Manufacturer | Xilinx |
Mounting Type | Surface Mount |
Number of I/O | 404 |
Package / Case | 676-BGA |
Product Status | Obsolete |
Total RAM Bits | 573440 |
Number of Gates | 129600 |
Voltage - Supply | 1.71V ~ 1.89V |
Number of LABs/CLBs | 2400 |
Operating Temperature | 0°C ~ 85°C (TJ) |
Supplier Device Package | 676-FBGA (27x27) |
Number of Logic Elements/Cells | 10800 |
The Virtex™-E Extended Memory (Virtex-EM) family of FPGAs is an extension of the highly successful Virtex-E family architecture. The Virtex-EM family (devices shown in Table 1) includes all of the features of Virtex-E, plus additional block RAM, useful for applications such as network switches and high-performance video graphic systems.
Xilinx developed the Virtex-EM product family to enable customers to design systems requiring high memory bandwidth, such as 160 Gb/s network switches. Unlike traditional ASIC devices, this family also supports fast time-to-market delivery, because the development engineering is already completed. Just complete the design and program the device. There is no NRE, no silicon production cycles, and no additional delays for design re-work. In addition, designers can update the design over a network at any time, providing product upgrades or updates to customers even sooner.
The Virtex-EM family is the result of more than fifteen years of FPGA design experience. Xilinx has a history of supporting customer applications by providing the highest level of logic, RAM, and features available in the industry. The Virtex-EM family, first FPGAs to deploy copper interconnect, offers the performance and high memory bandwidth for advanced system integration without the initial investment, long development cycles, and inventory risk expected in traditional ASIC development.
Table 1: Virtex-E Extended Memory Field-Programmable Gate Array Family Members
DeviceLogic GatesCLB ArrayLogic CellsDifferential I/O PairsUser I/OBlockRAM BitsDistributed RAM BitsXCV405E129,60040 x 6010,800183404573,440153,600XCV812E254,01656 x 8421,1682015561,146,880301,056The Xilinx FPGAs (Field Programmable Gate Array) series XCV405E-8FG676C is 560KBITS BRAM 400000 SYSTEM GATES 404 I/ - NOT RECOMMENDED for NEW DESIGN FPGA, View Substitutes & Alternatives along with datasheets, stock, pricing from Authorized Distributors at bitfoic.com, and you can also search for other FPGAs products.
RF Data Converter Subsystem Overview
Most Zynq UltraScale+ RFSoCs include an RF data converter subsystem, which contains multiple radio frequency analog to digital converters (RF-ADCs) and multiple radio frequency digital to analog converters (RF-DACs). The high-precision, high-speed, power efficient RF-ADCs and RF-DACs can be individually configured for real data or can be configured in pairs for real and imaginary I/Q data.
Soft Decision Forward Error Correction (SD-FEC) Overview
Some Zynq UltraScale+ RFSoCs include highly flexible soft-decision FEC blocks for decoding and encoding data as a means to control errors in data transmission over unreliable or noisy communication channels. The SD-FEC blocks support low-density parity check (LDPC) decode/encode and Turbo decode for use in 5G wireless, backhaul, DOCSIS, and LTE applications.
Processing System Overview
Zynq UltraScale+ MPSoCs and RFSoCs feature dual and quad core variants of the Arm Cortex-A53 (APU) with dual-core Arm Cortex-R5F (RPU) processing system (PS). Some devices also include a dedicated Arm Mali-400 MP2 graphics processing unit (GPU).
Xilinx is a leading provider of programmable logic devices and associated technologies. As a top producer of programmable FPGAs, SoCs, MPSoCs, and 3D ICs, Xilinx has expanded quickly. Software defined and hardware optimized applications are supported by Xilinx, advancing the fields of cloud computing, SDN/NFV, video/vision, industrial IoT, and 5G wireless.
One of Xilinx's key innovations is the development of the Xilinx Vivado Design Suite, a comprehensive software toolchain used for designing and programming their FPGAs and SoCs. This suite provides developers with the necessary tools to create, simulate, and implement their designs on Xilinx devices.
In October 2020, Xilinx was acquired by Advanced Micro Devices (AMD), a major player in the semiconductor industry. This acquisition has enabled AMD to enhance its product portfolio and expand its offerings into the rapidly growing FPGA market.