NanoXplore NG-ULTRA Radiation Hardened, SoC FPGAs
- Home
- /
- POSTS
- /
- Technology
- /
- NanoXplore NG-ULTRA Radiation Hardened,...
Nanoxplore offers state of the art Radiation Hardened NG-ULTRA, SoC FPGAs with a complete software suite
DESCRIPTION:
Radiation Tolerance
- Radiation hardening by design in configuration memories and registers.
- SEU immune up to LET > 60MeV.cm2/mg.
- Total ionizing dose > 50Krads (Si).
- Embedded EDAC for user memory mitigation.
- Embedded configuration memory scrubbing.
- Fast automatic memory configuration repair.
- Embedded bitstream integrity check (CMIC).
Main Features
- 28 nm STMFDSOI process technology.
- A full System-On-Chip (SoC) based on a quad-core ARM Cortex R52
- 4-Input Look-up tables.
- LUT expender to support up to 16 bits boolean functions.
- High performance carry chains.
- Advanced interconnect network to support random logic and coarse grain block functions.
- DSP Blocks for complex arithmetic operations.
- User memories with variable width and depth.
- Configuration modes: Master Serial SPI (Single, Sequential, TMR), SpaceWire.
- Development configuration modes: JTAG, Parallel 16 bits, UART
- Integrated Space Wire interface available for user applications.
- Dedicated lowskew distribution network for clock, reset and load enable signals.
- On-chip thermal monitoring capability.
Input / Output Features
- Multiple I/O powering support from 1.2V to 3.3V
- Cold sparing support.
- Programmable output drive to support multiple industry standards.
- Embedded logic to support DDR2, DDR3 and DDR4.
- Up to 1.6 Gbps maximum I/O support for SSTL, HSTL and POD standards.
- LVDS compatible mode.
- All pins support 2000V of ESD-HBM.
- Embedded logic to support Space Wire Data Strobe encoding.
- Programmable delay lines on complex I/O pins.
- Programmable resistive termination on complex I/O pins.
READ MORE: https://nanoxplore-wiki.atlassian.net
Contact for Italy: Mr. DANILO LAUTA Via Guido Rossa 34, CP.00065 – Fiano Romano, ROME, ITALY
In Partnership with:
|
CONTACT MODULE