Extending 28nm Leadership
Six New Devices and an Additional 30% Lower Power
Continuous innovation on the 28HPL process enables new low-end and mid-range devices as well as new lower power industrial speed grades across Artix™ 7 FPGA, Kintex™ 7 FPGA, and Zynq™ 7000 SoC product families. See the AMD FPGA Power to view benchmark information and learn how these device families offer up to 30% additional system power reduction while maintaining performance across a diverse set of applications.
New Lower Power Speed Grade (-1LI) Comparison for Low-End Devices
| Device & Speed Grade | VCCINT | Static Power Savings | Dynamic Power Savings |
|---|---|---|---|
| -1I, -2I | 1.0V | 0% | 0% |
| -2LE | 1.0V | 22% | 0% |
| Artix 7 -1LI | 0.95V | 50% | 10% |
| Zynq 70001 Low-End -1LI |
0.95V | 50% | 10% |
| 1.0V(2) | 45% | 0% |
1: For Zynq 7000 devices, voltage change is limited to programmable logic; processing system stays at 1.0V
2: At 1.0V, one voltage rail can be used for FPGA logic and processor subsystem
New Lower Power Speed Grade (-2LI) Comparison for Mid-Range Devices
| Device & Speed Grade | VCCINT | Static Power Savings | Dynamic Power Savings |
|---|---|---|---|
| -2I | 1.0V | 0% | 0% |
| -2LE | 1.0V | 22% | 0% |
| Kintex 7 -2LI (160T - 480T) |
0.95V | 40% | 10% |
| Zynq 70001 Mid-Range -2LI |
0.95V | 40% | 10% |
| 1.0V(2) | 40% | 0% |
1: For Zynq 7000 devices, voltage change is limited to programmable logic; processing system stays at 1.0V
2: At 1.0V, one voltage rail can be used for FPGA logic and processor subsystem
Getting Started
Get started today with development kits including those targeting low-end designs, providing out-of-the-box solutions to help cut development time and enhance productivity.
Download the latest Xilinx Power Estimator to see how the new lower power speed grades can impact your design.