Open implementation of the x86 architecture
OpenSOC86 is an open implementation of the x86 architecture in Verilog. The current version only implements the 16-bit part (real mode). The processor is a pipelined architecture clocked at 100 MHz in a Cyclone II speed grade -6. Therefore it can be seen as similar to a 486 in real mode. Several peripherals are also implemented in a somewhat minimalistic way, but enough to be able to boot an IBM PCXT compatible bios and MSDOS 6.22. The current implementation is only proven to boot the bios and DOS in simulation. The system is targeted to run on the DE2-70 board. In order to run the system in hardware a SDRAM and SRAM controller need to be added. These are currently in development.
libhdlfltp is a VHDL library of floating point operators, all of which are parametrized, synthesizable to FPGAs and cover a number of the core operators in math.h.
The HDL Complexity Tool parses large complex hardware projects' source code to produce useful complexity results. GOALS: 1)Practical, effective and simple 2) Integrates with existing design flows 3) Used on real projects 4) Based on existing research
The Affordable BIOS Restoration Tool provides VHDL and C code to recover from failed BIOS upgrades using affordable CPLD's. EEPROM's and Flash chips can be restored with this flash programmer. Interfaces for DIP and tsop packages are being developed.
Demo of Simulink to C++ C or HDL FGA for HFT potential
Video and files download for Visual trading idea to C++ or FPGA HFT Meetup File download sample: test model (Matlab 2014b with Visual Studio 2013 C++ project generated) Powerpoint MATLAB SIMULINK http://quantlabs.net/blog/2015/04/video-and-files-download-for-visual-trading-idea-to-c-or-fpga-hft-meetup/
BlowfishVHDL - free fully synthesizable Blowfish encryption algorithm hardware implementation.
Library of Approximate Adders
We provide MATLAB and Verilog Models of GeAr, and previously proposed adders (ACA-I, ETAII, ACA-II and GDA) at http://sourceforge.net/projects/approxadderlib/ GeAr is a low latency Generic Accuracy Configurable Adder that provides a higher number of potential configurations compared to state-of-the-art approximate adders, thus enabling a high degree of flexibility and trade-off between performance and output quality. These MATALB and Verilog models can allow software programmer as well as hardware designers to evaluate their code and design. To the best of our knowledge, this is the first open-source library of approximate adders that facilitates reproducible comparisons and further research and development in this direction across various layers of design abstraction. This work is a result of collaborative effort between Chair for Embedded Systems (CES) at Karlsruhe Institute of Technology (KIT), Germany and Vision Image and Signal Processing (VISpro) Lab at SEECS-NUST, Pakistan.
A Verilog design for a simple ASIC that executes the Ray Tracing Algorithm.
Verilog Finite State Machine (FSM) Code Generator
SmGen is a finite state machine (FSM) generator for Verilog. On the other hand, it is not an FSM entry tool. The input is behavioral Verilog with clock boundaries specifically set by the designer. SmGen unrolls this behavioral code and generates an FSM from it in synthesizable Verilog. Clock boundaries are explicitly provided by the designer so there is good control on the expected timing
HW(VHDL) and SW of logic analyzer and On-Chip-Verification(OCV) for Value Change Dump(VCD) file format that exported to seemd SystemC ,ModelSIM, and many other EDA tools. Very easy and Simple.
An Open-Source Library for Low-Power Approximate Computing Modules
The “lpACLib” library contains the VHDL description of accurate and approximate versions of several arithmetic modules (like adders and multiplier of different bit-widths) and accelerators. Moreover, it also provides the corresponding software behavioral models/implementations developed in C and MATLAB to enable quality characterization. Besides our novel designs, it also contains implementations for several state-of-the-art arithmetic modules and their approximate versions. This open-source library facilitates research and development in approximate computing at higher abstraction levels, and to facilitate reproducible research and comparisons. In case of usage, please refer to our publication: Muhammad Shafique, Rehan Hafiz, Semeen Rehman, Walaa El-Harouni, Jörg Henkel, "Cross-Layer Approximate Computing: From Logic to Architectures", Design Automation Conference (DAC), 2016. Contributors: Authors, Vanshika Baoni, M. Abdullah Hanif http://ces.itec.kit.edu/lpACLib.php
Asynchronous Spatial Division Multiplexing Router for On-Chip Networks
This project provide a reconfigurable asynchronous SDM router which can be configured into a basic wormhole router or an SDM router with multiple virtual circuits in every direction. Features: * 5-port router for mesh network (0 south, 1 west, 2 north, 3 east, 4 local) * The dimension order routing (XY routing) * Available flow control methods: wormhole, SDM, VC * Reconfigurable number of virtual circuits, buffer size, data width * Fully synthesizable router implementation * SystemC testbench provided Languages: * Routers are written in synthesizable SystemVerilog * Test benches are provided by SystemC Software requirements: * The open source Nangate 45nm cell library * Synopsys Design Compiler (Synthesis) * Cadence IUS -- NC Simulator (for SystemC/Verilog co-simulation)
a micro processor 16 bits optimized to hold in a CPLD
This is a simple DES algorithm implemented in FPGA platform. Mainly this system was written by C and interpreted into VHDL.
the goal of this project is to build a stack for Lonworks Protocol and device working on this protocol
This project aims at creating an open-source SoC that will support the Google TV platform.
This project aims to develop a colour-based vision processing system for use in RoboCup. We are using a CCD camera for input to an FPGA. The system locates coloured objects and outputs detected corners.
The OS561 operating system based around FORTH/Java. The OS is to run on a VHDL chip OpenHardware design called the Minon, but could become available for other platforms. The unique point of the design is a revolutionary data compression technology.
OpenWebServo is an Open Source Hardware and Software project. Its main goal is to develop a web-controlled servo system. The project includes web application, firmware and hardware design.
Palette for computer architecture design
Palette for computer architecture design
Framework for Adaptive Hardware Concurrent Systems with DPR-FPGAs
This project introduces new FPGA architectural tools and Linux OS modifications that aid in supporting Dynamic Partial Reconfiguration (DPR) on FPGAs for concurrent control. It shows that control systems benefit from hardware concurrency, meaning that by moving the control intelligence into hardware, the negative effects inherent to threads and their scheduler are minimized. This leaves software with the role of a high-level administrator rather than an executor, thereby eliminating unnecessary bottlenecks. The tools described in this project enable the hardware engineer to develop DPR-FPGA systems more effectively for rapid control system development. For more information, related papers and user guide, please refer to: - https://sourceforge.net/p/prhardware/wiki/Home/ - http://www2.ensc.sfu.ca/research/iDEA/personel/victor_lesau.htm
Robert 2 is a robot, but doesn't exist yet. This project intend to develop all the software to build it
Project SUZAKU, home of software development based on SUZAKU FPGA board
Simple RISC microprocessor development project
The SBus is a family of high-speed packet-based databus standards, suitable for both networking and interdevice communication. They are optimized for high data density transactions. This project creates and documents the standards, schematics, and driver