Altera Arria GX

Updated: Dec 30, 2013
Access and use Altera Arria GX FPGA devices in your designs. The Arria GX FPGA family is based on 90-nm and combines low power with high performance and density. This Protocol-Optimized FPGA makes Arria GX devices ideal for PCI Express (x1, x4).

Altera Arria II GX

Updated: Dec 30, 2013
Access and use Altera Arria II GX FPGA devices in your designs. The Arria II GX FPGA family is based on 40-nm and combines low power with high performance and density.

Altera Arria II GZ

Updated: Dec 30, 2013
Access and use Altera Arria II GZ FPGA devices in your designs. The Arria II GZ FPGA family is based on 40-nm and combines low power with high performance and density.

Altera Arria V

Updated: Mar 09, 2014
Access and use Altera Arria V FPGA devices in your designs. The 28nm Arria V FPGA family offers the lowest power and highest bandwidth FPGAs for mid-range applications.

Altera Arria V GZ

Updated: Mar 09, 2014
Access and use Altera Arria V GZ FPGA devices in your designs. The 28nm Arria V GZ FPGA family offers the lowest power and highest bandwidth FPGAs for mid-range applications.

Altera Cyclone

Updated: Dec 30, 2013
Access and use Altera Cyclone FPGA devices in your designs. Altera Cyclone family of FPGA devices.

Altera Cyclone II

Updated: Dec 30, 2013
Access and use Altera Cyclone II FPGA devices in your designs. Altera Cyclone family of FPGAThe 28nm Arria V FPGA family offers the lowest power and highest bandwidth FPGAs for mid-range applications.

Altera Cyclone IV GX

Updated: Dec 30, 2013
Access and use Altera Cyclone IV GX FPGA devices in your designs. Cyclone IV GX devices extends the Cyclone FPGA series in providing low cost, low power FPGAs with transceivers.

Altera Cyclone V

Updated: Mar 09, 2014
Access and use Altera Cyclone V FPGA devices in your designs. Altera Cyclone V family of FPGA devices.

Altera MAX 3000A

Updated: Dec 30, 2013
Access and use Altera MAX 3000A CPLD devices in your designs. MAX 3000A devices are low cost, high performance devices based on the Altera MAX architecture.