CR-8000 Graphical Pin Manager
Zuken’s Graphical Pin Manager (GPM), offers an effective FPGA/PCB co-design environment providing support for the latest devices offered by FPGA vendors, such as Xilinx, Altera, Lattice, and Microsemi.
As part of the CR-8000 family, GPM enables design teams to communicate I/O and constraint information intelligently for FPGAs or other high-pin count devices, at any time, using Design Gateway and Design Force.
This means programmable devices can be developed in parallel to the PCB design, and are ready to meet project delivery and production schedules.
FPGA designers and librarians can import pin assignment information directly from FPGA design suites such as Altera Quartus II, - Xilinx ISE/Vivado, Microsemi Libero, Lattice ispLEVER/Diamond and Aldec Active-HDL, or alternatively use BSDL, VHDL/Verilog or CSV files.
GPM also offers an extensive library of FPGA vendor device kits for Altera, Xilinx, Microsemi and Lattice, providing additional key attributes for I/Os, such as differential pairs, pin type, I/O bank and power/ground assignments.
Zuken offers up-to-date device kit downloads from their website to access the latest devices from FPGA vendors.
Once part information is loaded into GPM, users access easy-to-use wizards to automatically divide and generate symbols for immediate use in logical circuit design. GPM is also integrated with the library, so users can easily associate the required physical footprints and export directly to the library for fast part creation. Once the pin assignment is defined in GPM, the pin report file is exported to the FPGA design tools.
As the initial FPGA is simulated and synthesised, engineers can load the logical and physical circuit design within GPM. Engineers may review the current pin assignment and each of the constraints and rules associated with each I/O, then use the extensive set of utilities to visualize the FPGA on the PCB. The FPGA can be viewed with coloured I/O banks, or as the sub-element model defined when dividing the component. This means analyzing the FPGA structure and identifying how interconnects relate to other components is straightforward.
GPM also provides a ratsnest view of the board, showing the connection between pins and from partially routed signals. For rules-driven optimisation of the I/Os, users can conduct pin swaps interactively, using visual indicators to highlight the candidates for swapping with the selected net. The automatic pin assignment optimisation feature then untangles the ratsnest for the selected FPGA components.
GPM is also compatible with CR-5000 System Designer and Board Designer.
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