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Large Enterprise Adoption of Blockchain is happening, enabled by Quant Network’s Overledger

Large Enterprise Adoption of Blockchain is happening, enabled by Quant Network’s Overledger
This is Part Two in the mini-series looking at Quant Network. You can see Part One here as well as links to other articles at the bottom of this post.
Quant Network have achieved incredible levels of adoption since launching Overledger less than a year ago. Their growth strategy is to partner with multinational global organisations with huge amounts of employees to then host / implement / take Overledger to each of their own clients. So one Partnership, leads to exponentially more and is the fastest way to scale rather than trying to partner with each customer individually. This is how companies such as Oracle grew so fast and Microsoft with their Partner Network.
These are multinational global organisations with 100,000 + employees, this is the scale that we are working towards to take Overledger to the mass market. We can’t do it one by one in each country and sign them up but we can partner with someone that has 100 customers and they can take it to all their customers as well which helps with the adoption of our technology” — Gilbert Verdian
Let’s start with arguably the biggest partnership for any Blockchain company listed on Coinmarketcap, the leading Financial Network Provider in Europe, SIA.


  • Provide the leading Financial Network in Europe with more than 100 Tier 1 banks connected, 44 Trading venues (including the main international stock markets in Milan, Rome, London, Frankfurt and New York) and other financial institutions covering the entire trading process from pre-trading to post-trading
  • process 14 Billion institutional services transactions, 7.2 billion card transactions, 3 billion payments, 51.7 billion financial transactions and carried 1,204 terabytes of data on the network
  • SIA in partnership with Colt and SWIFT are the only two network providers awarded a 10 year tender commissioned by the European Central Bank for the provisioning of connectivity services allowing European central and commercial banks, central depositories, automated clearing houses and other payment service providers to connect directly to Eurosystem market infrastructures through a single access interface (Eurosystem Single Market Infrastructure Gateway — ESMIG).
  • SIA’s SIAchain is the leading blockchain architecture in Europe connecting 570 Banks, Central Banks, Trading Venues and other Financial Institutions using R3’s Corda, Permissioned variants of Ethereum and Hyperledger Fabric.
  • SIA have Integrated Overledger into the leading blockchain architecture in Europe SIAchain so that all of the 570 banks, Central Banks, Trading venues etc can benefit from Blockchain Interoperability.
“Since the European launch of our private infrastructure SIAchain, we are at the forefront of innovation in blockchain technology with the aim of supporting financial markets with a high-performance and secure architecture and a clear governance model. We actively continue on our path of innovation and the achievement of a fully interoperable blockchain network is the foremost objective we want to reach with the collaboration of Quant Network and its disruptive vision on DLT”, says Daniele Savarè, Innovation & Business Solutions Director, SIA.
So what we’ve done is instead of just announcing one client and one thing, we’re announcing that we’re working with SIA. So, SIA is the leading European payment infrastructure. And what we’re doing with SIA is interconnecting blockchain networks with SIA, and doing settlements, which are central bank settlements, with the central bank in Italy. So what Overledger is doing is we’re actually bringing blockchain and interoperability to all of SIA’s clients, which are 580 banks. So, Overledger could be rolled out to all these institutions, financial services, banks, at scale, and have interoperability to get the benefits of this.
To read more see my other article which goes into more details about SIA here

AX Trading

Quant Network are working with AX Trading to bring more digital assets, securities and tokenised assets to their existing 800 institutional traders in an already live and connected FINRA and SEC regulated exchange. AX Trading is not just about trading securities but other digital assets such as Bitcoin, Ethereum and potentially even Quant in the Future.
  • an SEC-registered broker-dealer and Alternative Trading System (ATS) Operator. They are a member of FINRA and SIPC regulated authorities.
  • Have investors and sponsored brokers such as Credit Suisse, (a multinational investment Bank and Financial services company worth $27.5 billion).
  • AX currently have over 800 Institutional traders (these are not individuals, but corporations such as hedge funds, banks, investment banks, pension funds, insurance companies, endowment funds etc).
  • AX Trading have also partnered with Euronext, the largest Stock Exchange in Europe with a market cap of $4.65 trillion as of 2018, in the creation of Euronext Block which utilises AX Trading.
  • This is a multi-trillion dollar market with huge global enterprises, traditional exchanges and global banks are all adopting DLT at a rapid pace and going into production at scale in a matter of months
Overledger a blockchain operating system, will enable universal interoperability for regulatory-compliant security tokens and digital assets to be traded on AX ATS, a regulated secondary trading market. AX intends to integrate Overledger to help foster the evolution of traditional capital markets infrastructure to facilitate the mass implementation of regulated digital assets. With the increased market adoption of digital assets and banking “coins” such as JPMorgan Coin, AX and Quant Network are at the forefront to enable the transferability and movement of digital assets
George O’Krepkie, AX CEO said: “we look forward to partnering with Quant. Their technology will allow our blockchain agnostic security token exchange to communicate seamlessly with issuers, traders, investors, and regulators across different blockchain protocols. This is a key technological breakthrough that will help us bring the benefits of security tokens to Main Street and Wall Street.”
To read more see my other article which goes into more details about Wall Street 2.0: Enabled by Quant Network’s Partnership with SEC & FINRA registered AX Trading here


  • Oracle are the second largest software company in the world, second only to Microsoft and worth $174.5 billion.
  • Quant Network are an Oracle Fintech Partner. Oracle are jointly going to market with Quant Network and taking Overledger directly to their 480,000 clients globally.
  • On the week commencing the 23rd September 2019 Quant Network and Oracle will be showcasing Overledger at the largest Financial event of the year SIBOS. SIBOS is a very exclusive financial services only event that only institutions that are connected to SWIFT can attend. The only 2 Blockchain firms attending are Quant Network and Ripple.
At Sibos 2019 Oracle is excited to feature 10 of our fintechs that have proven they are enterprise cloud ready and span a wide range of digital transformation themes including several available on Oracle’s Open Banking API ecosystem. Discover how you can accelerate your digital banking journey with a wide range of proven Oracle fintech solutions that meet the security, performance, and compliance needs for today’s Adaptive Bank — Oracle SIBOS 2019 Blockchain Enables Trustworthy Transactions The potential uses of blockchain technologies are seemingly endless, from providing easy access to online payments to creating connected economies. But one of blockchain’s standout promises is to automate trust by providing an incorruptible platform for transactions. Quant’s Overledger is the world’s first blockchain operating system. It’s designed to provide any network in the world with a gateway to all other blockchains, and therefore enable companies to develop new solutions by incorporating features from multiple blockchain applications. — https://blogs.oracle.com/startup/innovation-pays%3a-the-five-fintech-startups-making-money-more-interesting


  • Crowdz are the leading blockchain-based trade finance company
  • Headed by Cisco’s former global supply-chain leader
  • In business since 2014, with 270+ beta clients
  • partnered with Barclaycard, part of Barclays Bank, to integrate into their payment solutions
  • Recently received $5.5 million Series A Investment from Barclays Bank and BOLD Capital Partners, with additional investments coming from TFX Capital Partners, Techstars Ventures, and First Derivatives
  • In talks with the Korean Government about using their tech.
Payson Johnston, President and CEO of Crowdz, a Silicon Valley trade-finance and financial-technology company, stated that, “Although Crowdz uses the Ethereum blockchain as the foundation for our Invoice Auction Exchange, we have needed a solution that allows for invoices and other documents to be transferred from one blockchain to another — for example, among Hyperledger, Corda, and EOS. With the Overledger solution from Quant Network, it is now possible to pass data among different blockchains. Crowdz looks forward to working with Quant Network to enable the true multi-blockchain environment that our customers demand.”
You can read more about the announcement here

AuCloud and UKCloud

  • UKCloudX is the UK Sovereign High assurance cloud services designed for the UK’s most sensitive and mission critical systems from Defence, National Security to wider Government requirements.
  • AUCloud is Australia’s sovereign cloud Infrastructure-as-a-Service (IaaS) provider, exclusively focused on the Australian Government (Federal, State and Local) and Critical National Industry (CNI) communities.
  • AuCloud integrate Overledger onto the AUCloud platform to provide highly secure and interoperable Blockchain-as-a-Service for Australian Government and Defence and the critical national industries and supply chains that serve the nation.
Scott Wilkie, Director of AUCloud stated that Australian Government, Department of Defence and major industries are using or testing blockchain to interact with their supply chain, critical infrastructure, national record keeping and financial services. These organisations require the interoperable functionality that can only come with an operating system like Overledger and the security of the leading sovereign Australian cloud platform. Without Overledger, none of these projects or systems will be able to communicate with each other or enable cross party collaboration. Brad Bastow, CTO AUCloud (previously CTO Department of the Prime Minster & Cabinet) stated that “applying world leading blockchain technologies to enhancing the cyber security of cloud IaaS and PaaS can significantly improve the ease of adoption and reduces risks for all government users and citizens. We aim to bring the most effective and assured technologies as-a-Service and Quant Network have some of the most advanced blockchain technology in the world in this respect.”
You can read more about the announcement here


  • A Cloud-based, smart-contract-as-a-service (SCaas) platform. enabling users across a variety of skill sets to implement DAPPs.
  • formed from a Defense Advanced Research Projects Agency (DARPA) grant in 2017 originally developed by ITAMCO and the University of Notre Dame
  • Awarded a grant from the Department of Energy to develop a platform for a blockchain solution for the solar energy market.
  • Their platform is available on Azure and are Microsoft Start Up Partners with a former Microsoft Global Exec Joining SIMBA Chain.
  • Some of their other partnerships include the Government Blockchain Association, Air Force Research Laboratory, Caterpillar, SAP and EY
  • Recently announced they are starting to develop on Quant Network’s Overledger to enable connection to all of the blockchains currently connected through Overledger and provide interoperability between them.



  • an AI-powered decentralized investment and financing ecosystem, which allows corporates to quickly, cheaply and safely raise funds, whether it be equity, debt or tokens.
  • Selected as 1 of 15 Best Early-Stage startups at Money 20/20, Europe’s Largest Finetech Conference.
  • Joined Kickstart Innovation, one of Europe’s largest multi-corporate accelerators.
  • Joined Level39 Europe’s largest Fintech Accelerator
  • Partnered with Holochain, Elastos and Portugal Finlab
  • have more than 35 years combined experience in capital markets at top investment banks (Goldman, JP Morgan, Barclays…) and more than 10 years in AI, IT and software development (Barclays, VINCI, PostNL…).
“AllianceBlock will use Overledger to leverage multiple blockchains and create multi-chains token swaps. This partnership offers the possibility to open a new set of real-world applications leveraging different features from different chains. AllianceBlock is delighted about this partnership which will help blockchain projects and SMEs wield blockchain technology very easily” said Rachid Ajaja, Co-founder of AllianceBlock.

Jiangsu Huaxin Blockchain Institute

  • the first state-owned research hub dedicated to exploring blockchain technology for the Chinese Ministry of Commerce with over 100 employees.
  • high-tech R & D institution backed by the provincial government in Jiangsu, the second highest GDP grossing province in China
  • Backed by parent company Beijing Huaxin Electronics Enterprise Group, a conglomerate that has incubated and invested in numerous IT and telecommunications companies
  • China’s official institution for blockchain development, signed an agreement to collaborate on the development of innovations like distributed computing and quantum cryptography to revolutionize the next generation of distributed ledger technology (DLT) protocols.
  • Quant Network have signed a MoU for a 5 year cooperation

Atlantic Power Exchange

  • An Early Stage start-up developing P2P energy software enabling automated trading of green and sustainable electricity over the blockchain
  • Creating an Upstream Energy exchange which interconnects existing P2P exchanges (like PowerLedger, WePower, GridSingularity etc) to multiple stakeholders, suppliers and customers in Australia.
  • All Built on Overledger

Managing Director of Rockefeller Capital Joins the Board of Quant Network

  • Rockefeller Capital Management is a leading independent financial services firm led by President & Chief Executive Officer Gregory J. Fleming, offering global family office, wealth management, asset management and strategic advisory services to ultra-high-net-worth individuals, families, institutions and corporations
  • Rockefeller Capital Management manages over $19 Billion in Assets with the aim of expanding this to $100 billion within 5 years.
Guy Dietrich, Managing Director, Rockefeller Capital commented:
“I’m delighted to join the Board of Quant Network. This is an exceptional team of experienced professionals in the cybersecurity and blockchain industry.”
Guy Dietrich recently personally attended meetings with the UK’s Financial Conduct Authority (FCA) with Gilbert.


International Organization for Standardization (ISO)

Gilbert Verdian is the founder of ISO TC 307, the global standard for Blockchain and Distributed Ledger Technologies which 55 countries are currently working towards. Gilbert is the chairman for the TC 307 Working Group for Interoperability of blockchain and distributed ledger technology systems


European’s Union INATBA

Quant Network is a founding member in the European Union’s launch of the International Association for Trusted Blockchain Applications (INATBA). Other members of INATBA include Accenture, Accord Project, Alastria,Banco Santander, BBVA, Consensys, Enterprise Ethereum Alliance, Fujitsu, IOTA, Ledger, SAP, SIA, Swift, Telefonica, We.Trade and many more. INATBA is a collaboration of 26 EU countries to develop EU blockchain regulation and prepare the launch of EU-wide blockchain applications


  • Quant Network accepted as a company guarantor of Pay.UK, the UK’s largest payment network, alongside banks and other FinTech companies
  • Through this relationship, Quant Network will shape the payment ecosystem to promote competition, innovation and openness, as well as setting the strategic direction of the Payments infrastructure and adopting the New Payments Architecture (NPA).
You can read more about it here and here


  • consortium for blockchain innovation in the mobility industry. The consortium was founded by leading automakers including Renault, Ford, GM, and BMW, and now represents more than 80 percent of global auto manufacturing by volume. Other members include Bosch, IBM, Cognizant, Accenture, Consensys, IOTA, R3, VeChain, Hyperledger, Ocean Protocol and Honda (Full list can be seen here)
  • Overledger operating system will enable interconnectivity and interoperability of data between manufacturers, devices, transportation and autonomous vehicles


  • Quant Network has joined Hyperledger where more than 270 organisations are now contributing to the growth of Hyperledger’s open source distributed ledger frameworks and tools. Some of the companies involved are Accentrue, Airbus, American Express, Baidu, Cisco, Deutsche Bank, DTCC, Fujitsu, Hitachi, IBM, Intel, J.P.Morgan, SAP, BBVA, Bosch, Deloitte, Fedex, Huawei, Lenovo, NTT Data, Oracle, PWC, R3, Ripple, Samsung, We.trade, Bank of England, Enterprise Ethereum Alliance, Federal Reserve, MOBI etc. Full list of members can be seen here.
  • Working with the Hyperledger Quilt team to enhance Blockchain Interoperability capability for Hyperledger members

Accord Project

  • The Accord Project is the organization for the development of techno-legal standards for smart legal contracts and distributed ledger applications in the legal industry
  • The Project operates in collaboration with IEEE, the International Association for Contract and Commercial Management, Hyperledger, R3, Decentralized Identity Foundation, and a number of leading trade associations, industry and standards organizations, and world leading law firms.
  • Quant Network have joined the Accord Project and are providing the Technology with Overledger and Treaty Contracts.

As well as many being worked on and yet to be publicly announced:

HCL Technologies

  • Indian Multinational IT Service and consulting company with offices in 44 countries and 137,000+ employees
  • Among the top 20 largest publicly traded companies in India with a market cap of $18.7 Billion and revenue of $9 billion.
  • Customers include 250 of the Fortune 500 and 650 of the Global 2000 companies.
we are really looking at ASIA, especially around Singapore, Hong Kong and we are working with partners to go there, just yesterday we had a meeting with a $8 billion company based in the ASIA region and they want to use Overledger for their clients and they are going to help us expand to that region, once we partner with the right bigger players

2 of the Big 4 Global Consultancy Firms are taking Quant Network’s Overledger to their clients.

The Big 4 Global Consultancy firms are huge and consist of Deloitte, PwC, EY and KPMG. They offer a range of services from offering consultancy advice on what to use, assisted prototyping right through to the delivery of production-ready enterprise solutions. Previously Gilbert was the Director of Cybersecurity at PwC and a Senior Manager of Security at EY plus Lara Verdian was the director for Deloitte Access Economics at Deloitte.
Quant Network are currently working with 2 of the above 4 global consultancy firms who are taking Overledger to their clients.

As well as many other consultancy firms:

Quant Health

  • Quant are working the Government of Armenia in Health, futureproofing the eHealth Strategy with Blockchain
  • Working with huge Conglomerates to establish a new consortium in Healthcare


They are also in talks with Traditional Exchanges such as the Swiss Stock Exchange SDX Platform and others as well as Large asset management firms
As well as various Governments including the Australian Treasury with DATA61 regarding open banking and consumer data rights, the UK’s HMRC, Central Banks, Global companies in Korea, Insurance Companies, Airlines and Logistic companies.
It’s truly remarkable what they have achieved in such a short space of time, working non-stop all around the globe, working with enormous Global organisations, Leading Financial Institutions, Governments and Health. Quant Network is enabling the mass adoption of Blockchain, bridging all blockchains and offchain networks together (as well as plans to connect directly to the Internet) to achieve the true potential of this revolutionary technology.
In the last article of this mini-series I will take a closer look at the tokenomics of the QNT token and why there isn’t another utility token with as much value as QNT. With a tiny total supply of just 14.6 million QNT tokens, with no inflation, Supply reducing further as tokens are taken out circulation with licensing and strong demand / usage for the token, as well as minimum QNT holdings for wallets to benefit from Universal Interoperability.
Part One — Blockchain Fundamentals
Part Two — The Layers Of Overledger
Part Three — TrustTag and the Tokenisation of data
Part Four — Features Overledger provides to MAPPs
Part Five — Creating the Standards for Interoperability
Part Six — The Team behind Overledger and Partners
Part Seven — The QNT Token
Part Eight — Enabling Enterprise Mass Adoption
Quant Network Enabling Mass Adoption of Blockchain at a Rapid Pace
Quant Network Partner with SIA, A Game Changer for Mass Blockchain Adoption by Financial Institutions
Part One of this mini Series — What is a blockchain operating system and what are the benefits? Introducing Overledger from Quant Network
Wall Street 2.0: How Blockchain will revolutionise Wall Street and a closer look at Quant Network’s Partnership with AX Trading
submitted by xSeq22x to QuantNetwork

From four to thirty two. Early years of computers and networks in Russia. Part II

Part II: From sixteen to thirty two
(for part I see previous post)
Still no networks
The very peak of "Perestroyka" (1990-1991) coincided with the end of my epoch of using 8-bit computers. That was the time the very first IBM PCs were imported into the country, but no one understood why. Luckily for me, I had a friend that started a joint venture with a USA company. He received a PC AT 286 20MHz 1Mb computer with CGA monitor and Star 9-pin dot matrix printer directly from the USA. My friend had no experience or knowledge to operate this computer and this was an expected situation for early PC adopters back then. The computer itself was in very advanced configuration – PC AT 286 20MHz at the time when even PC XT was still considered as a very good option. The weakest part of that computer was the CGA video adapter – it could only do 4 horrible colors at a very low resolution of 320x200 which was very limiting. Anyway, exploring MS DOS operating system was interesting and entertaining enough on its own.
Soon after I failed twice entry exams to the Leningrad Polytechnical University (it was for good because I would have been flunked anyway) I started working as a laboratory technician in the department of Computer Science of Leningrad Institute of Fine Mechanics and Optics (IFMO). At those times IFMO still didn't have its current status - there almost weren't any computers, except for the huge PDP-11 clone "SM-4", some Iskra-226 and a very few PCs.
My workplace was on the third floor where we had five MERA SM 7209 terminals. Our in-house computer gurus enhanced them to the level of more or less self-sufficient computers with z80 CPU, 128 K RAM and Bulgarian-made floppy disk drives. The students were rarely seen to be using those for anything but typing in some machine codes and using a primitive debuggemonitor. Such computers were not very reliable because of memory refresh issues. The probability of losing the entire program that took half an hour to type in was high. Students were trying to identify and share the most reliable memory ranges specific to a particular computer.
The computer laboratory technician position required me to solder back the failing equipment cables and prevent taking any further damage to the computers from students, especially when there was no university staff around. I spent my available time with an "Iskra 1030" computer. It was not a very successful clone of PC XT 4.7 Mhz with 512 kb of RAM and CGA video adapter. The next room was home to "Iskra 226" – a massive steel box similar to the Wang-2200 computer with BASIC interpreter. Strangely enough, your hand would get cold whilst working with this computer as there were not one but three powerful fans blowing directly at the keyboard. My experience with those computers was driven by curiosity rather than a practical purpose.
There was another lab technician in our department. He was responsible for the equipment in the room at the same floor but at the farthest side of the university building, we called that side "old block". Also, he was playing music in a heavy metal rock band which and the only time we had a chance to chat was monthly refuse disposal activities. The other days he could lock himself in the room to make himself busy with something very peculiar – those activities would force him to run across into the toilet "to hide from the crocodiles that were following him".
Meanwhile, I had full access to Iskra-1030 and Pravets-16. Pravets-16 arrived a bit later and was a clone of PC XT 4.7 Mhz with 640 kb of RAM and CGA video adapter. It was a better implementation than Iskra. Both of the computers were supplied with 10 or 20 megabytes HDDs with DOS v3.30. Most popular software existed only for DOS. Latest version of Windows was 2.0, it was awful and ran from the DOS too. It was impossible to imagine that Windows would become popular in just a few years.
DOS was an inevitable choice for the PCs of those years, and it had positive and negative aspects. Firstly, the pure DOS appeared as a very inconvenient way to start programs and manage files for a regular user. On the other hand, there were more and more various utilities helping to deal with those routine operations. There was Norton Commander file manager and its blue two-sided panels were the icons of that epoch, especially in Russia. The single-task nature of DOS was addressed in DesqView, that allowed switching between a number of running applications even using XT computer. The variety of small "resident" programs provided instant access to the calculator, notebook and similar functionality. All in all, it was possible to create and adjust the comfortable working environment. The viruses of that time were easy to detect and eliminate with popular antivirus software like Aidstest. The diversity and the speed of virus programs distribution was pretty easy to control, assuming the only way they could spread were the floppy disks.
I knew that computer networks existed in some research institutes and specialized establishments, but my knowledge was solely of theoretical nature. I saw a modem in the flesh just a couple of times. Even so, the overall situation with software supply was generally better than Commodore 64. More people purchased PCs and there were plenty of ways to exchange software. Computer piracy was not a big thing back then. No one would even bother tracking pirates down as there was no general understanding why copying some programs could be a bad idea. Of course, in reality we understood everything thanks to all of those sub-culture connections and scenes.
Radioelectronics Lyceum SPTU-38 was one of the biggest and most popular software exchange locations in St.Petersburg. Because of its cult status it really deserves to have a commemorative panel on the building itself. This SPTU had a large computer classroom with a couple dozens of Yamaha MSX-II. Those computers were not so popular already, mostly because of several PCs on the other side of the classroom. The PCs were of quite decent type – mostly 286s or even 386s. They were always occupied by people coding in Turbo C, Watcom C (just C, no pluses) or even in Prologue computer language. There was a metal box full of 5.25" and 3.5" floppy disks next to the one of the PCs. It was the equivalent of a modern data-center of considerable capacity.
There was a procedure of working with this archive. We would approach and do a polite and quiet greeting. The person using the computer would ask "what you've got?" in the most incautious manner. We were hesitant to present our floppy disks which were quickly taken and put into a disk drive. The person would check the contents of those disks with no visible interest. We were really proud if any of our files or archives would be copied from our disks. When this ritual was complete, the person would usually allow us to use the computer and the box of floppy disks saying something like "just grab what you need". The box was nicely organized, and the disks had labels with contents description. Still, it took some time to get around that collection. Some of the programs, like compilers with all its libraries, would take up to 10 different disks and the copying process wasn't quick in general. Even so, each visit would enrich us with such a number of programs and tools that it would take weeks to get through all of them. The copied programs were valuable assets for further software exchange in other locations.
A friend of mine had his own Tandy-1000. It was an IBM PCjr clone – similar to PC XT, but with 320x200x16 video mode and enhanced audio capabilities, well, compared to a regular PC beeper. The biggest issue came in a form of monochrome display capabilities in shades of black and green. It wasn't a big problem for 16-color requiring games, they would start and work perfectly. That was a time when Sierra made quests were really popular: Space Quest, Hero Quest, and Larry.
Meanwhile in IFMO I got PC AT 286 with EGA and Amstrad PC1640 (similar to PC XT with EGA Mono) as a replacement of Pravets. By that time I was skilled in x86 Assembler and Turbo Pascal programming as well as in PC hardware. However, in neglecting my responsibilities and work attitude I matched my above mentioned colleague from the old block. The only difference was that damage caused by taken substances was in a different league compared to the damages done to me by computers.
This quality of our work was best characterized by the fact that after we left those positions a year later, there was no need in this position altogether. As far as I heard – there were no objections.
I tried to enter IFMO the next year, but my score was below the acceptance threshold for the Computer Science department. Instead, I got myself into a brand new Mechatronics department (Mechanics + Electronics, literally) in 1991. We had applied mathematics practical studies using SM-4 every month. I remember having no good feelings about that noisy wonder with scattered flashing lights separated by a glass wall. We had to use terminals to write a simple Fortran program implementing a mathematical model. The compilation process would require closing source code editor TED and running two other programs which usually took minutes. Everything was so slow in general, SM-4 resources were inadequate to work with a dozen of terminals, on top of that the system crashes required to start over with the source code from time to time.
A single class was enough to understand that I am not willing to come back there again. Still, I had to persuade my teacher that I've got the Fortran language knowledge and experience. I started to search for the way to get out of this situation by getting through a Fortran book. It wasn't a reading as such, just browsing. There was an idea to write a Turbo Pascal program that performed all required calculations and to print the listing of that program with all Pascal keywords replaced with Fortran ones. This is what I tried to bring to my teacher. Unsurprisingly, he was very confused and surprised. It was clear and obvious that such a Fortran program would not work at all, even if it was written using a PC computer. The most discouraging was to see the working program printing the correct results. The deception was of the highest quality and my Fortran teacher, apparently, wasn't all that confident in his Fortran knowledge. To make things even trickier I told him a story about a new dialect of Arity Fortran which I made up of recently released Arity Prolog. This little fraud ended well and everything was accepted.
The situation with computer availability continued to improve. First of all, I obtained my first PC-compatible home computer – SM-1810.13 "Nivka". It was a PC XT 4.7Mhz 640 kb RAM CGA video adapter computer assembled with soviet components in a massive "full tower" computer case. Video card and the processor were original components but the system bus was not standard and could not accept extension cards. It had a sound of a jet plane taking off all thanks to not one but four powerful mains voltage operated fans. It did not take me long to increase the CPU clock speed to 10MHz. The only known side-effect was a disk drive controller chip ejecting himself from PCB which I fixed with teeing it down with some threads. Not long after that I got a PC AT 286 with EGA and consecutively VGA video cards. The computer upgrade process by boards and adapters replacement was quite popular. Those days I spent a lot of time after the classes or even instead of my classes in the Computer Science department at IFMO. There were two IBM PS/2 Model 30 (PC 286 with MCGA video adapter and microchannel bus), few PC AT 286, and the fastest computer I saw at that time – PC AT 386SX running at 16Mhz with VGA adapter. I remember the attempts to install the OS/2 operating system on that machine. OS/2 version 1.0 was still a joint development effort of Microsoft and IBM.
It was around 1992 when I discovered FidoNet...
FidoNet and BBS
I had an unused modem for quite a while. It was in this "unused" state mainly down to two reasons. First of all, I had no one to connect to. On top of that it was an acoustic modem. This type of modem would require a phone handset to be connected to the modem using rubber sealed speaker and microphone outlets of the modem itself. The connection was established by using controls and buttons of the host phone itself. I will reveal no secret by saying I have never managed to connect to anyone using this modem. The first modem that had a practical meaning was 1200 baud modem without MNP error correction protocol support. It was a full-size ISA board that required an active fan cooling for a reliable operation.
FidoNet was nothing like contemporary Internet. There are massive technological and organizational differences. Since the very start it was volunteer-driven network of "nodes" connected with each other in different towns and even countries. So-called "SysOps" (short for System Operator) had arrangements on data transfer, text electronic mail exchange, user base management, and resolving conflicts. There was no membership cost and large nodes could be deployed in large companies that would actually foot the phone calls bill. Sometimes, it would include international calls as well. Any attempts to commercialize the FidoNet were terminated apart from some designated echo-conferences to buy and sell some hardware.
Echo-conference (or "echo" for short) was a main thing in FidoNet. I would describe it as a collection of global-size topic-driven forums. In contrast to the Internet, such forums could not have a dedicated owner, but rather had its own life within a network. Moderators were usually assigned by forum creators and managed the behaviour of participants and checked the content. To coordinate mail and echomail transfer as well as to warn or even excommunicate people who broke the rules there were network and regional coordinators and echo coordinators.
Technologically wise a typical FidoNet station was a computer connected to a phone line via modem and specialist software. It was a requirement to accept the other nodes' inbound connections at least for an hour within a day to do electronic mail exchange. More often, such stations used to be available during the night time when no people used the phone line; while the stations deployed in large companies could operate 24/7.
FidoNet used to have hundreds of active nodes and countless number of "points" at its height in the USSR. "Points" were managed by nodes through which they had access to electronic mail. That situation with the scale and efficiency of management was unique – such success was never seen in Europe or the USA. FidoNet was different from the Internet for being not only the data transfer network but for being a society of people brought together by some basic democratic values allowing this network to exist. The mechanisms of those values' implementation were of a very pragmatic nature. Everything was designed to have a robust and reliable electronic mail exchange and to make sure that echo-conferences work as they should. All the proposed document alterations and changes were widely discussed and voted by Sysops. The same approach was used to elect system coordinators.
You needed nothing else but a computer with modem and configured software to get connected to FidoNet. Some of the FidoNet users improvised with electronic mail exchange using floppy disks – this rare sight was nicknamed "floppynet". The minimum level of computer knowledge required to set up computers and software was the most powerful filter to leave all of those occasional and random people outside the network. Most of the FidoNet users were in IT anyway, although there were non-technical background enthusiasts that wanted to discover this network and society. This type of semi-open society allowed to build a certain trust within users of FidoNet.
At the same time there was a version of an offline Internet called Relcom similar to the name of the largest provider. It was quite popular in companies and had newsgroups similar to echo-conferences. Those newsgroups were managed not in the best way and it was reflected in the quality of content too. It could be the lack of this natural filter as for FidoNet or absence of organized structure of echo-coordinators. It was a paid relationship between companies and providers which resulted in a mixture of spam and offtopic that no one could really stop. FidoNet users debated a lot about allowing the data exchange between certain FidoNet gateway nodes and such newsgroups.
FidoNet participation had a footprint in real life too. For example, it could be considered as a positive employment reference if an applicant was a FidoNet user. Also, the rumor had it - if the share of FidoNet users in one given company would exceed a certain number - the company is doomed and will eventually collapse. On top of that it was common to mention that you are a FidoNet user to get a discount or additional services in computer hardware shops.
FidoNet coordinators were often well-known people in the real world. I remember the COMTEK exhibitions in Moscow in the late 90s. Those events were among other things informal meetings events for SysOps from Russia and ex-USSR states. They were gathering there in impressive numbers - just imagine a few thousands for people in a single square. One day, a car with someone important inside tried to use the shortcut across that square instead of going all the way around it. The car was moving slowly through the crowd while beeping and flashing lights. It managed to get to the middle of the square where was our regional FidoNet coordinator. I was talking to him that very moment when the car appeared high behind him. He glanced at my face looking behind him and instead of moving away he just waited and when the car literally touched him - he sat on a bonnet. The bodyguards jumped out of the car and took a menacing stance. It wasn't a smartest move as the other people got closer and decided to take part in this confrontation. The bodyguards were smart enough to see the size of the crowd around and finally they retreated in the car which moved back.
Bulletin Board System - or BBS for short coexisted with FidoNet those years. Those systems were hosted on the same computers as FidoNet stations and people often mixed those two in this country. BBS was different from FidoNet. While FidoNet station was a system to exchange electronic mail, the BBS allowed online access to the computer itself - contemporary telnet is the nearest thing. Anyone could call the phone number of BBS and start downloading files, read mail, or talk to sysop after logging in. The users were valued and ranked by sysops which would give them different connection time allowances and download limits. The user value would depend on the amount and quality of shared software or how well the administrator knows the user himself. The phone line impose a connection limit of a single user at a time, while the rest of the users would be dialing in repeatedly trying to connect. Finally, the active user would hit the time limit or the line would be dropped by the modem.
The connection was established by a terminal program. This program would control modem via serial port by sending commands like dial the phone number: 'ATPD123' or change the connection speed or protocol. It was common to keep the modem speaker turned on to control the connection status or to hear if another person picked up the phone. The modem would generate a noise-like connection sequence to synchronize connection parameters with the remote modem, people would even recognize connection parameters listening to those sounds. Sound would be turned off on successful connection and the user would see a connection confirmation in the terminal - something like 'CONNECT 2400/MNP'.
My home phone line was occupied by SkyNet Station BBS for a long time. It was really unusual and very interesting to talk to all those unknown callers from other towns and even countries. Some of them used "Iskra-2" (alternative industry-sponsored communication lines). Because FidoNet/BBS stations' working time was from midnight to early morning, I often crashed out in some vulnerable moments during my classes in university. During the first and second course such an attitude to the study wasn't appropriate, but I was lucky.
Foreign BBS were one of the main sources to get new software, quite usually it was pirate software or warez. Those days the international calls were expensive, and people tried to use a company phone line to make them. Often, the company would not even know about such practices. Because of calls costs there were a variety of attempts to fool the system and make free calls. Unfortunately, the 'bluebox' tricks known in the West did not work with local phone stations. By the time one creative person managed to adopt this approach to make it work in Russia. Sadly, by then BBS became obsolete.
The phone lines of that period left much to be deserved to say the least. At first typical modems would rarely hit the speed of 2400bps - most of the time the practical transfer speed would be much lower. There was rumor that the theoretical limit was 9600bps. It is fair to say - at the same time were people claiming 33 MHz to be the highest achievable frequency for CPUs. Of course, all of those numbers were about to change.
The new generation of more sophisticated modems arrived which could adapt better for phone lines of bad quality. Some of those modems could efficiently use the phone lines not very suitable for regular voice calls. Telebit modems were implementing PEP and TurboPEP protocols that could get to 23000 bps. Those were rare but very noise tolerant. Zyxel (ZYX 19200bps) and US Robotics (HST 16800bps) modems were widespread. They supported the standard v32 (9600bps) and v32bis (14400bps) as well as their own higher speed protocols requiring compatible modems on both sides. The choice of Zyxel or US Robotics had a very religious taste to SysOps.
There was a curious story associated with HST protocol...
Initially, it was only supported in higher grade US Robotics Courier modems, and the cheaper model USR Sportster was released without HST support. A basic reverse engineering revealed that schematics of both modems are almost identical but firmware alterations wasn't enough to upgrade Sportster to Courier capabilities. There was rivalry and some kind of a competition between two people in St.Petersburg was started. The intensity of this competition was much like a war sometimes. I remember bringing my Sportster to one of those gurus. I was told to wait for a couple hours for him to perform the required updates which would involve nothing less than particle matter accelerators in one of the research institutes. Of course it wasn't true and everything was much more down to Earth.
The other guru could be found in Medical University in Karpovka street. There was a large room with a large computer case taken from an older ES (IBM System/360 clone) computer. Inside of the case there was a mattress where you could find the sleeping owner. The semi-opened fireproof box that contained computer and modem acting as node 2:5030/131 was aligned to the wall.
The file sizes and storage size requirements were growing fast due to increased transfer speeds. HDDs were expensive and not very reliable and CDs were nowhere to be seen. Once, I saw an optical disk video player at LKI ("Korabelka"). It was 1996, the disk was about 8" big and it had an analogue method of storing information. That is why it was popular to increase the floppy disk capacity using different tricks. The special software would allow you to write 800kb of data into 360kb-rated floppy disk using 720kb capable floppy disk drive and 1.2mb floppy disks could be upgraded to 1.4mb. While it was nice to get extra floppy disk space it did not solve the major problem. We still needed to store all the software we had to exchange and backup. Losing a copy of the program was not an option considering how much effort it would require to get a replacement. Modern approach "why do I need to keep it - I will download it when I need it" was unfeasible. One of the popular solutions was offered by a local company in Zelenograd. Arvid PC board would allow the use of a regular VHS player as a streamer. A single cassette would store up to 2Gb of data with all redundancy and error-correction codes. It was a very impressive capacity for those years while being affordable and reliable enough.
Hackers and the Demoscene
At that time, the IT labor market in Russia looked odd. There was a supply of high quality specialists with up to date IT knowledge but very limited demand for those positions. It was tricky for a good specialist to gain practical benefits. As a direct result - it was typical to see non-profit high complexity projects. Around that time movements took its shapes - the software hacking and the demoscene. They were closely related in the beginning similar to the world of Commodore 64, although for different reasons.
It all started with 'warez': commercial games, tools, and any software products obtained for free. Even before Internet arrival we had it all - you could download fresh software releases via special BBSes hosted in the USA and Europe. There was also IceNet - the international network designed to exchange the software technically similar to FidoNet. Almost every single IceNet station in Russia was running a FidoNet node on the same machine. The real names were forbidden to use and I created my first nickname 'coderipper' there. Actually, 'nickname' is a term brought by IRC, we used to have 'aliases' instead.
Many software products tried their best to protect themselves from illegal copying. A hacker would have to have an excellent knowledge for hardware, software and system level functions. There was nothing like contemporary IDA or virtualization tools, the target program would easily detect the presence of debuggers like AFD or Turbo Debugger. Additional tricks were incorporated in code itself to prevent the popular disassembler tools like Sourcer to work properly.
This valuable knowledge found its purpose in creating simple but nice looking graphic effects - fire effect or plasma. I decided to create a new FidoNet echo-conference DEMO.DESIGN in 1994. We exchanged the programming ticks, collected new effects and discussed the way to implement or optimize particular algorithms and effects.
It was inevitable to move from discussion on effects to have our first coding competitions. The tasks and challenges were pushing the limits of creativity and code optimization - for example, "implement triangle rasterization using the smallest code footprint" or to write a tiny piece of code of no longer than 128 bytes that would do a certain visual effect. Target platform was PC AT 80286 running DOS as the most widespread and common.
Early 90s was the time period of early demoparties. They started to appear in Scandinavian countries and gathered demosceners coding visual effects with music. Basically, it is all about non-interactive visual effects with music showing the author's skills in programming, extensive knowledge of software and hardware features and designed to impress with complexity, performance or visual appearance of generated animation. The demoparties were known in the late 80s but they were very localized due to the lack of networks and the not so legal nature of those events. Such demoparties used to exchange paid software and were pretty much "copy-parties". It all set to change with the Assembly demoparty held in Finland in 1992. This party is known because of the release of a hugely important 'Second Reality' demo and massive attendance figures of thousands of people from many countries.
Here, in Russia we saw it from a distance and due to the increasing activity in our DEMO.DESIGN conference we started thinking of having our own demoparty. It was August of 1995 when our group of friends with a couple sponsors hired the venue with equipment and Internet connection in Saint-Petersburg to make our first ever Russian demoparty - ENLiGHT'95. It was a massive success and we still keep it going every year as Chaos Constructions demoparty.
Sadly, not many pictures are available from those early years - the digital cameras were not around yet and no one could be bothered to bring in film cameras and prints. There are some VHS tapes which capture the spirit and atmosphere of those parties. We had no projector so we had to improvise with a couple of regular CRT TVs - nothing fancy. People gathered around, sat on the floor trying to see what was displayed. There were no laptops and the only computers available - three PC AT 486s along with Commodore Amiga and Commodore 64 were allocated exclusively for competition events and showcasing other demoscene releases. The voting was organized in written form on pieces of paper. Internet connection used to broadcast updates from the party over IRC.
The majority of releases were PC DOS based and were written either in Assembler and Turbo Pascal. As a good indication of the skill level of some participants I remember one of the participants used the demo music track written all by himself in the music sequencer (SoundWave tracker) that he created himself too. It did not stop there, his 3D visualization engine used polygonal models created in bespoke 3D modelling software he created himself again. Even by modern standards it is a massive effort and excellent skill set. Later, that demoscener went into the cryptographic technology industry.
Many developers were captivated by the idea of creating their own operating system. There was a very limited choice of general use operating systems around. Unix was so basic that many of the developers saw it as a pile of disconnected chips and boards instead of a fully operational computer. DOS and Windows 3.xx did not match expectations of the user and OS/2 was about to get to 'usable' state, granted you had a compatible computer too. Macs were hard to find and only a few lucky ones saw Macs in Russia at all.
We had different groups identifying and addressing the most important aspects of a modern operating system - from the distributed processing and data storage systems all the way to intermediate code capable of running on different hardware and software environments. There were many ideas of optimizing the performance for an average computer which at that time was pretty limited in resources.
Most of the operating system development discussion was in SPB.SYSPRG FidoNet echo-conference and regular offline meetings hosted by SysOp 2:5030/269 who was known for creating IBM/360 emulator for PC. There was no final OS product created as such - mostly due to the requirement to create device drivers for all existing variety of devices. That was a huge task on its own and it would require a massive team to support it. Still, it was an amazing and useful experience to get deeper into different architectures of available CPUs and design principles of existing operating systems. It really expanded our knowledge of computers and allowed us to see existing, new and 'so-called new' technologies from a very different point of view.
It should be mentioned here that apart from upgrading Sportsters into Couriers, SysOp of 2:5030/131 mentioned above created the RTS-386 system, that allowed a multiuser access with inexpensive terminals to a single PC AT 386. Every user would have a fully functional workplace in a Windows environment with graphics.
Sprint and Internet
One day my FidoNet friend sent me a message that he has access to the CompuServe network. Getting into CompuServe in St.Petersburg was similar to crossing the country border illegally. You were required to use the modem to call a well known phone number known only to the limited group of people. I still remember that phone number ending with '92' and can quote it at any time. The connection would require a symbol sequence to be typed in, then the login itself, the password and provide the details of a bank card. None of us had our own bank cards and the card details we were using came from a very dodgy source.
When the connection procedure was completed you could use a special DOS client application that allowed access to CompuServe features. The connection was very expensive and the time had to be used efficiently. I was downloading the new issues of Dr. Dobbs magazine and browsing Usenet groups.
Very soon the card details and logins were expired but we had a good taste of the network. Also, we have found that the phone number we used was a regional X.25 Sprint network access point. This network was used by large companies and banks to communicate with each other. While having direct access to a very powerful network we never had a slightest idea how to abuse it - it was just beyond of our interests. Some other people were trying to run a fraud using this system and quickly became a part of criminal chronicles in the news. We did not have any good description of what we can do while connected to the network but few issues of Phrack magazine hinted us that typing in numbers and keywords would eventually connect us with other remote computers. We were never successful in connecting to really interesting places or rarely had access rights to do anything at the remote computer. All in all it was an amazing experience to connect to American bank mainframe and chat to another stranger who got there the same way as you are, it was quite an adventure.
I will need to explain a bit more there. Most of those unauthorized or backdoor connections were made because of curiosity or examination of technical and security flaws, or just to show the skill level. There was no monetary gain involved at all. You could not even name yourself a hacker as it was something on par of calling yourself to be the smartest person in front of others.
The word "hacker" itself had no negative attitude and just indicated a skilled and dedicated person who did something just out of curiosity, for the sake of the process itself, not necessarily limited to the IT industry.
Of course, the FBI would chase those down disregarding if hackers were doing their activities for profit or not which was known since C64 episodes from the 80s. Still, those cases were rare in the West and literally non-existent in Russia. The local law enforcement had no legislation on that matter or even understanding what is supposed to be good and what is not.
I discovered the fully-featured Internet in a very specific environment. A friend of mine invited me to his workplace one evening in 1993. He was working in a company in 'New Holland' which had a legitimate Internet connection. While his personal workspace had no direct Internet connection it was possible to connect to the other computer at the office floor via LAN. That other computer was configured to connect to the Internet via dialup to KIAE Moscow. Needless to say we were not paying for those phone calls. Our first Internet experience at KIAE was Lynx - a text-only web browser. Also, we were quickly able to find how to start an IRC client which immediately asked us for a nickname. We needed to act fast and my second and much shorter nickname was generated there - "frog". It would be fair to say that our first Internet experience was very similar with Sprint experiments rather than modern Internet usage. Shortly after a number of local Internet providers appeared and there was no need to continue using those cumbersome and semi-legal ways to get to the Internet.
I saw my first web browser capable of displaying images and graphics in the office of Internet Service Provider 'Kaja' located in one of the basements close to the 'Rossiya' hotel. The Internet was taking over - the dial up connection was easy to get for doing a job for someone or by sharing someone's login. All of that brought me to a brief introduction to Unix...
Education system and research institutes started to develop their own networks. The subsidiary of Steklov Mathematical Institute used a grant to install Sun Classic running Solaris 2.0 and dedicated line Internet connection. We could use this system thanks to FidoNet friends but it was not as convenient as using the dial-up at home and we made to share this connection. We knew nothing about Unix but still managed to rebuild SunOS pppd to run on Solaris. In moments of desperation I also had tried to code on Sun Classic using Sparc assembler.
The mobile devices came from the West and became popular in Russia around 1997. The first devices were pretty basic - the smartphones like Nokia 2110, 3110, 6210 or Siemens ME45. They had a limited set of features - phone calls, a simplistic notebook, and calendar. The numeric keyboard was limiting the amount of text could be typed in too. The mobile computers similar to Apple Newton were very expensive and hard to find. The things changed for the better with the introduction of PalmPilot by US Robotics. It was an inexpensive pocket-sized computer with a stylus designed primarily to make notes.
In a brief period of time few of my friends bought PalmPilots. I bought mine too. All of us had plenty of questions about software development and hardware accessories. We started an informal 'The club of mobile device owners' and had weekly meetings in the 'Kronverk' company office close to the Tekhnologichesky Institut subway station. This particular company was famous for hosting a large FidoNet node - 2:5030/2 and the Sysop of that node was elected twice as network coordinator.
The news about our club spread quickly. At that time there were no other clubs like ours and we saw more people coming with other mobile devices - PocketPC, Palm, Newton, Psion and other more exotic models. Our club was active for several years with weekly meetings at the History of Arts Institute. The active part of the club ceased to exist when all information and software became easy to get online. Nevertheless, people were coming to discuss general IT tops or just to have a good time in the company of friends.
Technology-driven clubs and societies either transformed into commercial projects or disappeared altogether as a result of widespread adoption of Internet, mobile devices and generally better access to information altogether.
The skilled IT jobs started to be paid well. People famous for doing projects of high complexity started to enjoy a proper compensation for their efforts. Money was set to become a decisive factor of choosing what to do in IT. Low level development survives in a limited number of applications and everything else becomes much less a creative process but rather an industrial scale routine job. Everyone has a computer or smartphone connected to the Internet these days - it requires no extraordinary skills to get information today. The only limits you can do online are usually the ones set by the legal system. It was all expected to see, but also it makes everything about computers to feel so ordinary. By removing those perils and challenges of early computers and networks we have lost that odd romantic feel about it.
I am curious what would be the next Big Thing, the technological breakthrough that will rival the arrival of computers and global networks?
Peter Sobolev March, 2017 St.Petersburg, Russia [email protected]
(English translation published in May, 2020)
submitted by petersobolev to historyofcomputers

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