The IGLOO 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 devices enables entering and exiting an ultra-low power mode that consumes as little as 5 µW while retaining SRAM and register data. 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 (from 12 µW) while the IGLOO device is completely functional in the system. This allows the IGLOO 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 devices the advantage of being a secure, low power, singlechip solution that is Instant On. IGLOO is reprogrammable and offers time-to-market benefits at an ASIClevel unit cost. These features enable designers to create high-density systems using existing ASIC or FPGA design flows and tools.
Feature
• 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
• Easy Entry to / Exit from Ultra-Low Power Flash*Freeze Mode
High Capacity
• 15K to 1 Million System Gates
• Up to 144 Kbits of True Dual-Port SRAM
• Up to 300 User I/Os
Reprogrammable Flash Technology
• 130-nm, 7-Layer Metal, Flash-Based CMOS Process
• Instant On Level 0 Support
• Single-Chip Solution
• Retains Programmed Design When Powered Off
• 250 MHz (1.5 V systems) and 160 MHz (1.2 V systems) System Performance
In-System Programming (ISP) and Security
• ISP Using On-Chip 128-Bit Advanced Encryption Standard (AES) Decryption (except ARM®-enabled IGLOO® devices) via JTAG (IEEE 1532–compliant)†
• FlashLock® Designed to Secure FPGA Contents
High-Performance Routing Hierarchy
• Segmented, Hierarchical Routing and Clock Structure
