FPGA Module XC7V2000T
- Using latest FPGA technology with the Virtex XC7V2000T
- Offering up to 12 M ASIC gates capacity
- Up to 1100 free user I/O for daughter board connection
- 8 extension sites with individually adjustable voltage regions
- 16 MGTs (12.5 Gbps) per FPGA Modules
The proFPGA XC7V2000T FPGA module is the logic core for the scalable, and modular multi FPGA Prototyping solution, which fulfills highest needs in the area of FPGA based Prototyping. It addresses customers who need a scalable and most flexible high performance ASIC Prototyping solution for early software development and real time system verification. The innovative system concept and technologies offer highest flexibility and reuseability for several projects, which guarantees the best return on invest.
The proFPGA XC7V2000T FPGA module, which only works in combination with an proFPGA duo or quad motherboard offers with its latest Virtex 7 FPGA technology maximum capacity of up to 12 M ASIC gates alone in one FPGA. It is designed to achieve highest performance in combination with its high speed connectors. The module offers with its 8 extension sites up to 1100 user I/Os for daughter boards (e.g. memory boards, interface boards), interconnecting cables or customer specific application boards.
Besides the standard I/Os the module also provides 16 high speed serial transceivers (MGTs) for high speed interfaces like PCIe Gen2, Gen3, USB 3.0 or DDR3 memories. All of the 8 extension sites offer individually and stepless adjustable voltage regions from 1.2V up to 1.8V.
|proFPGA XC7V2000T FPGA Module Specification|
|FPGA Type||Xilinx Virtex XC7V2000T (speedgrade 1, 2)|
|Capacity||Up to 12 M ASIC gates|
|Signaling rate||Up to 1 Gbps (standard I/O)/ 12.5 Gbps (MGT)|
8 Extension sites with High Performance (up to 21 Gbps) connectors
|High Speed I/O transceivers|
16 dedicated MGTs running up to 12.5 Gbps
Flexible via high-speed interconnection boards or cables
With proFPGA uno, duo or quad Motherboard via Ethernet, USB, PCIe
|Product article number||PROF003 FM-Virtex7-R1|