can be performed using the industry-standard AES algorithm. The IGLOO PLUS family
device architecture mitigates the need for ASIC migration at higher user volumes. This makes the
IGLOO PLUS family a cost-effective ASIC replacement solution, especially for applications in the
consumer, networking/communications, computing, and avionics markets.
Firm-Error Immunity
Firm errors occur most commonly when high-energy neutrons, generated in the upper atmosphere,
strike a configuration cell of an SRAM FPGA. The energy of the collision can change the state of the
configuration cell and thus change the logic, routing, or I/O behavior in an unpredictable way.
These errors are impossible to prevent in SRAM FPGAs. The consequence of this type of error can be
a complete system failure. Firm errors do not exist in the configuration memory of IGLOO PLUS
flash-based FPGAs. Once it is programmed, the flash cell configuration element of IGLOO PLUS
FPGAs cannot be altered by high-energy neutrons and is therefore immune to them. Recoverable
(or soft) errors occur in the user data SRAM of all FPGA devices. These can easily be mitigated by
using error detection and correction (EDAC) circuitry built into the FPGA fabric.
Advanced Flash Technology
The IGLOO PLUS family offers many benefits, including nonvolatility and reprogrammability,
through an advanced flash-based, 130 nm LVCMOS process with seven layers of metal. Standard
CMOS design techniques are used to implement logic and control functions. The combination of
fine granularity, enhanced flexible routing resources, and abundant flash switches allows for very
high logic utilization without compromising device routability or performance. Logic functions
within the device are interconnected through a four-level routing hierarchy.
IGLOO PLUS family FPGAs utilize design and process techniques to minimize power consumption in
all modes of operation.
Advanced Architecture
The proprietary IGLOO PLUS architecture provides granularity comparable to standard-cell ASICs.
The IGLOO PLUS device consists of five distinct and programmable architectural features
(Figure 1-1 on page 1-4):
Flash*Freeze technology
FPGA VersaTiles
Dedicated FlashROM
Dedicated SRAM/FIFO memory†
Extensive CCCs and PLLs†
Advanced I/O structure
The FPGA core consists of a sea of VersaTiles. Each VersaTile can be configured as a three-input
logic function, a D-flip-flop (with or without enable), or a latch by programming the appropriate
flash switch interconnections. The versatility of the IGLOO PLUS core tile as either a three-input
lookup table (LUT) equivalent or a D-flip-flop/latch with enable allows for efficient use of the FPGA
fabric. The VersaTile capability is unique to the Actel ProASIC family of third-generationarchitecture flash FPGAs. VersaTiles are connected with any of the four levels of routing hierarchy.
Flash switches are distributed throughout the device to provide nonvolatile, reconfigurable
interconnect programming. Maximum core utilization is possible for virtually any design.
In addition, extensive on-chip programming circuitry allows for rapid, single-voltage (3.3 V)
programming of IGLOO PLUS devices via an IEEE 1532 JTAG interface.
The AGLP030 device does not support PLL or SRAM.
IGLOO PLUS Device Family Overview
Bank 0
Bank 3
Bank 1
RAM Block
4,608-Bit Dual-Port
SRAM or FIFO Block*
Bank 1
Bank 3
User Nonvolatile
Bank 2
* Not supported by AGLP030 devices
Figure 1-1 • IGLOO PLUS Device Architecture Overview with Four I/O Banks (AGLP030, AGLP060, and
Flash*Freeze Technology
The IGLOO PLUS device has an ultra-low-power static mode, called Flash*Freeze mode, which
retains all SRAM and register information and can still quickly return to normal operation.
Flash*Freeze technology enables the user to quickly (within 1 µs) enter and exit Flash*Freeze mode
by activating the Flash*Freeze pin while all power supplies are kept at their original values. In
addition, I/Os and global I/Os can still be driven and can be toggling without impact on power
consumption, clocks can still be driven or can be toggling without impact on power consumption,
and the device retains all core registers, SRAM information, and I/O states. I/Os can be individually
configured to either hold their previous state or be tristated during Flash*Freeze mode.
Alternatively, they can be set to a certain state using weak pull-up or pull-down I/O attribute
configuration. No power is consumed by the I/O banks, clocks, JTAG pins, or PLL, and the device
consumes as little as 5 µW in this mode.
Flash*Freeze technology allows the user to switch to Active mode on demand, thus simplifying the
power management of the device.
The Flash*Freeze pin (active low) can be routed internally to the core to allow the user's logic to
decide when it is safe to transition to this mode. Refer to Figure 1-2 for an illustration of
1 -4
IGLOO PLUS Low-Power Flash FPGAs
entering/exiting Flash*Freeze mode. It is also possible to use the Flash*Freeze pin as a regular I/O if
Flash*Freeze mode usage is not planned.
Mode Control
Flash*Freeze Pin
Figure 1-2 • IGLOO PLUS Flash*Freeze Mode
The IGLOO PLUS core consists of VersaTiles, which have been enhanced beyond the ProASICPLUS®
core tiles. The IGLOO PLUS VersaTile supports the following:
All 3-input logic functions—LUT-3 equivalent
Latch with clear or set
D-flip-flop with clear or set
Enable D-flip-flop with clear or set
Refer to Figure 1-3 for VersaTile configurations.
LUT-3 Equivalent
D-Flip-Flop with Clear or Set
Enable D-Flip-Flop with Clear or Set
Figure 1-3 • VersaTile Configurations
User Nonvolatile FlashROM
Actel IGLOO PLUS devices have 1 kbit of on-chip, user-accessible, nonvolatile FlashROM. The
FlashROM can be used in diverse system applications:
Internet protocol addressing (wireless or fixed)
System calibration settings
Device serialization and/or inventory control
Subscription-based business models (for example, set-top boxes)
Secure key storage for secure communications algorithms
Asset management/tracking
Date stamping
Version management
The FlashROM is written using the standard IGLOO PLUS IEEE 1532 JTAG programming interface.
The core can be individually programmed (erased and written), and on-chip AES decryption can be
used selectively to securely load data over public networks (except in AGLP030 devices), as in
security keys stored in the FlashROM for a user design.
IGLOO PLUS Device Family Overview
The FlashROM can be programmed via the JTAG programming interface, and its contents can be
read back either through the JTAG programming interface or via direct FPGA core addressing. Note
that the FlashROM can only be programmed from the JTAG interface and cannot be programmed
from the internal logic array.
The FlashROM is programmed as 8 banks of 128 bits; however, reading is performed on a byte-bybyte basis using a synchronous interface. A 7-bit address from the FPGA core defines which of the 8
banks and which of the 16 bytes within that bank are being read. The three most significant bits
(MSBs) of the FlashROM address determine the bank, and the four least significant bits (LSBs) of
the FlashROM address define the byte.
The Actel IGLOO PLUS development software solutions, Libero® Integrated Design Environment
(IDE) and Designer, have extensive support for the FlashROM. One such feature is auto-generation
of sequential programming files for applications requiring a unique serial number in each part.
Another feature allows the inclusion of static data for system version control. Data for the
FlashROM can be generated quickly and easily using Actel Libero IDE and Designer software tools.
Comprehensive programming file support is also included to allow for easy programming of large
numbers of parts with differing FlashROM contents.
IGLOO PLUS devices (except AGLP030 devices) have embedded SRAM blocks along their north side.
Each variable-aspect-ratio SRAM block is 4,608 bits in size. Available memory configurations are
256×18, 512×9, 1k×4, 2k×2, and 4k×1 bits. The individual blocks have independent read and write
ports that can be configured with different bit widths on each port. For example, data can be sent
through a 4-bit port and read as a single bitstream. The embedded SRAM blocks can be initialized
via the device JTAG port (ROM emulation mode) using the UJTAG macro (except in AGLP030
In addition, every SRAM block has an embedded FIFO control unit. The control unit allows the
SRAM block to be configured as a synchronous FIFO without using additional core VersaTiles. The
FIFO width and depth are programmable. The FIFO also features programmable Almost Empty
(AEMPTY) and Almost Full (AFULL) flags in addition to the normal Empty and Full flags. The
embedded FIFO control unit contains the counters necessary for generation of the read and write
address pointers. The embedded SRAM/FIFO blocks can be cascaded to create larger configurations.
IGLOO PLUS devices provide designers with very flexible clock conditioning circuit (CCC)
capabilities. Each member of the IGLOO PLUS family contains six CCCs. One CCC (center west side)
has a PLL. The AGLP030 device does not have a PLL or CCCs; it contains only inputs to six globals.
The six CCC blocks are located at the four corners and the centers of the east and west sides. One
CCC (center west side) has a PLL.
The four corner CCCs and the east CCC allow simple clock delay operations as well as clock spine
The inputs of the six CCC blocks are accessible from the FPGA core or from one of several inputs
located near the CCC that have dedicated connections to the CCC block.
The CCC block has these key features:
Wide input frequency range (fIN_CCC) = 1.5 MHz up to 250 MHz
Output frequency range (fOUT_CCC) = 0.75 MHz up to 250 MHz
2 programmable delay types for clock skew minimization
Clock frequency synthesis (for PLL only)
Additional CCC specifications:
1 -6
Internal phase shift = 0°, 90°, 180°, and 270°. Output phase shift depends on the output
divider configuration (for PLL only).
Output duty cycle = 50% ± 1.5% or better (for PLL only)
Low output jitter: worst case < 2.5% × clock period peak-to-peak period jitter when single
global network used (for PLL only)
Maximum acquisition time is 300 µs (for PLL only)
IGLOO PLUS Low-Power Flash FPGAs
Exceptional tolerance to input period jitter—allowable input jitter is up to 1.5 ns (for PLL
Four precise phases; maximum misalignment between adjacent phases of 40 ps × 250 MHz /
fOUT_CCC (for PLL only)
Global Clocking
IGLOO PLUS devices have extensive support for multiple clocking domains. In addition to the CCC
and PLL support described above, there is a comprehensive global clock distribution network.
Each VersaTile input and output port has access to nine VersaNets: six chip (main) and three
quadrant global networks. The VersaNets can be driven by the CCC or directly accessed from the
core via multiplexers (MUXes). The VersaNets can be used to distribute low-skew clock signals or for
rapid distribution of high-fanout nets.
IGLOO PLUS Device Family Overview
I/Os with Advanced I/O Standards
The IGLOO PLUS family of FPGAs features a flexible I/O structure, supporting a range of voltages
(1.2 V, 1.5 V, 1.8 V, 2.5 V, and 3.3 V). IGLOO PLUS FPGAs support many different I/O standards.
The I/Os are organized into four banks. All devices in IGLOO PLUS have four banks. The
configuration of these banks determines the I/O standards supported.
Each I/O module contains several input, output, and output enable registers.
Part Number and Revision Date
Part Number 51700102-001-3
Revised December 2008
List of Changes
The following table lists critical changes that were made in the current version of the document.
Previous Version
Changes in Current Version (v1.3)
A note was added to Table 1-1 · IGLOO PLUS Product Family: "AGLP060 in
CS201 does not support the PLL."
Table 1-2 · Package Dimensions was updated to change the nominal size of
VQ176 from 100 to 400 mm2.
(July 2008)
The VQ128 and VQ176 packages were added to Table 1-1 · IGLOO PLUS
Product Family, the "I/Os Per Package 1" table, Table 1-2 · Package
Dimensions, "IGLOO PLUS Ordering Information", and the "Temperature
Grade Offerings" table.
I to IV
(March 2008)
As a result of the Libero IDE v8.4 release, Actel now offers a wide range of
core voltage support. The document was updated to change 1.2 V / 1.5 V to
1.2 V to 1.5 V.
(August 2008)
1 -8
IGLOO PLUS Low-Power Flash FPGAs
Datasheet Categories
In order to provide the latest information to designers, some datasheets are published before data
has been fully characterized. Datasheets are designated as "Product Brief," "Advance,"
"Preliminary," and "Production." The definitions of these categories are as follows:
Product Brief
The product brief is a summarized version of a datasheet (advance or production) and contains
general product information. This document gives an overview of specific device and family
This version contains initial estimated information based on simulation, other products, devices, or
speed grades. This information can be used as estimates, but not for production. This label only
applies to the DC and Switching Characteristics chapter of the datasheet and will only be used
when the data has not been fully characterized.
The datasheet contains information based on simulation and/or initial characterization. The
information is believed to be correct, but changes are possible.
Unmarked (production)
This version contains information that is considered to be final.
Export Administration Regulations (EAR)
The products described in this document are subject to the Export Administration Regulations
(EAR). They could require an approved export license prior to export from the United States. An
export includes release of product or disclosure of technology to a foreign national inside or
outside the United States.
Actel Safety Critical, Life Support, and High-Reliability
Applications Policy
The Actel products described in this advance status document may not have completed Actel’s
qualification process. Actel may amend or enhance products during the product introduction and
qualification process, resulting in changes in device functionality or performance. It is the
responsibility of each customer to ensure the fitness of any Actel product (but especially a new
product) for a particular purpose, including appropriateness for safety-critical, life-support, and
other high-reliability applications. Consult Actel’s Terms and Conditions for specific liability
exclusions relating to life-support applications. A reliability report covering all of Actel’s products is
available on the Actel website at Actel also
offers a variety of enhanced qualification and lot acceptance screening procedures. Contact your
local Actel sales office for additional reliability information.
Actel and the Actel logo are registered trademarks of Actel Corporation.
All other trademarks are the property of their owners.
Actel is the leader in low-power and mixed-signal FPGAs and offers the most comprehensive portfolio of
system and power management solutions. Power Matters. Learn more at
Actel Corporation
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