Arria® V 5AGXB1 FPGA

Specifications

I/O Specifications

Package Specifications

Supplemental Information

Ordering and Compliance

Ordering and spec information

Arria® V 5AGXB1 FPGA 5AGXMB1G4F35I5G

  • MM# 965648
  • Spec Code SR4QJ
  • Ordering Code 5AGXMB1G4F35I5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F40C5G

  • MM# 965923
  • Spec Code SR4YK
  • Ordering Code 5AGXMB1G4F40C5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F35I5G

  • MM# 967800
  • Spec Code SR6JF
  • Ordering Code 5AGXFB1H4F35I5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXFB1H6F40C6G

  • MM# 967802
  • Spec Code SR6JH
  • Ordering Code 5AGXFB1H6F40C6G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F35I3G

  • MM# 968133
  • Spec Code SR6TQ
  • Ordering Code 5AGXFB1H4F35I3G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F31I5G

  • MM# 968156
  • Spec Code SR6UD
  • Ordering Code 5AGXMB1G4F31I5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F35C4G

  • MM# 999FFR
  • Spec Code SRFFL
  • Ordering Code 5AGXBB1D4F35C4G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F31C4G

  • MM# 999G1L
  • Spec Code SRFLP
  • Ordering Code 5AGXBB1D4F31C4G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F31C5G

  • MM# 999G1M
  • Spec Code SRFLQ
  • Ordering Code 5AGXBB1D4F31C5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F31I5G

  • MM# 999G1N
  • Spec Code SRFLR
  • Ordering Code 5AGXBB1D4F31I5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F35C5G

  • MM# 999G1P
  • Spec Code SRFLS
  • Ordering Code 5AGXBB1D4F35C5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F35I5G

  • MM# 999G1R
  • Spec Code SRFLT
  • Ordering Code 5AGXBB1D4F35I5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D4F40C5G

  • MM# 999G1T
  • Spec Code SRFLU
  • Ordering Code 5AGXBB1D4F40C5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXBB1D4F40I5G

  • MM# 999G1V
  • Spec Code SRFLV
  • Ordering Code 5AGXBB1D4F40I5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXBB1D6F31C6G

  • MM# 999G1X
  • Spec Code SRFLW
  • Ordering Code 5AGXBB1D6F31C6G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D6F35C6G

  • MM# 999G1Z
  • Spec Code SRFLX
  • Ordering Code 5AGXBB1D6F35C6G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXBB1D6F40C6G

  • MM# 999G20
  • Spec Code SRFLY
  • Ordering Code 5AGXBB1D6F40C6G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F35C4G

  • MM# 999G2K
  • Spec Code SRFME
  • Ordering Code 5AGXFB1H4F35C4G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXFB1H4F35C5G

  • MM# 999G2L
  • Spec Code SRFMF
  • Ordering Code 5AGXFB1H4F35C5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXFB1H4F40C4G

  • MM# 999G2N
  • Spec Code SRFMG
  • Ordering Code 5AGXFB1H4F40C4G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F40C5G

  • MM# 999G2P
  • Spec Code SRFMH
  • Ordering Code 5AGXFB1H4F40C5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F40I3G

  • MM# 999G2R
  • Spec Code SRFMJ
  • Ordering Code 5AGXFB1H4F40I3G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H4F40I5G

  • MM# 999G2T
  • Spec Code SRFMK
  • Ordering Code 5AGXFB1H4F40I5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXFB1H6F35C6G

  • MM# 999G2V
  • Spec Code SRFML
  • Ordering Code 5AGXFB1H6F35C6G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F31C4G

  • MM# 999G4N
  • Spec Code SRFNY
  • Ordering Code 5AGXMB1G4F31C4G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F31C5G

  • MM# 999G4P
  • Spec Code SRFNZ
  • Ordering Code 5AGXMB1G4F31C5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F31I3G

  • MM# 999G4R
  • Spec Code SRFP0
  • Ordering Code 5AGXMB1G4F31I3G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F35C4G

  • MM# 999G4T
  • Spec Code SRFP1
  • Ordering Code 5AGXMB1G4F35C4G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F35C5G

  • MM# 999G4V
  • Spec Code SRFP2
  • Ordering Code 5AGXMB1G4F35C5G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F40C4G

  • MM# 999G4W
  • Spec Code SRFP3
  • Ordering Code 5AGXMB1G4F40C4G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXMB1G4F40I5G

  • MM# 999G4X
  • Spec Code SRFP4
  • Ordering Code 5AGXMB1G4F40I5G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXMB1G6F31C6G

  • MM# 999G4Z
  • Spec Code SRFP5
  • Ordering Code 5AGXMB1G6F31C6G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G6F35C6G

  • MM# 999G51
  • Spec Code SRFP6
  • Ordering Code 5AGXMB1G6F35C6G
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G6F40C6G

  • MM# 999G52
  • Spec Code SRFP7
  • Ordering Code 5AGXMB1G6F40C6G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Arria® V 5AGXB1 FPGA 5AGXBB1D4F40C4G

  • MM# 999G5W
  • Spec Code SRFPD
  • Ordering Code 5AGXBB1D4F40C4G
  • Stepping A1
  • ECCN 3A001.A.7.A
  • CCATS G171972

Retired and discontinued

Arria® V 5AGXB1 FPGA 5AGXFB1H4F35I3

  • MM# 968298
  • Spec Code SR6YH
  • Ordering Code 5AGXFB1H4F35I3
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Arria® V 5AGXB1 FPGA 5AGXMB1G4F31I5

  • MM# 973718
  • Spec Code SRBLK
  • Ordering Code 5AGXMB1G4F31I5
  • Stepping A1
  • ECCN 3A991
  • CCATS NA

Trade compliance information

  • ECCN Varies By Product
  • CCATS Varies By Product
  • US HTS 8542390001

PCN/MDDS Information

SR6JH

SR6TQ

SR6JF

SRFPD

SRFP0

SRFML

SRFMK

SRFMJ

SRFMH

SRFMG

SRFMF

SRFP7

SRFP6

SRFP5

SRFP4

SRFP3

SRFP2

SRFP1

SRFLY

SRFLX

SRFNZ

SRFLW

SRFNY

SRFLV

SRFLU

SRFME

SR4YK

SR6UD

SR6YH

SRBLK

SRFLT

SR4QJ

SRFLS

SRFFL

SRFLR

SRFLQ

SRFLP

Drivers and Software

Latest Drivers & Software

Downloads Available:
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Name

Technical Documentation

Launch Date

The date the product was first introduced.

Lithography

Lithography refers to the semiconductor technology used to manufacture an integrated circuit, and is reported in nanometer (nm), indicative of the size of features built on the semiconductor.

Logic Elements (LE)

Logic elements (LEs) are the smallest units of logic in Intel® FPGA architecture. LEs are compact and provide advanced features with efficient logic usage.

Adaptive Logic Modules (ALM)

The adaptive logic module (ALM) is the logic building block in supported Intel FPGA devices, and is designed to maximize both performance and utilization. Each ALM has several different modes of operation, and can implement a variety of different combinatorial and sequential logical functions.

Adaptive Logic Module (ALM) Registers

ALM registers are those register bits (flip-flops) that are contained inside the ALMs and are used to implement sequential logic.

Fabric and I/O Phase-Locked Loops (PLLs)

Fabric and IO PLLs are used to simplify the design and implementation of the clock networks in the Intel FPGA fabric, and also the clock networks associated with the IO cells in the device.

Maximum Embedded Memory

The total capacity of all the embedded memory blocks in the programmable fabric of the Intel FPGA device.

Digital Signal Processing (DSP) Blocks

The digital signal processing (DSP) block is the mathematical building block in supported Intel FPGA devices and contains high-performance multipliers and accumulators to implement a variety of digital signal processing functions.

Digital Signal Processing (DSP) Format

Depending on the Intel FPGA device family, the DSP block supports different formats such as hard floating point, hard fixed point, multiply and accumulate, and multiply only.

Hard Memory Controllers

Hard memory controllers are used to enable high-performance external memory systems attached to the Intel FPGA. A hard memory controller saves power and FPGA resources compared to the equivalent soft memory controller, and supports higher frequency operation.

External Memory Interfaces (EMIF)

The external memory interface protocols supported by the Intel FPGA device.

Maximum User I/O Count

The maximum number of general purpose I/O pins in the Intel FPGA device, in the largest available package.
† Actual count could be lower depending on package.

I/O Standards Support

The general purpose I/O interface standards supported by the Intel FPGA device.

Maximum LVDS Pairs

The maximum number of LVDS pairs that can be configured in the Intel FPGA device, in the largest available package. Refer to device documentation for actual RX and TX LVDS pairs count by package type.

Maximum Non-Return to Zero (NRZ) Transceivers

The maximum number of NRZ transceivers in the Intel FPGA device, in the largest available package.
† Actual count could be lower depending on package.

Maximum Non-Return to Zero (NRZ) Data Rate

The maximum NRZ data rate that is supported by the NRZ transceivers.
† Actual data rate could be lower depending on transceiver speed grade.

Transceiver Protocol Hard IP

Hard intellectual property available in the Intel FPGA device to support the high-speed serial transceivers. Transceiver protocol hard IP saves power and FPGA resources compared to the equivalent soft IP, and simplifies the implementation of the serial protocol.

FPGA Bitstream Security

Depending on the Intel FPGA device family, various security features are available to prevent copying of the customer bitstream, and detect attempts to tamper with the device during operation.

Analog-to-Digital Converter

The analog-to-digital converter is a data-converter resource available in some Intel FPGA device families.

Package Options

Intel FPGA devices are available in different package sizes, with different IO and transceiver counts, to match customer system requirements.