Xilinx UltraScale Device Ordering Information

Xilinx Ordering Information

Kintex UltraScale FPGAs
Virtex UltraScale FPGAs

How to read Xilinx part numbers.

XC V U ### -1 F L V A #### C
Xilinx commercial V: Virtex
K: Kintex
UltraScale Value Index Speed Grade
-1 = Slowest
-L1 = Low Power
-H1 = Slowest or Mid -2 = Mid
-3 = Fastest
F: Flip-Chip (1.0mm)
S: Flip-Chip (0.8mm)
F: Lid
L: Lid SSI
B: Lidless
V: RoHS 6/6
G: RoHS 6/6
w/exemption 15Package
(C, E, I)

Temperature Grade:

C = Commercial (Tj = 0°C to +85°C) E = Extended (Tj = 0°C to +100°C) I = Industrial (Tj = –40°C to +100°C)

Example list by Value Index


Zynq-7000 All Programmable SoC Part Numbers

Zynq-7000 All Programmable SoC Part Numbers

XC7Z010 CLG225 CLG400
XC7Z015 CLG485
XC7Z020 CLG400 CLG484
XC7Z030 FBG484 SBG485 FBG676 FFG676
XC7Z035 FBG676 FFG676 FFG900
XC7Z045 FBG676 FFG676 FFG900
XC7Z100 FFG900 FFG1156









Spartan, Artix, Zynq from Xilinx

Spartan-6 FPGA Family
Spartan®-6 FPGA delivers an optimal balance of low risk, low cost, and low power for cost-sensitive applications, now with 42% less power
consumption and 12% increased performance over previous generation devices. Part of Xilinx’s All Programmable low-end portfolio, Spartan-6 FPGAs offer advanced power management technology, up to 150K logic cells, integrated PCI Express® blocks, advanced memory support, 250MHz DSP slices, and 3.2Gbps low-power transceivers.

Spartan-6 FPGA Family Benefits
Intelligent mix of hard IP and programmability for greater integration
Differentiate products through efficient power management
Easily meet system-level requirements

Artix-7 FPGA Family
Leading System Performance per Watt for Cost Sensitive Applications
Lowest total power per logic cell
Best-in-class performance for DDR3, DSP, parallel and serial I/O
Low cost, small footprint packaging
Part of a broad cost effective All Programmable low-end portfolio

Zynq-7000 All Programmable SoC
More than Silicon: A Comprehensive Platform Offering
Based on the Xilinx All programmable SoC architecture, the Zynq®-7000 All Programmable SoCs enable extensive system level differentiation, integration, and flexibility through hardware, software, and I/O programmability.
Using the Zynq-7000 platform, you can design smarter systems with tightly coupled software based control and analytics with real time hardware-based processing and optimized system interfaces — with vastly lower BOM costs, lower NRE costs, lower design risk, and of course much faster time to market. All seven Zynq devices (Z-7010, Z-7015, Z-7020, Z-7030, Z-7035, Z-7045, Z-7100) are optimized for specific combinations of system power, cost, and size to meet the needs of smarter control, smarter vision and smarter networks.

This comprehensive Platform offers:
Silicon Devices – Zynq-7000 Full-Featured Processing Platform
Development Platforms – Traditional hardware development and virtual development platforms
Operating Systems – Open Source Linux, Android, FreeRTOS
Design Tools – Vivado® Design Suite, Xilinx SDK, PetaLinux SDK
IP – Plug and Play

Source Xilinx

Spartan-6 FPGA Family, Artix-7 FPGA Family, Zynq-7000 All Programmable SoC table and ordering information

Xilinx All Programmable devices and ZTE’s pre5G 3D/massive MIMO base station.

SAN JOSE, Calif., March 3, 2015 /PRNewswire/ — Xilinx, Inc. (NASDAQ: XLNX) today announced its All Programmable devices are enabling ZTE’s pre5G 3D/massive MIMO base station. Comprising 128 antennas, ZTE’s massive MIMO system uses a frontal area similar to existing 8-antennas systems. Integrating antennas, base station units and RFs in one module, ZTE’s Massive MIMO base station uses only one-third of the installation space of traditional systems, lowering operating costs and total cost ownership of operators. At the core of this solution are Xilinx® 28nm Kintex®-7 devices, offering industry-leading digital front end processing and advanced baseband algorithm implementation to compliment the functionality of ZTE’s high-performance vector processor SoC.

“Together, our pre5G multi-user/multi-stream spacial multiplexing technology and Xilinx 7 series FPGAs are enabling our base station to set new records in single-carrier transmission capacity and spectral efficiency,” said Dr. Jiying XIANG, CTO of ZTE Wireless Division. “Xilinx FPGAs are the ideal platform to support the requirements of our pre5G systems and we look forward to utilizing their next-generation UltraScale™ devices to further enhance the performance of our base stations.”

“Massive MIMO is seen as one of the most important technologies for increased 5G wireless system data throughput and capacity,” said Sunil Kar, vice president of wireless communications at Xilinx. “Xilinx’s high-performance fabric and high-speed I/Os directly address the critical requirements for these next-generation antennas system and Xilinx is pleased to be working with ZTE in the continued development of 5G technology.”

Source Xilinx

XILINX All Programmable SoC

XILINX All Programmable SoC
Expanding the All Programmable SoC Portfolio

Zynq® UltraScale+™ MPSoC delivers an unprecedented level of heterogeneous multi-processing, and deploys the right engines for the right tasks. This further extends the leadership position that Zynq-7000 AP SoC enables with breakthrough performance, far more system integration and intelligence, and the highest level of security and safety.

Xilinx’s All Programmable SoC portfolio offers the optimal balance of low-end, mid-range and high-end SoC platforms to deliver a generation ahead of value and enable significantly differentiated products.

Source Xilinx

Kintex UltraScale+ FPGAs

Kintex® UltraScale+™ devices deliver ASIC-class system-level performance, clock management, and power management for price-performance-per-watt. These devices expand the mid-range by delivering the highest throughput with lowest latency for medium-to-high volume applications that include wireless multi-antennae, NX100G networking, and DSP-intensive applications. Based on the ASIC-class advantage of the UltraScale architecture, Kintex UltraScale+ devices are co-optimized with the Vivado® Design Suite and leverage the UltraFAST™ design methodology to accelerate time to market.

The family incorporates:

TSMC’s 16FinFET+ process technology providing a dramatic boost in performance per watt
UltraRAM on-chip memory increases density by 8X, delivering optimal power, flexibility, and predictable performance
PCI Express® Gen 3×16 and Gen 4×8 integrated blocks to support high bandwidth interface requirements
Kintex UltraScale+ FPGAs
Kintex UltraScale plus product list

Xilinx Zynq-7000 All Programmable Soc

The Zynq-7000 AP SoC leverages the 28nm scalable optimized programmable logic used in Xilinx’s 7 series FPGAs. Each device is designed to meet unique requirements across many use cases and applications. The Z-7010, Z-7015, and Z-7020 leverage the Artix®-7 FPGA programmable logic and offer lower power and lower cost for high-volume applications. The Z-7030, Z-7035, Z-7045, and Z-7100 are based on the Kintex®-7 FPGA programmable logic for higher-end applications that require higher performance and high I/O throughput.

Zynq-7000 Part Numbers

Xilinx UltraScale General Description

Xilinx® UltraScaleTM architecture comprises two high-performance FPGA families that address a vast spectrum of system requirements with a focus on lowering total power consumption through numerous innovative technological advancements.
Kintex® UltraScale FPGAs: High-performance FPGAs with a focus on price/performance, using both monolithic and next generation stacked silicon interconnect (SSI) technology. High DSP and block RAM-to-logic ratios and next generation transceivers, combined with low-cost packaging, enable an optimum blend of capability and cost.
Virtex® UltraScale FPGAs: The industry’s most capable high-performance FPGAs enabled using both monolithic and next generation SSI technology to achieve the highest system capacity, bandwidth, and performance. Variants of the Virtex UltraScale family are optimized to address key market and application requirements through integration of various system-level functions, delivering unprecedented embedded memory and serial connectivity capabilities.
Xilinx® UltraScaleTM architecture datasheet