FPGA Main Board Accelerators

The Storage Networking Industry Association (SNIA) defines computation storage as “Architectures that provide Computational Storage Services coupled to storage offloading host processing and/or reducing data movement”, with two foundational constructs, Computational Storage Devices (CSx) and Computational Storage Services (CSS).

The IA-420F is built on BittWare ’s enterprise-class foundation stones: existing products and processes that are already proven through extensive validation. When it’s time to ramp to production, this means a faster turnaround and utilizing the same hardware you have been using for development. 

The IA-840F is built on BittWare ’s enterprise-class foundation stones: existing products and processes that are already proven through extensive validation. When it’s time to ramp to production, this means a faster turnaround and utilizing the same hardware you have been using for development.

The Bittware IA-860m is built on BittWare’s enterprise-class foundation stones: existing products and processes that are already proven through extensive validation. When it’s time to ramp to production, this means a faster turnaround and utilizing the same hardware you have been using for development.

The Bittware IA-780i is a compact 400G FPGA Accelerator Card. The Intel Agilex 7 I-Series FPGAs are optimized for applications that are bandwidth intensive and require high performance processor interfaces. 

The Bittware IA-440i is a compact 400G FPGA Accelerator Cards. The Intel Agilex 7 I-Series FPGAs are optimized for applications that are bandwidth intensive and require high performance processor interfaces. 

The Bittware IA-720i is a compact card with the power of the Intel Agilex 7 I-Series FPGA, which is optimized for applications that are bandwidth intensive and require high performance processor interfaces. 2nd-Generation HyperFlex Architecture achieves 40 percent higher performance, or up to 40 percent lower total power, compared with Stratix 10 FPGAs. 

The Gidel Proc10S high performance scalable compute acceleration board is powered by an Intel Stratix 10 FPGA with up to 200 Kle, 260 GB DDR4 RAM, and an option for a SoC Quad-core 64-bit ARM Cortex-A53 MPCore processor. Peak single precision performance reaches 10 TFLOPS.

Gidel’s Proc10M / Proc10N module is designed to enable easy use and immediate accessibility to the powerful Intel Stratix 10 FPGA with HBM2 on-chip memory technology for both host and embedded systems.

The BittWare 520N-MX accelerator board built with an Intel Stratix 10 MX FPGA is well suited to 100G line rate network packet processing and compute-intensive data center applications that demand high memory bandwidths.

The Proc10A™ system is a flexible, high performance, low-power FPGA platform based on Intel’s powerful Arria 10 FPGA. The Proc10A offers high I/O throughput and high powered on-board processing and data management for low latency for applications such as HPC high performance computing, storage, networking, and high-end imaging.

The HawkEye is a PCIe 8 lane Gen 3 low profile board based on Intel’s Arria 10 FPGA. This compute accelerator has up to 18 GB DDR4 on-board memory, up to four SFP+ links for a maximum of 56 Gbs. The Arria 10 FPGA provides up to 480K LEs and IEEE floating-point numbers.

Gidel offers a number of ultra-compact high-performance FPGA modules that can be mounted on a PCIe carrier board. The modules provide a complete FPGA envelope ready for use while leaving flexibility to tailoring the peripheral system precisely. Gidel provides templates and powerful development tools that enable quick development and optimal FPGA utilization. 

QD-F910 is a low-profile PCIe card based on the Intel Arria 10 GX FPGA. The Arria 10 boasts high densities and a power-efficient FPGA fabric married with a rich feature set including high-speed transceivers, hard floating point DSP blocks, and embedded Gen3 PCIe. 

BittWare 250-SoC system-on-a-chip exploits the NVMe-over-Fabric (NVMEoF) technology of the Xilinx Zynq UltraScale+ MPSoC FPGA. It also has 64-bit ARM processors.

The BittWare 250-U2 is a proxy in-line accelerator (PIA) in the U2 form factor. FPGAs enable accelerated computing, network, and database access.

The BittWare XUPP3R PCIe accelerator board built with a Xilinx UltraScale+  FPGA is designed for high-performance, high-bandwidth, and reduced latency applications demanding massive data flow and packet processing. 

The BittWare XUPVV8 PCIe accelerator board built with a Xilinx UltraScale+ VU13P FPGA is well suited to high density applications. The UltraScale+ VU13P offers up to 3.8 million logic elements. This power density makes thermal management difficult, but Bittware solves this problem  with the Viper platform.

The PCIe8 CML-ECL is a PCI Express 8-lane interface that enables fast DMA and synchronous I/O to transfer CML and ECL data between an external device and a host computer. 8 bidirectional channels are supported; four CML and four ECL.

The EDT PCI CDa board provides one high-speed 16-bit parallel channel or an optional 16 synchronous serial channels between an external device and a PCI local bus computer (or optional 16-channel synchronous serial interface).

The Bittware AV-860h FPGA accelerator board features the Versal Premium 7nm Architecture, combining high bandwidth and compute density on an adaptable platform due to 32GB HBM for High-Speed I/O with PCIe Gen5. 7nm Architecture: Versal Premium architecture combines high bandwidth and compute density on an adaptable platform.

The Bittware AV-870p FPGA accelerator board features the Versal Premium 7nm Architecture, combining high bandwidth and compute density on an adaptable platform. Brought to market in partnership with LDA Technologies, the Bittware AV-870p is a PCIe Gen5 accelerator card designed to deliver extreme performance for data center and edge compute workloads.

Not just more gates, but better data highways, more programmable elements, and 8x GDDR6 memories delivering 4Tbps of aggregate bandwidth for the most demanding compute-intensive applications up to 41K INT8 MACs and 134 INT4 TOPS with multiple floating-point and integer numerical formats.

The EDT ECL / LVDS-E / RS-422-E is a mezzanine board that pairs with an EDT main board for PCI Express for high-speed data transfer. This “E-series” board options are ECL, LVDS or RS-422 inputs and outputs in groups of four, with an E1/T1 option.

The EDT PCIe4 CDa is a PCI Express 4-lane interface that enables fast DMA and synchronous I/O to transfer differential data between an external device and a host computer, LVDS or RS422. FPGA is Intel Arria II GX (EP2AGX45D) combining PCIe DMA at 700 Mbs with UI functionality at 150 Mbs I/O, which is via integrated FIFO buffers.

The EDT PCIe8g3 S5-40G supports PCI Express – PCIe, Gen3 - x8 and has one 40G QSFP+ and supports 1/10/40 GbE, OC3/12/48/192 (STM1/4/16/64), or OTU1/2/2e/2f. The ports link to the SERDES user-interface for serialization and deserialization, and clock recovery and its own 10 – 210 MHz programmable reference clock.

The EDT PCIe8g3 S5-10G supports PCI Express – PCIe, Gen3 - x8 and has four 10G SFP+ and 1 – 10 GbE or OC3/12/48/192 (STM1/4/16/64), or OTU1/2/2e/2f. The ports link to the SERDES user-interface for serialization and deserialization, and clock recovery and its own 10 – 210 MHz programmable reference clock.

The EDT PCIe8g3 A5-10G supports PCI Express – PCIe, Gen3 - x8 and has two 10G SFP+ and 1 – 10 GbE or OC3/12/48/192 (STM1/4/16/64), or OTU1/2/2e/2f. This low-profile board is available as a half-height or full-height backpanel. The port links to the SERDES user-interface for serialization and deserialization, and clock recovery and its own 1 – 808 MHz programmable reference clock.

EDT Bridge, Backpanel, and Time Boards attache to EDT main boards.

The Gidel JPEG Compression FPGA IP Core encodes JPEG at high-performance. The compression IP is fast processing, low latency, and compact silicon utilization. The IP can compress high-performance camera image streams on a small FPGA device, or alternatively, multiple instances can run on a single larger FPGA device.

Gidel’s lossless compression FPGA IP Core is real-time compression for Color Filter Arrays such as Bayer, Monochrome, and RGB images and videos. The IP enables compression of multiple cameras or sensors at pixel clock rates exceeding 1 Giga pixels.