V7 Prodigy Logic Module – SingleB 

The SingleB Virtex-7 2000-2 Prodigy Logic Module includes 1,954K Logic Cells, 46.5Mb Memory and 2,160 DSP Slices with one Xilinx Virtex-7 2000T FPGA device. The SingleB V7 has an on-board DDR2 SO-DIMM socket and now supports 16 channels of high-speed Gigabit transceivers capable of running up to 10Gbps for a variety of high-speed interfaces such as PCIe, SATA and XAUI. In addition to our existing USB2.0 port for our popular runtime software features such as FPGA download, programmable clock generation and self-test, the new SingleB V7 supports these runtime features through an Ethernet cable so you can control your FPGA hardware remotely. S2C has also added a number of new runtime features such as I/O voltage settings and clock frequency read back through software control.

Architecture

Large Capacity

  • 1,954K System Logic Cells  
  • 46.5Mbits of FPGA internal memory
  • On-board DDR2 SO-DIMM sockets
  • Can expand through the use of interconnection modules and/or mother board

High Speed Transceivers

  • Each Virtex-7 2000T FPGA has 16 Gigabit Transceivers
  • Gigabit Transceiver can run up to 10Gbps through 2 high speed differential connectors

Flexible & Powerful I/O

  • Access up to 988 external I/O
  • 360 dedicated I/O
  • 480 shared I/O
  • Dedicated I/O voltage can be adjusted to 1.2V, 1.5V, 1.8V through runtime software in GUI

Advanced Global Clock & Reset Management

  • 14 global clocks can be selected from:
     - 6 pairs of programmable differential clock sources (0.2~700MHz)
     - 6 pairs of differential SMB clock inputs
     - 2 single-ended oscillator sockets
  • Clocks are programed conveniently in S2C Prodigy Player runtime software
  • 1 global reset can be triggered from push-button, SMB inputs or from runtime Software

High Perancforme

  • Up to 60W power for FPGA
  • Equal trace length for I/Os from same I/O connector
  • Pre-tested DDR2 memory at up to 1600Mbps

High Reliability

  • Self-Tests – Isolate design issues from board issues conveniently with a software GUI
  • Automatic shut-down upon detection of over-current, over-voltage or over-temperature
  • Ample cooling mechanism with adjustable fan spead depending on FPGA temperature
  • Separate power modules for each FPGA

Ease-of-Use

  • Multiple FPGA configuration options through Gigabit Ethernet Port, USB2.0 Port, JTAG and SD Card
  • Less than 3 seconds per FPGA configuration through SD card or Ethernet from Prodigy Player software
  • Many new Runtime features including setting I/O Voltage, read hardware status through software
  • User Test Area – LEDs, Push Buttons, Switches and GPIO Headers for testing and debugging
  • Design Implementation – Prodigy Player Pro software supports design partition across multiple FPGAs
  • Design Debug – Set probes at the RTL level and bring the signals to the top level
  • Use many off-the-shelf pre-tested daughter boards

V7 Prodigy Logic Modules are designed with flexibility and reusability in mind to easily extend a prototyping system for different applications. Expandable dedicated I/Os, stackable shared I/Os and high-performance and reliable connectors enable users to apply V7 Prodigy Logic Modules in various ways.

Four major applications:

 With Daughter Board

 
 

Different SoC designs have different peripherals. The peripherals can be designed as daughter boards to the V7 Prodigy Logic Module thus the main FPGA boards are reusable to save cost. S2C supplies a wide array of Prototype Ready Accessory Modules to help you quickly build a comprehensive SoC prototype. Click here to select the off-the-shelf daughter boards for your prototyping system.

 With Mother Board

 

Prodigy Logic Modules can also be mounted on customized mother boards to form more complicated system prototypes.

S2C also provides services to build customized mother boards.

 Multiple V7 Prodigy Logic Module Stacked

 
 

V7 Prodigy Logic Modules can be stacked or tiled to expand the logic capacity. The S2C Global Clock and Reset Management Module can be used to ensure global clock and reset distribution.

 Co-Modeling

 

Expand your FPGA-based prototype usage by co-modeling with user’s verification environment:

  • Cycle-based Co-Simulation
    Link simulators to the FPGA-based prototype for early block-level verification and simulation acceleration of large designs through DPI and PLI Interfaces
  • Transaction-Based Co-Modeling
    Link with high-level design or test models such as C/C++/SystemC and achieve hundreds of kHz to MHz
  • In-Circuit Co-Modeling
    Create pseudo-target interfaces at real time or near real-time speed. Access design registers and memories to make design debugging easier.

The V7 Prodigy Logic Module is available in 6 module types, offering you a range of choices to best fit your design needs. Refer to the following product table to select a suitable type to meet your design requirements. You can also create your desired prototype configuration by stacking or tiling multiple Prodigy Logic Modules together to exceed 7,816K Logic Cells.

V7 Prodigy Logic Module Configuration Table
 Product Type
QuadE
Quad
Dual
SingleE
SingleA
SingleB
 Target Devices
4*7V2000T
4*7V2000T
2*7V2000T
1*7V2000T
1*7V2000T
1*7V2000T
 System Logic Cells (K)
7,816
7,816
3,908
1,954
1,954
1,954
 DSP Slices
8,640
8,640
4,320
2,160
2,160
2,160
 FPGA Memory
186Mbits
186Mbits
93Mbits
46.5Mbits
46.5Mbits
46.5Mbits
 DDR3 SO-DIMM slot
4
2
1
1
1
-
 DDR2 SO-DIMM slot
-
2
1
-
-
1
 External User I/O
1,440
1,440
1,200
960
840
840
 Inter-FPGA Nets
192*6
192*6
530
-
-
-
 SerDes Transceivers
48GTX
48GTX
32GTX
16GTX
16GTX
16GTX