Introduction


The XEM7360 is a compact, mezzanine-style FPGA integration module featuring the Xilinx Kintex-7 FPGA and SuperSpeed USB 3.0 connectivity via a USB 3.0 receptacle. 

Designed as a full-featured integration system, the XEM7360 provides access to 193 I/O pins on its 676-pin Kintex-7 device and has 2-GiByte DDR3 SDRAM available to the FPGA.  Two SPI Flash devices provide a total of 32 MiB of non-volatile memory, one attached to the USB microcontroller and one attached to the FPGA.

Available with K160T and K410T FPGA densities, the XEM7360 is designed for high-performance system integrations including transceiver-capable peripherals such as JESD204B data converters.

Documentation and Reference Materials

The following is a comprehensive list of documentation available for this device.

XEM7360 User’s ManualThis online documentation space.
XEM7360 Pins ReferenceThe interactive Pins reference for the device provides detailed pinout
information as well as automated constraint file generation. Export
functionality is provided to PDF, CSV. Constraint files are provided
for UCF, XCD (Xilinx) and QSF, SDF (Altera).
FrontPanel SDK User’s ManualThe online documentation space for the FrontPanel SDK.
FrontPanel API ReferenceOnline API reference with detailed usage for every API method.

Functional Block Diagram

FPGA

The XEM7360 is offered in two variants.  These variants are identical except for the FPGA provided.  The table below lists some of the differences between the two devices.  Please consult the Xilinx documentation for a more thorough comparison.

FEATUREXEM7360-K160TXEM7360-K410T
FPGAXC7K160T-1FFGXC7K410T-1FFG
Slice Count25,35063,550
D Flip-Flops202,800508,400
Distributed RAM2,188 Kib5,663 Kib
Block RAM11,700 Kib28,620 Kib
DSP Slices6001,540
Clock Management Tiles810

SuperSpeed USB 3.0 Interface

The XEM7360 uses a Cypress FX3 USB microcontroller to make the XEM a USB 3.0 peripheral. As a USB peripheral, the XEM is instantly recognized as a plug and play peripheral on millions of PCs. More importantly, FPGA downloads to the XEM happen quickly, virtual instruments under FrontPanel update quickly, and data transfers are blazingly fast.

On-board Peripherals

The XEM7360 is designed to compactly support a large number of applications with a small number of on-board peripherals.  These peripherals are listed below.

Low-Jitter Crystal Oscillators

A fixed-frequency, 200 MHz, low-jitter oscillator is included on-board and outputs LVDS to the FPGA. The Kintex-7 FPGA can produce a wide range of clock frequencies using the on-chip DCM and PLL capabilities.

A second 100 MHz oscillator is available to the transceiver portions of the FPGA as a reference.

2-GiByte Quad-Wide DDR3 Synchronous DRAM

The module also includes 2-GiByte DDR3 SDRAM with a full 32-bit quad-wide interface to the FPGA.  This SDRAM is attached exclusively to the FPGA and does not share any pins with the expansion connector.  The maximum clock rate of the SDRAM is 800 MHz.  With the -1 speed grade of the Kintex-7, the maximum clock rate is 800 MHz for a supported peak memory bandwidth of 51.2 Gib/s.

The DDR3 SDRAM is a Micron MT41K256M16HA-125:E (or compatible).

FPGA Flash – 16 MiB Serial Flash Memory

A 128 Mib serial flash device (Numonyx N25Q128A13B1240E or equivalent) provides on-board non-volatile storage for the FPGA.  This device is attached directly to the FPGA for use in your design.

System Flash – 16 MiB Serial Flash Memory

A 128 Mib serial flash device (Numonyx N25Q128A11B1240E or equivalent) provides on-board non-volatile storage accessible to the USB microcontroller.  This device is used to store device firmware and configuration settings as well as other user assets such as FPGA configuration files or calibration data.  Erase, read, and write functions are available at all times (with or without a configured FPGA) through the use of FrontPanel API methods.

LEDs

Four LEDs are available for general use as indicators.

FPGA Fan Controller

A small connector provides power to an optional 5-v fan mounted on the FPGA heat sink. This power is under the control of the microcontroller.

Device Sensors

On-board voltage and current sensors provide real-time access to several power supply measurements through the FrontPanel SDK sensors API.

FrontPanel Support

The XEM7360 is fully supported by Opal Kelly’s FrontPanel Application.  FrontPanel augments the limited peripheral support with a host of PC-based virtual instruments such as LEDs, hex displays, pushbuttons, toggle buttons, and so on.  Essentially, this makes your PC a reconfigurable I/O board and adds tremendous value to the XEM7360 as an experimentation or prototyping system.

Programmer’s Interface

In addition to complete support within FrontPanel, the XEM7360 is also fully supported by the FrontPanel SDK, a powerful C++ class library available to Windows, Mac OS X, and Linux programmers allowing you to easily interface your own software to the XEM.

In addition to the C++ library, wrappers have been written for C#, Java, and Python making the API available under those languages as well. Sample wrappers (unsupported) are also provided for Matlab and LabVIEW.

Complete documentation and several sample programs are installed with FrontPanel.

Copyright

Software, documentation, samples, and related materials are Copyright © 2006-2021 Opal Kelly Incorporated.

Opal Kelly Incorporated
Portland, OR
https://www.opalkelly.com 

All rights reserved. Unauthorized duplication, in whole or part, of this document by any means except for brief excerpts in published reviews is prohibited without the express written permission of Opal Kelly Incorporated.

Opal Kelly® and FrontPanel® are registered trademarks of Opal Kelly Incorporated. Linux is a registered trademark of Linus Torvalds. Microsoft and Windows are both registered trademarks of Microsoft Corporation. All other trademarks referenced herein are the property of their respective owners and no trademark rights are claimed.