Manufacturer Part Number
5AGZME3E2H29I3LN
Manufacturer
Intel
Introduction
The 5AGZME3E2H29I3LN is part of the Arria V GZ series, designed for embedding into high-performance applications, offering a versatile FPGA solution.
Product Features and Performance
Embedded FPGA for versatile uses
360,000 Logic Elements/Cells for complex logic functions
16,980 LABs/CLBs supporting flexible logic implementation
23,946,240 Total RAM Bits for extensive memory operations
342 I/O pins for comprehensive external interfacing
Supports a supply voltage range of 0.82V ~ 0.88V
Surface mount technology for secure mounting on PCBS
Operates reliably between -40°C ~ 100°C
Product Advantages
High logic element count for complex designs
Ample memory for data-intensive tasks
Wide range of input/output for versatile connections
Low voltage operation for energy efficiency
Robust temperature tolerance for harsh environments
Key Technical Parameters
Number of Logic Elements/Cells: 360,000
Number of LABs/CLBs: 16,980
Total RAM Bits: 23,946,240
Number of I/O: 342
Voltage Supply: 0.82V ~ 0.88V
Operating Temperature: -40°C ~ 100°C (TJ)
Package / Case: 780-BBGA, FCBGA
Supplier Device Package: 780-HBGA (33x33)
Quality and Safety Features
Manufactured by Intel, known for high-quality and reliable components
Designed to sustain performance across a broad temperature range for enhanced safety
Compatibility
Surface mount technology ensures compatibility with modern PCB design standards
Application Areas
Suitable for high-performance computing, industrial, and networking applications
Ideal for embedded systems requiring intensive processing capabilities
Product Lifecycle
Classified as Obsolete, indicating no longer in production
Replacement or upgrade options may be limited; consult Intel for support
Several Key Reasons to Choose This Product
High logic density and memory capacity for complex applications
Reliable operation in extreme temperature environments
Trusted manufacturing quality from Intel
Versatile connectivity with extensive I/O options
Energy-efficient design for sustainable operations