User Configurable Logic - PCIe-Spartan-VI comes with everything you need to load your FPGA program into the Spartan VI. Fantastic for development, simulation, special purpose interfaces, multiple serial and / or parallel channels. QSPI (FLASH) and on-the-fly reloading for configurable and reconfigurable logic implementations. Match your processing requirements to the received data in near real-time with the User Defined Logic coupled with user control over loading the FPGA. QSPI for instant on loading of a default program. The UserAp has an easy to modify example routine to select between 4 operations. Client can modify to match system requirements.
PCIe compatible PCIe-Spartan-VI-485/LVDS design is for the advanced user who wants to implement their own Xilinx design or requires updatable logic. PCIe-Spartan-VI makes the implementation, and use of the Spartan-VI easy.
The design comes with the basic features built in and the specific features ready for you. The PCIe-Spartan-VI Controller takes care of the PCIe interface for initial loading of the Spartan VI, plus DMA transfer of data into and out of the FIFOs. The Xilinx FPGA controls 40 programmable RS-485 or LVDS transceivers and 12 TTL IO. Each of the RS-485 or LVDS IO is programmable for direction, termination and function. The IO can be mixed too. The 12 TTL IO can be inputs or outputs under softwaer control. The reference voltage is selected with a shunt. Eight Cypress 22393 PLLs support the FPGA with 24 programmable clock references. The only thing missing is your input in the form of a coprocessor, reconfigurable logic, state-machine, simulated system, asynchronous or synchronous data processing etc.
Software [Windows and Linux] to load the Altera, access the hardware, and run diagnostics is available as well as a reference design for the Spartan VI: utilize the byte lanes, IO, and PLLs. The drivers come with calls for the standard features plus a generic R/W interface to allow for any user update without needing driver modifications. Many of the reference software files use the generic IO control to show how this is done. We provide a plug ´n play set-up along with our ATP software to give you a running start at your design.
A bridge is used between the 4 lane PCIe interface and the PCIe-Spartan-VI Controller [2nd Xilinx Spartan 6 FPGA]. Together the bridge and Spartan 6 are used to move data to the User FPGA for output channels, and to move data to the host for input channels. 8 input and 8 output FIFOs are provided to support 8 full duplex ports. The intermediate FIFOs are byte wide and operate at 100 MHz between the Bus Controller and User FPGA. Each of the data paths has its own DMA controller and local arbitration to move data from the User through the Bus to the the PCIe lanes or vice-versa. In addition, a control bus is provided - 32 data, 12 address, 50 MHz to provide a method of programming registers or memory within the User Design. An interrupt request from the User through the Bus is provided.
IO is accomplished via RS-485 or LVDS transceivers or TTL buffers. The RS-485 transceivers are rated for 40 MHz. The LVDS is rated for 200 MHz. Each transceiver can be controlled for direction and termination. The TTL IO is implemented with ´125 open drain drivers with on-board pull-ups. The input direction is buffered with a receiver to protect the Xilinx and to provide level shifting between the 5V IO and the 3.3V Xilinx IO. The D100 [ SCSI II 100 pin connector ] provides an easy to interconnect cabling system. The pinouts are consistent with the industry standard differential pairings. The
HDEterm100 supports the D100 with a cable to terminal strip conversion. PinOut is retained from the PCIeAlteraCycloneIV design for ease of porting between the designs.
An 8 position dip switch is provided. The switch is read through the Controller FPGA. The switch can be used to distinguish multiple PCIe-Spartan-VI boards in the same system or for other user determined purposes.
LEDs are provided. 4 are controlled via the User design. Others are provided to show the power suppies are within tolerance. The LEDs can be used for debugging or for system status etc.
We can do the design implementation for you, and provide the design files to you for long term support. If you need the features of PCIe-Spartan-VI and prefer to have someone else do the programming, please contact us with your requirements.