...
SPACE datasheet applies for RHBD qualified component : SPACE NX1H140ATSP Datasheet
FAMILY datasheet applies for RHBD unqualified component : FAMILY NX1H140ATSP Datasheet
The NG-LARGE NX1H140ATSP is configured by loading the bitstream into internal configuration memory using one of these following programming modes:
...
The NG-LARGE NX1H140ATSP is assembled in either Ceramic/Hermetic packages for Traditional Space projects as well as Organic package for New Space missions. The packaging & pinout page provides detailed description of the Plastic/Ceramic packaging solutions used to assemble the NG-LARGE NX1H140ATSP and the associated pinout:
The complete NG-LARGE NX1H140ATSP ballout is available in the following page:
...
The NG-LARGE NX1H140ATSP includes an ARM Cortex R5 Processor as hard macro, the usage of the Cortex R5 is described in the following page:
Radiation test campaigns have reports to demonstrate NG-LARGE robustness:
NG-LARGE - Radiation Test Report - Heavy Ions
NG-LARGE - Radiation Test Report - SEL
NG-LARGE - Radiation Test Report - TID
Given specific configuration and context used to program resources of the FPGA matrix, the size of the bitstream generated may vary based on what is used for the application. The Bitstream Size Estimator gives an estimation on which resources will have an impact on the size of the bitstream:
NanoXplore provides characterized data through IBIS models for temperature and corner case conditions aimed for simulation works. Power consumption estimation can be computed using NXPowerEstimator for any project application given which kind and how many resources will be used to map the design:
NG-LARGE IBIS model for I/O : ng_io_pad_complex.ibis.tar.gz
NX Power estimator for NG-LARGE : NXPowerEstimator_NGLARGE_v1c.xlsm
IPs compatible with NG-LARGE
...