Products Overview

Prototyping

HES™ FPGA Boards

HES™ is a SoC/ASIC pre-silicon prototyping solution for hardware verification and software validation teams and the High Performance Computing (HPC) platform for algorithms acceleration. The boards are based on largest Virtex-7 and Virtex UltraScale FPGA and appear in single or multi-FPGA configurations and can be interconnected on a backplane board providing up to 663 Million ASIC gates....
HES-US-440

HES-US-440 contains one XCVU440 logic module and Xilinx Zynq-7000 host module featuring ARM dual core Cortex-A9 CPU. This board has been optimized for high speed physical prototyping and emulation of medium size ASIC designs up to 26 Million gates. Unique combination of large capacity UltraScale FPGA and Zynq-7000 SoC allows to build a self contained single board testbench for your design.

HES-US-1320

HES-US-1320 with three XCVU440 logic modules is Aldec’s large capacity FPGA board targeted to high speed physical prototyping and emulation of ASIC and SoC designs. The board provides estimated capacity of 79 Million gates, supports up to 48 GB DDR4 in six SO-DIMM slots and it is easily extendable with non-proprietary connectors (BPX & FMC).

HES-US-2640

HES-US-2640 with six XCVU440 logic modules is Aldec’s largest capacity FPGA board targeted to high speed physical prototyping and emulation of ASIC and SoC designs. The board provides estimated capacity of 158 Million gates, supports up to 48 GB DDR4 in six SO-DIMM slots and it is easily extendable with non-proprietary connectors (BPX & FMC).

HES7XV4000BP & HES7XV1380BP

HES7XV4000BP and HES7XV1380BP are dual FPGA prototyping and emulation boards for small-medium size ASIC designs or large FPGA designs. The board is available in two configurations with Virtex-7 2000T or 690T FPGA. The HES7XV4000BP estimated capacity is 24 Million ASIC gates and is easily extendable via non-proprietary connector (BPX).

HES7XV12000BP

HES7XV12000BP with six Virtex-7 2000T logic modules is Aldec’s large capacity FPGA board targeted to high speed physical prototyping and emulation of ASIC and SoC designs. The board provides estimated capacity of 72 Million gates and is easily extendable via non-proprietary connectors (BPX and FMC).

HES-HPC-DSP-KU115

HES-HPC-DSP-KU115 contains Kintex Ultrascale XCKU115 logic module and Xilinx Zynq-7000 host module featuring ARM dual core Cortex-A9 CPU. This board has been optimized for High Performance Computing (HPC) applications and prototyping DSP algorithms in FPGA thanks to the Kintex module with largest number of DSP blocks (5520) in UltraScale family mated with 2 DDR4 and 4 RLDRAM-3 modules. PCIe gen3 interface assures high bandwidth with Host PC to support all prototyping applications.

HES7BPX4

HES7BPX4 is a backplane board used to build hardware platforms larger than single HES-US or HES-7 FPGA Main board. The largest configuration can provide up to 633 Million ASIC gates. It is build of MOLEX connectors mated with HES Main FPGA boards to provide passive, cross board I/O interconnections. Careful design of clock distribution tree assures configurability and flexibility. The JTAG chain from all main boards are integrated on backplane board and provide a common FPGA programming port for all FPGA logic modules in the system.

TySOM Boards

TySOM is a family of development boards for embedded applications that features Xilinx® Zynq™ all programmable module combining FPGA with ARM® Cortex processor. Plethora of included peripherals makes these boards useful in various embedded applications like Automotive, IoT, Industrial automation or embedded HPC....
TySOM-1

TySOM-1 is a compact prototyping board containing the mid size Xilinx Zynq-7000 All Programmable FPGA with dual-core ARM Cortex A9 and rich selection of peripherals to make a complete and universal physical prototyping platform for a broad range of embedded designs and IoT applications.

TySOM-2

TySOM-2 is a compact prototyping board containing Zynq-7000 module. It is designed to assure maximum flexibility in selecting peripherals due to leveraging large Zynq chip package and providing two FMC-HPC connectors enabling use of expansion daughter cards. Standard peripherals like DDR3 RAM, USB and HDMI required by ARM CPU subsystem are contained in that board.

TySOM-2A

TySOM-2A is a compact prototyping board similar to TySOM-2 but featuring a smaller Zynq-7000 module and providing one FMC-HPC connector. Such design assures flexibility in selecting peripherals while providing cost optimized and smaller form factor board well suited for many embedded designs and applications.

Daughter Cards

Daughter cards provide extensions to HES or TySOM boards providing additional devices and peripherals not included in these boards. Due to using non-proprietary connectors like FMC or BPX the daughter cards can be reused across different hardware platforms....
FMC-ADAS

FMC-ADAS daughter card was designed to enable prototyping and evaluation of Automotive and Advanced Driver Assistance Systems (ADAS) designs with TySOM and HES boards. It extends the base functionality of a given FPGA board by providing RADAR, LIDAR and car camera interfaces and peripherals.

FMC-INTF

FMC-INTF card provides a good selection of commonly used peripherals like PCI Express, optical fiber QSFP+, Gigabit Ethernet, USB and more. It extends functionality of main FPGA boards in case given interfaces are not available natively or if they are needed to be connected to other FPGA than native ones.

FMC-IOT

FMC-IOT card provides a set of peripherals and interfaces commonly used in embedded designs of Internet-of-Things (IoT) applications. There are various wireless communication standards used in such designs and this board enables prototyping with any of the Wi-Fi, Bluetooth, ZigBee, Sub-GHz RF devices as well as wired Ethernet networking.

FMC-VISION

FMC-VISION card provides a set of multimedia interfaces for display panels, monitors, and cameras which are widespread across different kinds of designs like embedded vision, graphic & video processors and the like. There is also an audio-codec and USB 3.0 on this daughter card that make it well-fitted for all kinds of multimedia designs prototyping.

HES7DB-USB-ETH

HES7DB-USB-ETH is a small form factor expansion card that uses one segment of BPX connector on HES main boards. It provides Gigabit ethernet and USB peripherals for networking and communication designs. Additionally it provides a HDMI PHY and port for connecting displays.

HES7DB-FMC

HES7DB-FMC is an adapter daughter card from BPX to FMC connectors. Additionally it provides two QSFP+ connectors for high speed serial links used in optical/fiber communication.

HES7DB-SoC

HES7DB-SoC daughter card extends capabilities of HES boards with the ARM Cortex A9 dual-core CPU in a programmable Xilinx Zynq-7000 device. It also provides a set of peripherals commonly used in SoC designs such as USB, Ethernet, Wi-Fi, HDMI and more.

RTAX/RTSX Adaptor Boards

Aldec and Microsemi have joined together, offering a new, innovative, reprogrammable prototyping solution for Microsemi RTAX-S/SL and RTSX-SU space-flight system designs....
ACT-H600-CQ208
Supported FPGA's:
  • RTAX250S-CQ208
  • RTAX250SL-CQ208
ACT-H3Ki-CQ256
Supported FPGA's:
  • RTAX2000S-CQ256
  • RTAX2000SL-CQ256
ACT-H3Ki-CQ352
Supported FPGA's:
  • RTAX250S-CQ352
  • RTAX250SL-CQ352
  • RTAX1000S-CQ352
  • RTAX1000SL-CQ352
  • RTAX2000S-CQ352
  • RTAX2000SL-CQ352
ACT-H4Ki-CQ352
Supported FPGA's:
  • RTAX4000S-CQ352
  • RTAX4000SL-CQ352
ACT-H3Ki-CG624
Supported FPGA's:
  • RTAX250S-CG624
  • RTAX250SL-CG624
  • RTAX1000S-CG624
  • RTAX1000SL-CG624
  • RTAX2000S-CG624
  • RTAX2000SL-CG624
ACT-H2K-CG1152
Supported FPGA's:
  • RTAX2000S-CG1152
  • RTAX2000SL-CG1152
ACT-H4K-CG1272
Supported FPGA's:
  • RTAX4000S-CG1272
  • RTAX4000SL-CG1272
ACT-RTSXi-CQ208
Supported FPGA's:
  • RTSX32SU-CQ208
  • RT54SX32S-CQ208
  • A54SX32A-CQ208
ACT-RTSXi-CQ256
Supported FPGA's:
  • RTSX72SU-CQ256
  • RT54SX72S-CQ256
  • A54SX72A-CQ256

RTAX/RTSX Netlist Converter

The RTAX EDIF Netlist Converter performs automatic conversion of the RTAX-S/SL EDIF netlist to a ProASIC3E netlist, which means replacement of the primitives has to be done, with consideration of the limitations (differences between RTAX-S/SL anti-fuse and ProASIC3/E flash-based technologies). A pin remapping utility allows automatic Physical Design Constraint (PDC) file conversion which eliminates the need for additional and time consuming manual work......
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