|icoBoard||Lattice||iCE40-HX8K||7,680||$100||Sort of||A very simple FPGA development board that plugs into a Raspberry Pi, so you have a "backup" hard-core CPU that can control networking, etc. Supports a huge range of pmod accessories. You can write a program/circuit so that the Raspberry Pi CPU and the FPGA work together, similar to a SoC. Proprietary bitstream is fully reverse engineered and supported by Project IceStorm, and there is an open-source toolchain that can compile your hardware design to bitstream. Has everything you need to start experimenting with FPGAs.|
|iCE40-HX8K Breakout Board||Lattice||iCE40-HX8K-CT256||7,680||$49||No||8 LEDs, 8 switches. Very similar to icoBoard, but no Raspberry Pi or pmod accessories.|
|iCE40 UltraPlus||Lattice||iCE40 UltraPlus FPGA||5280||$99||No||Chip specs. 4 switchable FPGAs, and a rechargeable battery. Bluetooth module, LCD Display (240 x 240 RGB), RGB LED, microphones, audio output, compass, pressure, gyro, accelerometer.|
|Go Board||Lattice||ICE40 HX1K FPGA||1280||$65||No||4 LEDs, 4 buttons, Dual 7-Segment LED Display, VGA, 25 MHz on-board clock, 1 Mb Flash.|
|snickerdoodle||Xilinx||Zynq 7010||28K||$95||Yes||Xilinx Zynq 7-Series SoC - ARM Cortex-A9 processor, and Artix-7 FPGA. 125 IO pins. 1GB DDR2 RAM. Texas Instruments WiLink 8 wireless module for 802.11n Wi-Fi and Bluetooth 4.1. No LEDs or buttons, but easy to wire up your own on a breadboard. If you want to use a baseboard, you'll need a snickerdoodle black ($195) with the pins in the "down" orientation. (E.g. The "breakyBreaky breakout board" ($49) or piSmasher SBC ($195)). The snickerdoodle one only comes with pins in the "up" orientation and doesn't support any baseboards. But you can still plug the jumpers into the pins and wire up things on a breadboard.|
|numato Mimas A7||Xilinx||Artix 7||52K||$149||No||2Gb DDR3 RAM. Gigabit Ethernet. HDMI IN/OUT. 100MHz LVDS oscillator. 80 IOs. 7-segment display, LEDs, buttons. (Found in this Reddit thread.)|
|Ultra96||Xilinx||Zynq UltraScale+ ZU3EG||154K||$249||Yes||Has one of the latest Xilinx SoCs. 2 GB (512M x32) LPDDR4 Memory. Wi-Fi / Bluetooth. Mini DisplayPort. 1x USB 3.0 type Micro-B, 2x USB 3.0 Type A. Audio I/O. Four user-controllable LEDs. No buttons and limited LEDs, but easy to wire up your own on a breadboard|
|Nexys A7-100T||Xilinx||Artix 7||15,850||$265||No||. 128MiB DDR2 RAM. Ethernet port, PWM audio output, accelerometer, PDM microphone, microphone, etc. 16 switches, 16 LEDs. 7 segment displays. USB HID Host for mice, keyboards and memory sticks.|
|Zybo Z7-10||Xilinx||Zynq 7010||17,600||$199||Yes||Xilinx Zynq 7000 SoC (ARM Cortex-A9, 7-series FPGA.) 1 GB DDR3 RAM. A few switches, push buttons, and LEDs. USB and Ethernet. Audio in/out ports. HDMI source + sink with CEC. 8 Total Processor I/O, 40 Total FPGA I/O. Also a faster version for $299 (Zybo Z7-20).|
|Arty A7||Xilinx||Artix 7||15K||$119||No||256MB DDR3L. 10/100 Mbps Ethernet. A few switches, buttons, LEDs.|
|DE10-Standard (specs)||Altera||Cyclone V||110K||$350||Yes||Dual-core Cortex-A9 processor. Lots of buttons, LEDs, and other peripherals.|
|DE10-Nano||Altera||Cyclone V||110K||$130||Yes||Same as DE10-Standard, but not as many peripherals, buttons, LEDs, etc.|
Note: I've changed my mind several times as I learned new things. Here's some of my previous thoughts.
Ui, da hab ich doch tatsächlich bei uns in der Arbeit ein ungenutztes Virtex6-Board gefunden. In Windeseile den Xilinx-VHDL-Port des Open-Source Bitcoin Miners untergeladen und etwas für das ML605-Board und Virtex-6 angepasst. Im Grunde musste ich nur den DCM durch einen neueren Clock-Generating-Core für V6 ersetzen, was gleich gemacht war. fpgaminer / Open-Source-FPGA-Bitcoin-Miner forked from progranism/Open-Source-FPGA-Bitcoin-Miner. Watch 53 Star 154 Fork 461 Code; Issues 3; Pull requests 3; Actions; Projects 0; Wiki; Security; Insights Dismiss Join GitHub today. GitHub is home to over 50 million developers working together to host and review code, manage projects, and build software together. Sign up. New issue Have a ... S2C Accelerates Billion Gate FPGA Prototyping with Xilinx Virtex UltraScale+ VU19P Based Systems Nachricht finanzen.net Over the last few months, on BitcoinTalk there has been a return to the topic of mining using FPGAs, in particular with regard to the Xilinx Virtex VCU1525, an FPGA produced by Xilinx, which with the appropriate programming can be exploited with reasonable results in cryptocurrency mining.. It is not the first time that FPGAs are used to mine, quite the contrary, in the past, between 2012 and ... Virtex® UltraScale+™ devices provide the highest performance and integration capabilities in a 14nm/16nm FinFET node. Xilinx 3rd generation 3D ICs use stacked silicon interconnect (SSI) technology to break through the limitations of Moore’s law and deliver the highest signal processing and serial I/O bandwidth to satisfy the most demanding design requirements.
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Buying a Bitcoin and open trades on Virtex. Virtex is a Canadian Bitcoin Exchange. This video explains how to create a Canadian Virtual Exchange (Virtex) Bitcoin trading account. This short video by Whitefire990 demonstrates an FPGA mining rig consisting of 8 Xilinx VCU1525 FPGA cards. The cards are running freely available software a... Xilinx Debuts the first Virtex UltraScale+ HBM-enabled FPGA - Duration: 1:47. XilinxInc 5,522 views. 1:47. Design and Implementation of a Bitcoin Miner Using FPGAs - Duration: 12 ... Bitmain Technologies Bitcoin Mining: Powered by Xilinx - Duration: 3:10 ... Xilinx demonstrates the Virtex UltraScale+ 58G PAM4 FPGA and 16nm 112G Test Chip - Duration: 2:42 . XilinxInc 2,682 ...