The XCKU115-L1FLVB1760I is a high-performance, low-power Xilinx FPGA from the Kintex® UltraScale™ family, manufactured by AMD (formerly Xilinx). Designed for demanding signal processing, networking, and industrial applications, this device delivers an exceptional balance of logic density, DSP throughput, and power efficiency in a 1760-pin FCBGA package.
Whether you are working on 100G networking, medical imaging, wireless infrastructure, or data center acceleration, the XCKU115-L1FLVB1760I provides the computational resources and I/O flexibility needed for next-generation designs.
What Is the XCKU115-L1FLVB1760I?
The XCKU115-L1FLVB1760I is a member of the Kintex UltraScale FPGA family, built on TSMC’s 20nm planar process technology. The “L1” in the part number designates the -1L speed grade — a low-voltage variant screened for reduced static power consumption. This device supports dual VCCINT operating voltages (0.95V and 0.90V), allowing designers to trade off between full -1 speed-grade performance and an ultra-low-power operating mode.
The “FLVB1760” package designator indicates a 1760-pin Flip-chip Low-Voltage Ball Grid Array (FLVBGA), and the “I” suffix confirms an industrial temperature range of –40°C to +100°C, making this part suitable for rugged, real-world deployment environments.
XCKU115-L1FLVB1760I Key Specifications
Quick Reference Table
| Parameter |
Value |
| Part Number |
XCKU115-L1FLVB1760I |
| Manufacturer |
AMD (Xilinx) |
| FPGA Family |
Kintex UltraScale |
| Process Technology |
20nm |
| Speed Grade |
-1L (Low Power) |
| Temperature Range |
Industrial: –40°C to +100°C |
| Package |
1760-Pin FCBGA (FLVB1760) |
| Package Size |
45mm × 45mm |
| System Logic Cells |
1,451,100 |
| CLB Flip-Flops |
1,326,720 |
| CLB LUTs |
663,360 |
| VCCINT Voltage |
0.95V / 0.90V (dual mode) |
| User I/O |
702 |
| Max Differential I/O Pairs |
336 |
XCKU115-L1FLVB1760I Logic and DSP Resources
Logic Fabric Specifications
The XCKU115-L1FLVB1760I features a massive and flexible logic fabric built on the Xilinx UltraScale architecture. The device uses an ASIC-like interconnect structure that reduces routing delays and improves design closure times compared to prior FPGA generations.
| Resource |
Quantity |
| System Logic Cells |
1,451,100 |
| CLB Look-Up Tables (LUTs) |
663,360 |
| CLB Flip-Flops |
1,326,720 |
| Distributed RAM (Kb) |
9,180 |
| DSP Slices (DSP48E2) |
5,520 |
| Block RAM (36Kb blocks) |
2,160 |
| Block RAM Total (Mb) |
~75.9 |
| UltraRAM (288Kb blocks) |
Not available (KU115) |
| PCIe Gen3 x8 Blocks |
4 |
| 100G Ethernet MAC |
2 |
| CMAC / Interlaken Cores |
2 each |
Digital Signal Processing (DSP) Performance
With 5,520 DSP48E2 slices, the XCKU115-L1FLVB1760I delivers outstanding signal processing bandwidth. Each DSP48E2 slice supports a 27×18 multiplier, pre-adder, and accumulator, enabling cascaded DSP chains for FIR filters, FFT engines, matrix operations, and real-time image processing pipelines.
This device is especially well-suited for:
- Software-defined radio (SDR) and baseband processing
- Real-time radar and sonar signal chains
- Next-generation medical imaging (CT, MRI, ultrasound)
- High-resolution video processing up to 8K4K
XCKU115-L1FLVB1760I High-Speed Transceiver Specifications
GTH Transceiver Summary
The XCKU115-L1FLVB1760I integrates high-speed GTH transceivers capable of supporting a wide range of industry-standard serial protocols.
| Transceiver Parameter |
Value |
| GTH Transceiver Count |
64 |
| Max Line Rate (GTH) |
16.375 Gb/s |
| Supported Protocols |
PCIe Gen3, JESD204B, CPRI, SRIO, SATA, Interlaken, 10GbE, 100GbE |
| PCIe Hardened Blocks |
4 × Gen3 x8 |
| 100G Ethernet MAC |
2 |
These high-speed links enable the device to interface with optical modules, FMC daughter cards, memory controllers, and system backplanes without sacrificing signal integrity.
XCKU115-L1FLVB1760I I/O and Package Details
I/O Bank and Pin Summary
| I/O Parameter |
Value |
| Total User I/O |
702 |
| HP (High Performance) I/O Banks |
16 |
| HR (High Range) I/O Banks |
0 |
| Max Differential Pairs |
336 |
| Package Type |
FCBGA (Flip-Chip BGA) |
| Total Pin Count |
1,760 |
| Package Body |
45mm × 45mm |
The HP (High Performance) I/O banks support VCCO voltages of 1.0V, 1.2V, 1.35V, 1.5V, and 1.8V, and provide support for DDR3, DDR4, LPDDR4, and QDR memory interfaces. Calibrated on-die termination (DCI) is included for signal integrity optimization.
XCKU115-L1FLVB1760I Power and Voltage Specifications
Operating Voltage Summary
The -1L speed grade variant distinguishes itself through its dual-voltage flexibility. This makes it highly attractive for power-sensitive applications.
| Supply Rail |
Voltage |
| VCCINT (Standard Mode) |
0.95V |
| VCCINT (Low Power Mode) |
0.90V |
| VCCAUX |
1.8V |
| VCCBRAM |
0.95V |
| VMGTAVCC |
1.0V |
| VMGTAVTT |
1.2V |
| VCCO (HP I/O Banks) |
1.0V – 1.8V |
When operating at VCCINT = 0.95V, the -1L device matches the full -1 speed grade performance. When operated at 0.90V, the device achieves significantly lower maximum static power at a modest performance reduction — a compelling trade-off for thermally constrained designs.
Part Number Decoder: XCKU115-L1FLVB1760I Explained
Understanding the part number helps you quickly identify the device variant and its capabilities.
| Field |
Meaning |
| XC |
Xilinx Commercial Product |
| KU115 |
Kintex UltraScale, largest density device in the family |
| L |
Low-voltage variant (-1L speed grade) |
| 1 |
Speed grade 1 (performance level) |
| FLV |
Flip-chip Low-Voltage package type |
| B |
Package size code (45mm × 45mm) |
| 1760 |
Total pin count |
| I |
Industrial temperature range (–40°C to +100°C) |
XCKU115-L1FLVB1760I vs. Other XCKU115 Variants
The XCKU115 device is available in multiple speed grades and temperature ranges. Understanding how the -L1FLVB1760I compares to related variants helps you select the right part for your application.
| Part Number |
Speed Grade |
VCCINT |
Temp Range |
Package |
| XCKU115-L1FLVB1760I |
-1L |
0.90V / 0.95V |
Industrial (–40°C to 100°C) |
1760-FCBGA |
| XCKU115-1FLVB1760I |
-1 |
0.95V |
Industrial |
1760-FCBGA |
| XCKU115-2FLVB1760I |
-2 |
0.95V |
Industrial |
1760-FCBGA |
| XCKU115-2FLVB1760E |
-2 |
0.95V |
Extended (0°C to 100°C) |
1760-FCBGA |
| XCKU115-3FLVB1760E |
-3 |
0.95V |
Extended |
1760-FCBGA |
| XCKU115-L1FLVA2104I |
-1L |
0.90V / 0.95V |
Industrial |
2104-FCBGA |
The -1L variant is the ideal choice when power efficiency and industrial temperature compliance are both required, without sacrificing the full logic resources of the KU115 die.
Target Applications for the XCKU115-L1FLVB1760I
Where Is This FPGA Used?
The XCKU115-L1FLVB1760I is designed to serve demanding application segments that require high compute density, flexible I/O, and long-term reliability:
#### 100G Networking and Data Center
The integrated 100G Ethernet MAC blocks and PCIe Gen3 hardened IP make this device a natural fit for line-rate packet processing, deep packet inspection, network function virtualization (NFV), and SmartNIC development.
#### Wireless Infrastructure
With 5,520 DSP slices and 64 GTH transceivers, this FPGA supports beamforming, DPD (digital pre-distortion), CPRI front-haul links, and massive MIMO processing required in 4G LTE and 5G NR base stations.
#### Medical Imaging
Real-time reconstruction pipelines for CT, MRI, and ultrasound systems benefit from the device’s large block RAM, deep DSP cascading capability, and industrial temperature range suitable for medical equipment environments.
#### Defense and Radar
EW (electronic warfare), radar signal processing, SIGINT, and mission-critical communications systems leverage the device’s high I/O count, wide memory bandwidth, and resistance to industrial environmental conditions.
#### Video and Broadcast
8K4K video processing, multi-channel real-time encoding/decoding, and broadcast routing require precisely the combination of logic density, DSP throughput, and high-speed serial interfaces the KU115 provides.
Design Tools and Support
The XCKU115-L1FLVB1760I is fully supported by the AMD Vivado™ Design Suite, AMD’s industry-standard FPGA design environment. Vivado provides integrated synthesis, implementation, timing closure, and hardware debug capabilities.
Key toolchain support includes:
- Vivado ML Edition – Full synthesis, P&R, and bitstream generation
- Vitis™ HLS – High-level synthesis for C/C++-based accelerator development
- Xilinx Power Estimator (XPE) – Accurate pre- and post-implementation power analysis
- ChipScope Pro / ILA – In-system logic analysis and hardware debugging
- PCIe, DDR4, Ethernet IP – Pre-validated IP cores from the Xilinx IP Catalog
XCKU115-L1FLVB1760I Ordering Information
| Attribute |
Detail |
| Full Part Number |
XCKU115-L1FLVB1760I |
| Manufacturer |
AMD (Xilinx) |
| Category |
Embedded – FPGAs (Field Programmable Gate Array) |
| RoHS Status |
RoHS Compliant |
| Moisture Sensitivity Level |
MSL 3 |
| Packaging |
Tray |
| Export Classification |
ECCN 3A001.a.7 |
Frequently Asked Questions
What does the “L” mean in XCKU115-L1FLVB1760I?
The “L” denotes the -1L (low-power) speed grade, which allows the device to operate at a reduced VCCINT of 0.90V for lower static power dissipation. At 0.95V, the -1L device matches the standard -1 speed grade performance.
What is the maximum operating temperature of this device?
With the “I” suffix, the XCKU115-L1FLVB1760I is rated for industrial operation from –40°C to +100°C junction temperature.
How many user I/O pins does the XCKU115-L1FLVB1760I have?
The device provides 702 user I/O pins in the 1760-pin FLVB package, supporting multiple memory and logic interface standards.
Is the XCKU115-L1FLVB1760I the same die as the XCKU115-1FLVB1760I?
Yes. Both devices use the same KU115 die. The difference is solely in the VCCINT voltage screening: the -1L variant is tested and binned for low-power operation at 0.90V, whereas the standard -1 runs at 0.95V.
What memory interfaces does this FPGA support?
The HP I/O banks support DDR3, DDR4, LPDDR4, QDR II+, and RLDRAM 3 memory interfaces, enabling high-bandwidth memory subsystems for data-intensive applications.
