Fpga Jobs

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Hourly - Intermediate ($$) - Est. Time: Less than 1 month, Less than 10 hrs/week - Posted
Looking for someone to help make the following mods to https://github.com/drxzcl/neppielight: 1. use WS2811/WS2812 instead of WS2801 2. replace accumulator/averaging logic with one on-chip FIFO per HDMI display column 3. add option to use alternating even/odd frames and refresh at 30 FPS Overview: The purpose of the project is to use a Xilinx Spartan 6 FPGA to drive at least 32 strings of WS2811/WS2812 smart LEDs from an HDMI signal. ... (similarly, HDMI frame triplets would give max LED string of ~ 1650 at 20 FPS). I'm working my way up the CPLD and FPGA learning curve, but it's taking me more time than I currently have available. ... Restrictions/environment: - target device is a Xilinx Spartan 6 XC6SLX9-2C TQG144, 100 MHz clock (Numato Mimas board, no off-chip SDRAM); the Scarab miniSpartan 6+ seems to be no longer available and Neppielight did not require external RAM so I'd like to use the Numato Mimas, but I am open to using other inexpensive alternatives - must be able to build the synthesized code with a recent ISE WebPack (free license), for example, 14.7; no use of high-end licensed tools or proprietary IP (target audience is hobbyists) - needs to handle at least XGA (1024 x 768) HDMI signal, no DMCA (ie, encryption) since the source is a computer display adapter - needs to provide at least 32 display columns, or the maximum number within the available on-chip RAM - TDMS re-encoding (output) can be dropped if needed, but is preferable to leave that intact in order to make usage and testing easier - use any computer as the HDMI signal source (non-encrypted); I'm using a laptop or a Raspberry Pi 2, but that should not matter as long as it is low enough video rate - Verilog preferred, but VHDL is acceptable (I realize neppielight is in VHDL) - FPGA output timing should be compatible with both WS2811 and WS2812 (running in "fast" mode at 800 KHz); from other projects I know the same timing can be used with both - WS2811/WS2812 outputs from the FPGA should be inverted (compile-time option); this will make it easier to use with simple transistor level shifters - project should use a compile-time Parameter for FPGA clock speed (100 MHz currently) Project milestones: 1.
Skills: Field-Programmable Gate Array (FPGA) Verilog / VHDL Xilinx
Hourly - Intermediate ($$) - Est. Time: Less than 1 month, 10-30 hrs/week - Posted
Looking to create a prototype for a Bluetooth based device that can be remotely controlled from a mobile app. You'll need to have a proven experience of creating a low voltage devices, be comfortable designing circuit boards and creating a prototype. Big plus if you created a similar integration between IoT (Internet of Things) and mobile apps. You will not need to create the mobile app but you'll need to work with the rest of the team to enable the platform which the will run the firmware. Do you enjoy working with Microcontrollers such as Arduino or Raspberry Pie? Then this project might be of interest to you.
Skills: Field-Programmable Gate Array (FPGA) Arduino Bluetooth Circuit Design
Fixed-Price - Intermediate ($$) - Est. Budget: $100 - Posted
The task is to implement Waveform monitor https://en.wikipedia.org/wiki/Waveform_monitor on a Xilinx kC705 Kintex FPGA board. Take video input from SDI interface https://en.wikipedia.org/wiki/Serial_digital_interface implement Waveform monitor for this signal and send output to another SDI interface.
Skills: Field-Programmable Gate Array (FPGA) Electronic Design Embedded Systems TV Broadcasting
Fixed-Price - Entry Level ($) - Est. Budget: $250 - Posted
I need a PCB designed and assembled with these features. We can discuss further. Board based on Beagleboard Beaglebone Black Only the basics are needed. Sitara CPU, PCM5101 Audio PLL, Ethernet, I2C for Apple Auth chip and a TDA1540 DAC connected to the UART using Simultaneous Data Protocol WiFi, USB, video, RCA output, Analog In, Analog Out not needed Add a TDA1540 DAC per channel using serial connection i2c required for apple auth Requirements: Must know Hardware, PCB Design, some Linux, Digital Electronics, Audio Must have Distortion Analyzer, Oscilloscope
Skills: Field-Programmable Gate Array (FPGA) Analog Electronics Arduino Digital Electronics
Fixed-Price - Intermediate ($$) - Est. Budget: $200 - Posted
Looking for an fpga developer who can create fpga board that interface to camera and raspberry pi 3 , that encodes/decodes google vp9 streaming note that fpga encoder/decoder softwares for fpga are in google's own website http://www.webmproject.org/hardware/ Note that this are what they provide for encoding and decoding as written in their web page -HLS (C++) source code -Verilog source code -Driver source code in ANSI C, including API for application integration -Software test bench -RTL test bench -Comprehensive test suite for SoC integration and verification ... Looking for an fpga developer who can create fpga board that interface to camera and raspberry pi 3 , that encodes/decodes google vp9 streaming note that fpga encoder/decoder softwares for fpga are in google's own website http://www.webmproject.org/hardware/ Note that this are what they provide for encoding and decoding as written in their web page -HLS (C++) source code -Verilog source code -Driver source code in ANSI C, including API for application integration -Software test bench -RTL test bench -Comprehensive test suite for SoC integration and verification
Skills: Field-Programmable Gate Array (FPGA) Hardware Prototyping Raspberry Pi
Hourly - Expert ($$$) - Est. Time: More than 6 months, 30+ hrs/week - Posted
We are currently looking for a XILINX ZYNQ specialists who has worked with Video / image processing. We want one video / image processing specialist who is very experienced in Zynq + mandatory skill set : 1- VIVADO 2- AXI 3- VHDL 4- video and image processing-related experience in architecture, design, writing ip cores, and integration to a Zynq-based system Apply only if you have extensive experience with ZYNQ and VIVADO. Thank you!
Skills: Field-Programmable Gate Array (FPGA) ARM Image Processing VHDL