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Best $100-$300 FPGA development board in 2018?

Hello, I’ve been trying to decide on a FPGA development board, and have only been able to find posts and Reddit threads from 4-5 years ago. So I wanted to start a new thread and ask about the best “mid-range” FGPA development board in 2018. (Price range $100-$300.)
I started with this Quora answer about FPGA boards, from 2013. The Altera DE1 sounded good. Then I looked through the Terasic DE boards.
Then I found this Reddit thread from 2014, asking about the DE1-SoC vs the Cyclone V GX Starter Kit: https://www.reddit.com/FPGA/comments/1xsk6w/cyclone_v_gx_starter_kit_vs_de1soc_board/‬ (I was also leaning towards the DE1-SoC.)
Anyway, I thought I better ask here, because there are probably some new things to be aware of in 2018.
I’m completely new to FPGAs and VHDL, but I have experience with electronics/microcontrollers/programming. My goal is to start with some basic soft-core processors. I want to get some C / Rust programs compiling and running on my own CPU designs. I also want to play around with different instruction sets, and maybe start experimenting with asynchronous circuits (e.g. clock-less CPUs)
Also I don’t know if this is possible, but I’d like to experiment with ternary computing, or work with analog signals instead of purely digital logic. EDIT: I just realized that you would call those FPAAs, i.e. “analog” instead of “gate”. Would be cool if there was a dev board that also had an FPAA, but no problem if not.
EDIT 2: I also realized why "analog signals on an FPGA" doesn't make any sense, because of how LUTs work. They emulate boolean logic with a lookup table, and the table can only store 0s and 1s. So there's no way to emulate a transistor in an intermediate state. I'll just have play around with some transistors on a breadboard.
UPDATE: I've put together a table with some of the best options:
Board Maker Chip LUTs Price SoC? Features
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.

Winner:

icoBoard ($100). (Buy it here.)
The icoBoard plugs into a Raspberry Pi, so it's similar to having a SoC. The iCE40-HX8K chip comes with 7,680 LUTs (logic elements.) This means that after you learn the basics and create some simple circuits, you'll also have enough logic elements to run the VexRiscv soft-core CPU (the lightweight Murax SoC.)
The icoBoard also supports a huge range of pluggable pmod accessories:
You can pick whatever peripherals you're interested in, and buy some more in the future.
Every FPGA vendor keeps their bitstream format secret. (Here's a Hacker News discussion about it.) The iCE40-HX8K bitstream has been fully reverse engineered by Project IceStorm, and there is an open-source set of tools that can compile Verilog to iCE40 bitstream.
This means that you have the freedom to do some crazy experiments, like:
You don't really have the same freedom to explore these things with Xilinx or Altera FPGAs. (Especially asynchronous circuits.)

Links:

Second Place:

iCE40-HX8K Breakout Board ($49)

Third Place:

numato Mimas A7 ($149).
An excellent development board with a Xilinx Artix 7 FPGA, so you can play with a bigger / faster FPGA and run a full RISC-V soft-core with all the options enabled, and a much higher clock speed. (The iCE40 FPGAs are a bit slow and small.)
Note: I've changed my mind several times as I learned new things. Here's some of my previous thoughts.

What did I buy?

I ordered a iCE40-HX8K Breakout Board to try out the IceStorm open source tooling. (I would have ordered an icoBoard if I had found it earlier.) I also bought a numato Mimas A7 so that I could experiment with the Artix 7 FPGA and Xilinx software (Vivado Design Suite.)

Questions

What can I do with an FPGA? / How many LUTs do I need?

submitted by ndbroadbent to FPGA [link] [comments]

PBaaS- The Age of Merged Mining is Upon Us

PBaaS- The Age of Merged Mining is Upon Us

Full article found here:
https://medium.com/@myschlongis/pbaas-the-age-of-merged-mining-is-upon-us-687f432bcac3

Summary of article below:

satoshi
Founder
Sr. Member
Activity: 364 Merit: 1997 View Profile
Re: BitDNS and Generalizing Bitcoin
December 09, 2010, 09:02:42 PM
Merited by Traxo (1)
#222
I think it would be possible for BitDNS to be a completely separate network and separate block chain, yet share CPU power with Bitcoin. The only overlap is to make it so miners can search for proof-of-work for both networks simultaneously.
The networks wouldn't need any coordination. Miners would subscribe to both networks in parallel. They would scan SHA such that if they get a hit, they potentially solve both at once. A solution may be for just one of the networks if one network has a lower difficulty.
I think an external miner could call getwork on both programs and combine the work. Maybe call Bitcoin, get work from it, hand it to BitDNS getwork to combine into a combined work.
Instead of fragmentation, networks share and augment each other's total CPU power. This would solve the problem that if there are multiple networks, they are a danger to each other if the available CPU power gangs up on one. Instead, all networks in the world would share combined CPU power, increasing the total strength. It would make it easier for small networks to get started by tapping into a ready base of miners.
-Satoshi Nakimoto


These were the anonymously written, prophetic words of Satoshi Nakimoto, posted to bitcointalk nearly a decade ago and yet they describe a concept that today we are only truly realizing. What Satoshi describes is not only an elegant solution to many of today's cryptocurrency shortcomings but if implemented properly, could form the backbone for an entire crypto-economy of secure, scalable, and self sufficient chains, outside of the flawed one we currently have.
This new crypto-economy would need to be backed by a secure chain itself with immunity to 51% attacks and powerful cutting edge technological features supporting anonymity and protection of assets to pass on down to the interconnected chains.

One such cutting edge project is Verus Coin (https://veruscoin.io/).
The lead Technical Developer of Verus is a former VP at Microsoft who also co-founded Microsoft’s Java and .NET platforms.
Verus has a unique, new consensus algorithm called Proof of Power, a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. Verus utilizes zk-snarks tech zero-knowledge proofs and is not "forced private", allowing for both transparent and shielded (private) transactions along with private messages as well. They created their very own hardware equalizing algorithm VerusHash 2.0, that leverages the many hardware advantages intrinsic to modern CPU's architecture, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. VerusHash 2.0 is specifically designed to better equalize hashrates across all mining hardware types, allowing CPUs and FPGAs to mine competitively on the same network and by favoring the latest CPUs over older types, has the additional benefit of being a defense against the centralizing potential of botnets.

Verus and the Verus Coin project are community driven, all open source (https://github.com/VerusCoin/VerusCoin) and they are also now currently running a test net of their all new protocol, PBaaS (Public Blockchain as a Service) with merged mining of up to 15 (including Verus) fully independent, secure, scalable chains that all share the properties of the parent chain described above. Check out their Discord to give merged mining a try for yourself.

I do know that merged mining as a concept has been around for a while. There are even some implementations out there too, but not on the scale of what Verus is doing. They are creating an ecosystem fully interconnected and yet independent blockchains that scale and because of their implementation (The bottom link on Merkle Mountain Ranges (MMRs)) they will all be able to be exchanged with each other and converted automatically, like a smart exchange without the need for buyers and sellers. What they are doing is truly revolutionary in it's one click chain creation ease and the fact that it is a massive network of chains (just like each of all the coins we have now) but where people can mine up to 15 projects at a time at no additional energy costs and all the created projects are fully protected. I do understand that other projects are doing great things as well and it was not my aim to downplay that but rather to highlight what can come next and fill in the holes left from a first generation blockchain network.



A Peek at the GUI (Graphical User Interface) version of the wallet
https://preview.redd.it/sa0dzgtyk5v21.jpg?width=1651&format=pjpg&auto=webp&s=08f89d5fbb7682a6fbba105fa8819c906dffcb44
https://preview.redd.it/1f65bfk1l5v21.png?width=3840&format=png&auto=webp&s=daadea4ad6775ac68abad2754944f7afd4ee4e0a


A Peek at the CLI (Command Line Interface) version of the wallet (with GUI) courtesy of a community member.
https://preview.redd.it/pdzpu4p7l5v21.jpg?width=2444&format=pjpg&auto=webp&s=40c17cd47c1d25c98de1e50947949f99dcbc484d


A helpful place for lots of useful information and if you want to learn more, check out their Medium page (https://medium.com/veruscoin)

A rough description of the concepts described above:

-PBaaS: or Public Blockchain as a Service is a revolutionary new take on the blockchain as a service model entirely unique to Verus that offers the tools and necessary means to build on and utilize blockchain technology for business or personal use. It is similar to using a web hosting service to build a website with, but rather than having to build one by yourself from scratch, the service provider supplies the basics and handles all the necessary tasks from general upkeep to infrastructure maintenance. Since Verus doesn't rely on a centralized authority to work, there isn't any one single point of failure in the network, so in the event of a hack, power failure, data breach or loss, Verus' system is immune while the other options aren't. Instead of relying on a centralized system, Verus elegantly does work for the public by utilizing the public to do work.

-Merge Mining: or auxiliary mining is a lesser known cryptographic concept that has been seldom discussed and even less so attempted, but can be found as far back as bitcointalk's earliest days. Unfortunately, development in this area of work has remained largely stagnant due to the numerous difficulties involved in coding it, coupled with the sheer complexity and vast scope involved in the programming work. Fortunately, the development team's years of experience and months of hard work have finally paid off, and now merge mining in it's true form is at last a reality. This means that a miner could find a block for Verus and now hypothetically also earn block rewards for several other projects at the exact same time! With literally nothing to lose, and significantly more to gain, it's a no brainer choice for miners. Now miners who mine for profit can make more with the same energy expenditure, while at the same time still have the option to speculatively mine and hold projects they really believe in or care about. Businesses and individual project creators will benefit too by being able to attach a newly formed project to the hashrate of a larger, more established one. This would provide security and reliability to new projects right away and in their earliest stages, a point where they are most vulnerable. Verus has created the foundation for which any person or business, whether small or large, can safely and easily enter into the blockchain.

A semi-visual descriptive paper on the immense benefits of utilizing Merkle mountain ranges, one of the many technologies implemented in Verus PBaaS- https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2016-May/012715.html




Also, full disclosure for readers or mods, I am also a member of this crypto community among several others and this should not diminish the value of it's content. I wrote this post to highlight a genuine technical achievement in cryptocurrency and if not here, then where do we discuss this?
The lead developer Michael Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date.
What their team has managed to do (in testnet, but open to the public for testing) is truly unique in that they've already built a functional system of fully interconnected blockchains that each are also completely independent from one another and fully scalable, private, secure, and immune to 51% attacks. Public blockchain as a service is their ultimate goal of offering these near infinite, secure blockchains to project creators, mineable for near zero energy and protected from attacks. Secure voting, polling, and identity using the tech are on the not-too-distant horizon.
Even the briefest glance over any of their work and it is easy to see this is not just another bs post. I hope this complies with all the rules. If there is some other place to discuss cryptocurrency and the launch of an all new system within it, please let me know. Things keep getting removed without a word said why. I'm happy to do things the proper way.
submitted by Godballz to CryptoCurrency [link] [comments]

[PoW|Hash] SquashPoW - ASIC Resistant, Assymetric Hash

Discussions in ProgPoW, Ethash and RandomX resulted in one agreement. Memory-intensity (mainly bus-intensity) can be used to achieve or increase the resistance against ASICs, to bring back mining to the average Joe and re-distribute mining.
Meanwhile, a new algorithm called rainforest started being used in new coins such as MicroBitcoin. While the developer of said algorithm seems to be confident that their algorithm is expensive for ASICs and FPGAs to implement, issues have been found in the code, which resulted in (closed-source) GPU miners running at 1000x the original speed and FPGA-Vendors listing this algorithm as one of the coins possible to mine.
Using the research done for the rainforest algorithm, a brand new hash called "Squash" has been created. It has similar properties to rainforest, meaning that it still utilizes "expensive" functions, but also speeds very close to blake2 (5.5 to 4 cycles per byte, depending on the architecture).
To also have shared properties with Ethash and ProgPoW, a variant called SquashPoW has been designed. It uses the same interior design. This supposedly results in expensive ASICs with low potential gain and more importantly - asymmetry. Asymmetry allows developers or "coins" to force a miner to run on a relatively large scratchpad while a verifier can run on significantly less resources and therefore still inherit the ability to properly validate incoming blocks. More on that in the ethash design rationale.
Now, whats new in SquashPoW?
In case you are now interested in testing out SquashPoW, I highly recommend checkout out the source code which can be seen at the official GitHub Repository.
Please note, SquashPoW is merely a variation of the concepts of Ethash. If you enjoy this hash, please show the original some love.
Please also note, that this is merely a post to spread awareness.
EDIT: A reference implementation can be found here
submitted by Luke_ClashProject to CryptoNoteTech [link] [comments]

Waltonchain All-in-One - Extended

Welcome!

I would like to warmly welcome everyone to waltonchain
This is an updated, extended community-written post and I will try to update it regularly over time.
Please respect our rules (see sidebar) and feel free to comment, contribute and ask questions.
Don’t forget to subscribe to the subreddit for any news on Waltonchain!
 

Getting Started

What is Waltonchain?

The Waltonchain Foundation is building a cross-industry, cross-data sharing platform by integrating Blockchain with the Internet of Things through self-developed RFID Chips with intellectual property rights.
The in-house developed Waltonchain RFID chips integrate a proprietary, genuine random number generator and an asymmetric encryption logic and hardware signature circuit, all of which are patent-protected.
The combination of self-developed RFID chips and the Waltonchain blockchain will ultimately achieve the interconnection of all things and create a genuine, believable, traceable businessmodel with totally shared data and transparent information.
Waltonchain will unfold a new era of the Value Internet of Things (VIoT).
 
Waltonchain Introduction Video
Launch of Waltonchain
 

The Project

The Waltonchain team has formulated a 4-phase development plan, starting from infrastructure platform establishment to gradually incorporating retail, logistics and product manufacturing, and to finally achieving the full coverage of the business ecosystem.
 
As for the phase 1.0 of the project, the team has developed the clothing system integration scheme based on RFID. The application scenarios at phase 1.0 will establish Golden demonstration template
At phase 2.0, our RFID beacon chip will be massproduced and can be used in clothing, B2C retail and logistics.
At phase 3.0, manufacturers will achieve traceable customization of intelligent packaging.
At the project phase 4.0, with the upgrading and iteration of assets information collection hardware and improvement of blockchain data structure, all assets can be registered in Waltonchain in the future.
 
Original Roadmap Thread

Project-Updates:

Video: WTC-Garment System by Waltonchain & Kaltendin
Video: WTC-Food System by Waltonchain
 

Official Resources

Waltonchain Whitepaper
Waltonchain Official Website
Waltonchain Github
 
Official Official Medium
Official Slack
Official Instagram
Official Facebook
Official Twitter @waltonchain
Official Telegram @waltonchain_en
 
Dedicated community Telegram channel for Waltonchain miners, MN & GMN holders.
@WaltonchainMining
 
 
Chinese Community
本群为沃尔顿链华文官方社群
Chinese Telegram @waltonchain_cn
官方网站 - Waltonchain China - Website
 
Korean Community
공식사이트 - Waltonchain Korea - Website
카카오톡 - Waltonchain Korea - Kakao
트위터 - Waltonchain Korea - Twitter
블로그 - Waltonchain Korea - Naver Blog
인스타그램 - Waltonchain Korea - Instagram
Freyr 공식텔레그램방(한국) - Freyrchain Korea - Telegram
Communities in Progress
Russian Twitter @waltonchain_ru
Russian Website
Japanese Twitter @waltonchain_jp
Japanese Website
Brazilian Twitter @waltonchain_br
 

Waltonchain Wallet

Please note that before the token swap,
DO NOT transfer your ERC20 WTC tokens to the WTC wallet!!
 
Wallet for PC (Github)
Web Wallet - Instruction Manual
Windows Wallet - User Manual
Windows Wallet - Tutorial Video
Wallet for Android
Google Playstore
Github
Android User Manual
Android Wallet - Tutorial Video
 
Wallet for IOS
(pending Apple Store approval)
 
Explorer
Waltonchain Explorer
Waltonchain Blockchain Explorer User Manual
 
Mining
Waltonchain GPU Mining User Manual
Waltonchain Progressive Mining Reward Program
 
Unofficial
Unofficial Guardian Masternode Tracker
waltonchain.tech - Unofficial collection of news and useful resources

The Foundation

>> Waltonchain Organizational Chart <<<--
 
Waltonchain Foundation Ltd. (Singapore) - 沃尔顿链
Waltonchain (HK) Development Co. Ltd. (Head company)
Walton Chain Technology Co. Ltd. (Korea)
Silicon (Shenzhen) Electronic Technology Co. Ltd.
Silicon (Xiamen) Electronic Technology Co.Ltd. (RFID Chip Research)
Silicon (Quanzhou) Electronic Technology Co. Ltd.(IoT Intelligent Switch Chip)
Nanjing Sleewa Information Technology Co. Ltd. (Blockchain)
Quanzhou KEDIHENG Electronic Technology Co. Ltd
Xiamen IOT Technology Co. Ltd.
Xiamen Citylink Technology Co.Ltd.
Xiamen ZhongChuan IOT Industry Research Institute Co.Ltd.
 

The Team

Founder:

Do Sanghyuk (都相爀) – Initiator in Korea
Korean, Vice Chairman of the China - Korea Cultural Exchange Development Committee, Director of the Korea Standard Products Association, Chairman of Seongnam Branch of the Korea Small and Medium Enterprises Committee, Chairman of Korea NC Technology Co., Ltd., Senior Reporter of IT TODAY News, Senior Reporter of NEWS PAPER Economic Department, Director of ET NEWS.
 
Xu Fangcheng (许芳呈) – Initiator in China
Chinese, majored in Business Management, former Director for Supply Chain Management of Septwolves Group Ltd., has rich practical experience in supply chain management and purchasing process management. Currently, he is the Director of Shenzhen Silicon, the Director of Xiamen Silicon and the Board Chairman of Quanzhou Silicon. He is also one of our Angel investors.
 

Senior Experts:

Kim Suk ki (金锡基)
Korean, South Koreas electronics industry leader, Doctor of Engineering (graduated from the University of Minnesota), Professor of Korea University, previously worked at Bell Labs and Honeywell USA, served as vice president of Samsung Electronics, senior expert in integrated circuit design field, IEEE Senior Member, Vice President of the Korea Institute of Electrical Engineers, Chairman of the Korea Semiconductor Industry Association. Has published more than 250 academic papers with more than 60 patents.
 
Zhu Yanping (朱延平)
Taiwanese, China, Doctor of Engineering (graduated from National Cheng Kung University), Chairman of the Taiwan Cloud Services Association, Director of Information Management Department of National Chung Hsing University. Has won the Youth Invention Award by Taiwan Ministry of Education and Taiwan Top Ten Information Talent Award. Has deeply studied blockchain applications over the years and led a block chain technology team to develop systems for health big data and agricultural traceability projects.
 

Chief Experts

Mo Bing (莫冰)
Chinese, Doctor of Engineering (graduated from Harbin Institute of Technology), Research Professor of Korea University, Distinguished Fellow of Sun Yat - sen University, Internet of Things expert, integrated circuit expert, Senior Member of Chinese Society of Micro-Nano Technology, IEEE Member. Has published more than 20 papers and applied for 18 invention patents. Began his research of BitCoin in 2013, one of the earliest users of btc 38.com and Korea korbit. Served as Technical Director of Korea University to cooperate with Samsung Group to complete the project Multi sensor data interaction and fusion based on peer to peer network. Committed to the integration of block chain technology and Internet of Things to create a real commercialized public chain.
 
Wei Songjie (魏松杰)
Chinese, Doctor of Engineering (graduated from the University of Delaware), Associate Professor of Nanjing University of Science and Technology, Core Member and Master Supervisor of Network Space Security Engineering Research Institute, Block Chain Technology expert in the field of computer network protocol and application, network and information security. Has published more than 20 papers and applied for 7 invention patents. Previously worked at Google, Qualcomm, Bloomberg and many other high-tech companies in the United States, served as R D engineer and technical expert; has a wealth of experience in computer system design, product development and project management.
 

Core Members

Shan Liang (单良)
Graduated from KOREATECH (Korea University of Technology and Education) Mechanical Engineering Department, Venture Capital PhD, GM of Waltonchain Technology Co., Ltd. (Korea), Director of Korea Sungkyun Technology Co., Ltd., Chinese Market Manager of the heating component manufacturer NHTECH, a subsidiary of Samsung SDI, economic group leader of the Friendship Association of Chinese Doctoral Students in Korea, one of the earliest users of Korbit, senior digital money player.
 
Chen Zhangrong (陈樟荣)
Chinese, graduated in Business Management, received a BBA degree in Armstrong University in the United States, President of TIANYU INTERNATIONAL GROUP LIMITED, leader of Chinese clothing accessories industry, Chinas well-known business mentor, guest of the CCTV2 Win in China show in 2008. Researcher in the field of thinking training for Practical Business Intelligence e-commerce and MONEYYOU course, expert on success for Profit Model course. Began to contact Bitcoin in 2013 with a strong interest and in-depth study of digital money and decentralized management thinking. Has a wealth of practical experience in the business management, market research, channel construction, business cooperation and business model.
 
Lin Herui (林和瑞)
Chinese, Dean of Xiamen Zhongchuan Internet of Things Industry Research Institute, Chairman of Xiamen Citylink Technology Co., Ltd., Chairman of Xiamen IOT. He successively served as Nokia RD Manager and Product Manager, Microsoft Hardware Department Supply Chain Director. In 2014, started to set up a number of IoT enterprises and laid out the industrial chain of the Internet of Things. The products and services developed under his guidance are very popular. Assisted the government in carrying out industrial and policy research and participated in planning of multiple government projects of smart cities, IoT towns and project reviews.
 
Ma Xingyi (马兴毅)
Chinese, China Scholarship Council (CSC) special student, Doctor of Engineering of Korea University, Research Professor of Fusion Chemical Systems Institute of Korea University, Korea Sungkyun Technology Co., Ltd. CEO, Member of Korea Industry Association, Associate Member of the Royal Society of Chemistry, has published his research results in the worlds top journal Nature Communications and participated in the preparation of a series of teaching materials for Internet of Things engineering titled Introduction to the Internet of Things. His current research direction covers cross-disciplines that combine blockchain technology with intelligent medical technology.
 
Zhao Haiming (赵海明)
Chinese, Doctor of Chemical Conductive Polymer of Sungkyunkwan University, core member of Korea BK21th conductive polymer project, researcher of Korea Gyeonggi Institute of Sensor, researcher of Korea ECO NCTech Co., Ltd., Vice President of the Chinese Chamber of Commerce, Director of Korea Sungkyun Technology Co., Ltd. He has been engaged in transfer of semiconductor, sensor and other technologies in South Korea. He is an early participant of the digital currency market.
 
Liu Cai (刘才)
Chinese, Master of Engineering, has 12 years of experience in design and verification of VLSI and a wealth of practical project experience in RFID chip design process, SOC chip architecture, digital-analog hybrid circuit design, including algorithm design, RTL design, simulation verification, FPGA prototype verification, DC synthesis, backend PR, package testing, etc. Has led a team to complete the development of a variety of navigation and positioning baseband chips and communication baseband chips, finished a series of AES, DES and other encryption module designs, won the first prize of GNSS and LBS Association of China for scientific and technological progress. Finally, he is an expert in the consensus mechanism principle of blockchain and the related asymmetric encryption algorithm.
 
Yang Feng (杨锋)
Chinese, Master of Engineering, worked at ZTE. Artificial intelligence expert, integrated circuit expert. Has 12 years of experience in VLSI research and development, architecture design and verification and 5 years of research experience in artificial intelligence and the genetic algorithm. Has won the Shenzhen Science and Technology Innovation Award. Has done an in-depth research on the principle and realization of the RFID technology, the underlying infrastructure of blockchain, smart contracts and the consensus mechanism algorithm.
 
Guo Jianping (郭建平)
Chinese, Doctor of Engineering (graduated from the Chinese University of Hong Kong), Associate Professor of the Hundred Talents Program of Sun Yat-sen University, academic advisor of masters degree students, IEEE senior member, integrated circuit expert. Has published more than 40 international journal conference papers in the field of IC design and applied for 16 patents in China.
 
Huang Ruimin (黄锐敏)
Chinese, Doctor of Engineering (graduated from the University of Freiburg, Germany), academic advisor of masters degree students, lecturer of the Department of Electronics of Huaqiao University, integrated circuit expert. Mainly explores digital signal processing circuit and system implementation and works on digital signal processing technology long-term research and development.
 
Guo Rongxin (郭荣新)
Chinese, Master of Engineering, Deputy Director of the Communication Technology Research Center of Huaqiao University. Has more than 10 years of experience in design and development of hardware and software for embedded systems, works on the long-term research and development of RFID and blockchain technology in the field of Internet of Things.
 
Dai Minhua (戴闽华)
Chinese, graduated in Business Management, received a BBA degree from Armstrong University, senior financial expert, served as Vice President and CFO of Tanyu International Group Co., Ltd. Has 13 years of financial work experience, has a wealth of experience in developing and implementing enterprise strategy and business plans, as well as achieving business management objectives and development goals.
 
Liu Dongxin (刘东欣)
Chinese, received an MBA from China Europe International Business School, Visiting Scholar of Kellogg School of Management at Northwestern University, strategic management consulting expert, investment and financing expert. His current research interest lies in the impact of the blockchain technology on the financial sector.
 

Angel Investors

Song Guoping (宋国平)
Qiu Jun (邱俊)
Yan Xiaoqian (严小铅)
Lin Jingwei (林敬伟)
He Honglian (何红连)

Advisory Team

Ko Sang Tae (高尚台)
Liu Xiaowei (刘晓为)
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submitted by istaan69 to waltonchain [link] [comments]

Anyone bullish on XLNX?

There's a pretty interesting debate in the AI space right now on whether FPGAs or ASICs are the way to go for hardware-accelerated AI in production. To summarize, it's more about how to operationalize AI - how to use already trained models with millions of parameters to get real-time predictions, like in video analysis or complex time series models based on deep neural networks. Training those AI models still seems to favor GPUs for now.
Google seem to be betting big on ASICs with their TPU. On the other hand, Microsoft and Amazon seem to favor FPGAs. In fact Microsoft have recently partnered with Xilinx to add FPGA co-processors on half of their servers (they were previously only using Intel's Altera).
The FPGA is the more flexible piece of hardware but it is less efficient than an ASIC, and have been notoriously hard to program against (though things are improving). There's also a nice article out there summarizing the classical FPGA conundrum: they're great for designing and prototyping but as soon as your architecture stabilizes and you're looking to ramp up production, taking the time to do an ASIC will more often be the better investment.
So the question (for me) is where AI inference will be in that regard. I'm sure Google's projects are large scale enough that an ASIC makes sense, but not everyone is Google. And there is so much research being done in the AI space right now and everyone's putting out so many promising new ideas that being more flexible might carry an advantage. Google have already put out three versions of their TPUs in the space of two years
Which brings me back to Xilinx. They have a promising platform for AI acceleration both in the datacenter and embedded devices which was launched two months ago. If it catches on it's gonna give them a nice boost for the next couple of years. If it doesn't, they still have traditional Industrial, Aerospace & Defense workloads to fall back on...
Another wrinkle is their SoCs are being used in crypto mining ASICs like Antminer, so you never know how that demand is gonna go. As the value of BTC continues to sink there is constant demand for more efficient mining hardware, and I do think cryptocurrencies are here to stay. While NVDA has fallen off a cliff recently due to excess GPU inventory, XLNX has kept steady.

XLNX TTM P/E is 28.98
Semiconductors - Programmable Logic industry's TTM P/E is 26.48

Thoughts?
submitted by neaorin to StockMarket [link] [comments]

The Concept of Bitcoin

The Concept of Bitcoin
https://preview.redd.it/5r9soz2ltq421.jpg?width=268&format=pjpg&auto=webp&s=6a89685f735b53ec1573eefe08c8646970de8124
What is Bitcoin?
Bitcoin is an experimental system of transfer and verification of property based on a network of peer to peer without any central authority.
The initial application and the main innovation of the Bitcoin network is a system of digital currency decentralized unit of account is bitcoin.
Bitcoin works with software and a protocol that allows participants to issue bitcoins and manage transactions in a collective and automatic way. As a free Protocol (open source), it also allows interoperability of software and services that use it. As a currency bitcoin is both a medium of payment and a store of value.
Bitcoin is designed to self-regulate. The limited inflation of the Bitcoin system is distributed homogeneously by computing the network power, and will be limited to 21 million divisible units up to the eighth decimal place. The functioning of the Exchange is secured by a general organization that everyone can examine, because everything is public: the basic protocols, cryptographic algorithms, programs making them operational, the data of accounts and discussions of the developers.
The possession of bitcoins is materialized by a sequence of numbers and letters that make up a virtual key allowing the expenditure of bitcoins associated with him on the registry. A person may hold several key compiled in a 'Bitcoin Wallet ', 'Keychain' web, software or hardware which allows access to the network in order to make transactions. Key to check the balance in bitcoins and public keys to receive payments. It contains also (often encrypted way) the private key associated with the public key. These private keys must remain secret, because their owner can spend bitcoins associated with them on the register. All support (keyrings) agrees to maintain the sequence of symbols constituting your keychain: paper, USB, memory stick, etc. With appropriate software, you can manage your assets on your computer or your phone.
Bitcoin on an account, to either a holder of bitcoins in has given you, for example in Exchange for property, either go through an Exchange platform that converts conventional currencies in bitcoins, is earned by participating in the operations of collective control of the currency.
The sources of Bitcoin codes have been released under an open source license MIT which allows to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the software, subject to insert a copyright notice into all copies.
Bitcoin creator, Satoshi Nakamoto
What is the Mining of bitcoin?
Technical details :
During mining, your computer performs cryptographic hashes (two successive SHA256) on what is called a header block. For each new hash, mining software uses a different random number that called Nuncio. According to the content of the block and the nonce value typically used to express the current target. This number is called the difficulty of mining. The difficulty of mining is calculated by comparing how much it is difficult to generate a block compared to the first created block. This means that a difficulty of 70000 is 70000 times more effort that it took to Satoshi Nakamoto to generate the first block. Where mining was much slower and poorly optimized.
The difficulty changes each 2016 blocks. The network tries to assign the difficulty in such a way that global computing power takes exactly 14 days to generate 2016 blocks. That's why the difficulty increases along with the power of the network.
Material :
In the beginning, mining with a processor (CPU) was the only way to undermine bitcoins. (GPU) graphics cards have possibly replaced the CPU due to their nature, which allowed an increase between 50 x to 100 x in computing power by using less electricity by megahash compared to a CPU.
Although any modern GPU can be used to make the mining, the brand AMD GPU architecture has proved to be far superior to nVidia to undermine bitcoins and the ATI Radeon HD 5870 card was the most economical for a time.
For a more complete list of graphics cards and their performance, see Wiki Bitcoin: comparison of mining equipment
In the same way that transition CPU to GPU, the world of mining has evolved into the use of the Field Programmable Gate Arrays (FPGA) as a mining platform. Although FPGAs did not offer an increase of 50 x to 100 x speed of calculation as the transition from CPU to GPU, they offered a better energy efficiency.
A typical HD/s 600 graphics card consumes about 400w of power, while a typical FPGA device can offer a rate of hash of 826 MH/s to 80w of power consumption, a gain of 5 x more calculations for the same energy power. Since energy efficiency is a key factor in the profitability of mining, it was an important step for the GPU to FPGA migration for many people.
The world of the mining of bitcoin is now migrating to the Application Specific Integrated Circuit (ASIC). An ASIC is a chip designed specifically to accomplish a single task. Unlike FPGAs, an ASIC is unable to be reprogrammed for other tasks. An ASIC designed to undermine bitcoins cannot and will not do anything else than to undermine bitcoins.
The stiffness of an ASIC allows us to offer an increase of 100 x computing power while reducing power consumption compared to all other technologies. For example, a classic device to offer 60 GH/s (1 hashes equals 1000 Megahash. 1GH/s = 1000 Mh/s) while consuming 60w of electricity. Compared to the GPU, it is an increase in computing power of 100 x and a reduction of power consumption by a factor of 7.
Unlike the generations of technologies that have preceded the ASIC, ASIC is the "end of the line" when we talk about important technology change. The CPUs have been replaced by the GPUs, themselves replaced by FPGAs that were replaced by ASICs.
There is nothing that can replace the ASICs now or in the immediate future. There will be technological refinements in ASIC products, and improvements in energy efficiency, but nothing that may match increased from 50 x to 100 x the computing power or a 7 x reduction in power consumption compared with the previous technology.
Which means that the energy efficiency of an ASIC device is the only important factor of all product ASIC, since the estimated lifetime of an ASIC device is superior to the entire history of the mining of bitcoin. It is conceivable that a purchased ASIC device today is still in operation in two years if the unit still offers a profitable enough economic to keep power consumption. The profitability of mining is also determined by the value of bitcoin but in all cases, more a device has a good energy efficiency, it is profitable.
Software :
There are two ways to make mining: by yourself or as part of a team (a pool). If you are mining for yourself, you must install the Bitcoin software and configure it to JSON-RPC (see: run Bitcoin). The other option is to join a pool. There are multiple available pools. With a pool, the profit generated by any block generated by a member of the team is split between all members of the team. The advantage of joining a team is to increase the frequency and stability of earnings (this is called reduce the variance) but gains will be lower. In the end, you will earn the same amount with the two approaches. Undermine solo allows you to receive earnings huge but very infrequent, while miner with a pool can offer you small stable and steady gains.
Once you have your software configured or that you have joined a pool, the next step is to configure the mining software. The software the most populare for ASIC/FPGA/GPU currently is CGminer or a derivative designed specifically for FPGAS and ASICs, BFGMiner.
If you want a quick overview of mining without install any software, try Bitcoin Plus, a Bitcoin minor running in your browser with your CPU. It is not profitable to make serious mining, but it is a good demonstration of the principle of the mining team.
submitted by Josephbitcoin to u/Josephbitcoin [link] [comments]

I am going to design an Async ASIC chip for a class project.

Background:
I am enrolled in a VLSI course at a university. At the end of this class we will be manufacturing and testing our very own IC design.
Part of the class is a 5 week, four person team project that is entirely open ended. We have coordinated with a professor who specializes in asynchronous design, and we are planning on making an asynchronous ASIC bitcoin miner. I do not expect to be competitive in the bitcoin mining feild, we are designing this chip as a class project to demonstrate our ability in VLSI design. This is a 600nm process, which is seriously like 1990's technology. This will not be a particularly fast chip, but it might be a little bit faster than a standard CPU if and only if we can implement the SHA algorithm in hardware well enough.
Question:
I know relatively little about bitcoin, I have been subbed here for about three weeks and I have read the wikipedia page on Bitcoin and on the SHA-2 algorithm. I am looking for website resources that explain hardware implementations of SHA-256. I was wondering if anybody could point me towards helpful pages. Additionally, I was wondering if you could provide any other good website resources as starting points for bitcoin mining information, including specific information about the bitcoin mining protocol. When I search I find a lot of forum debates, but no real information. Are there any websites that explain this sort of thing that are common in the bitcoin community? Should I be turning to research papers at my university library to find this?
Specifically, I know we need to implement SHA-256 as part of the bitcoin algorithm. In an 'ASIC' rig, does the SHA-256 hardware exist as a co-processor to a general purpose CPU, or does the ASIC chip directly implement the entire algorithm. Basically, I am completely unaware of the cpu architecture required to implement bitcoin mining, yet that is what I have set out to do, because general purpose CPU's are easy...(ish)... If it is simply a matter of understanding SHA-256 algorithm and implementing my own architecture that is okay but I would rather not reinvent the wheel if I do not have to. An open source verilog FPGA implementation would be a great starting point.
Thanks for your pointers.
submitted by reParaoh to BitcoinMining [link] [comments]

Mining muss nicht teuer sein ! Was braucht man? Die ... FPGA MINING BUILD 2018. Will FPGA's Replace GPU's? Introduction to FPGA Mining ... Lancelot FPGA Bitcoin Miner Unboxing I Built a Crypto Mining Farm in My Garage  How To Setup a ...

Bitcoin Mining Hardware . The following list of bitcoin mining hardware is ASIC products only. While we acknowledge the widespread use of GPU and FPGA products currently, most newcomers to bitcoin mining are interested in the newest technology. FPGA Bitcoin Mining. At the foundation of block creation and mining is the calculation of this digital signature. Different cryptocurrencies use different approaches to generate the signature. For the most popular cryptocurrency, Bitcoin, the signature is calculated using a cryptographic hashing function. For those unfamiliar with cryptographic hashes, hashes calculate a fixed-length unique ... Bitcoin mining involved with the brute force search for a hash which depends on very highly optimized hardware .This paper focusses on the evolution of the hardware underlying the system from ... So it it was a fun era while it lasted, but graphics cards for Bitcoin mining is basically dead. So what replaced graphics cards? Well around 2011, people started to use FPGA or Field Programmable Gate Arrays. That was around the time of the first implementation of Bitcoin mining came out in Verilog. Which is the hardware design language that's ... Recent hardware developments within the eld of bitcoin mining, most impor-tant of which is the introduction of dedicated ASIC mining chips described in Section 2.3.3, have led to bitcoin mining using CPUs, GPUs and many FPGA-based designs being considered unpro table and wasteful in terms of the energy expended.

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Mining muss nicht teuer sein ! Was braucht man? Die ...

Lancelot FPGA Bitcoin Miner Unboxing Feel free to donate to keep more Tutorials coming: ... FPGA and hardware accelerated trading - Duration: 3:51. Romain Tourneau 9,671 views. 3:51 . Bitcoin ... 50+ videos Play all Mix - Bitcoin Mining Hardware - CPUs, GPUs, FPGAs and ASICs YouTube Tips for Small Bitcoin Miners to Maximize Their Advantages - Duration: 26:55. Block Operations 93,508 views I set up a Bitcoin cryptocurrency mining farm in my garage with GPU mining rigs and ASIC miners as well as FPGA miners in my house. I explain how to setup yo... Mining ASICs Technologies B.V. (MAT) has been founded to design and produce best in class, high-performance hardware: ASIC Bitcoin miners ASIC Scrypt Litecoin/Altcoin miners FPGA Scrypt Litecoin ... In diesem Video bauen wir zusammen ein güntiges Mining Rig zusammen. Mit Windows Einrichtung. Da es diese Bauteile aus dem Video nicht mehr alle gibt. Habe i...

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