Cardano (ADA)

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Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:00

Wat is Cardano (ADA) en hoe werkt Cardano?
21 januari 2018 RoubaintoN

Cardano (ADA) omschrijft zichzelf als een derde generatie blockchain project. Wat Cardano precies is, hoe het werkt en waar je Cardano koopt? Dat leggen we je uit in deze post.
Wat is Cardano (ADA)?

Cardano is opgericht door IOHK, wat staat voor Input Output Hong Kong. IOHK is op zijn beurt weer opgericht (onder andere) door Charles Hoskinson, de mede-oprichter van Ethereum.

Cardano is een zogeheten smartcontract platform, in die zin vergelijkbaar met Ethereum, dat zich daarnaast ook zeer sterk focust op veiligheid en een hoge mate van schaalbaarheid. Eigenlijk wil het Cardano project dus de beste elementen van bepaalde blockchains nemen en zelf een soort ultieme blockchain creëren. Zo staat Bitcoin erom bekend zeer veilig te zijn (maar heeft het vooralsnog problemen met het opschalen) en heeft Ethereum vooralsnog ook de nodige problemen met het daadwerkelijk uitvoeren van gedecentraliseerde applicaties.

Denk bijvoorbeeld aan het fenomeen CryptoKitties, dat het Ethereum netwerk min of meer lam legde. Cardano wil de volgende stap zetten op het gebied van blockchains. Zo maakt het als eerste cryptocurrency gebruik van de programmeertaal Haskell. Deze taal heeft als een van de grootste voordelen dat het een relatief lage mate van foutgevoeligheid met zich meebrengt. Iets wat zeer goed van pas kan gaan komen in de erg dynamische cryptowereld.
Proof of Stake (PoS) in plaats van Proof of Work (PoW)

Cardano maakt gebruikt van het Proof of Stake principe om transacties te verifiëren. In tegenstelling tot wat er gebeurt bij bijvoorbeeld Bitcoin, miners die simpel gezegd moeilijk sommen oplossen (dit is het stukje work in Proof of Work) en hiervoor beloond worden met Bitcoin. Bij Proof of Stake zetten mensen een (gedeelte van) hun stake (bezit) in om een transactie verifiëren.

Dit heeft als grootste voordeel dat het veel minder rekenkracht kost, hetgeen niet alleen de hoeveelheid stroom die nodig is voor een transactie drastisch doet afnemen maar ook de transactiekosten.

Ook platformen als Ethereum willen op den duur naar een PoS systeem toe.
Daedalus Wallet

Cardano heeft een open source wallet uitgebracht, genaamd de Daedalus Wallet. In deze wallet kun je vooralsnog alleen Cardano opslaan, maar het team werkt aan de integratie van Bitcoin en Ethereum in de wallet. Op die manier kun je dus gemakkelijk schakelen tussen meerdere cryptovaluta’s in 1 wallet.
Hyper ambitieus

Het feit dat Cardano een soort alles in 1 optie wil aanbieden is natuurlijk fantastisch, maar tegelijkertijd ook erg ambitieus. De mogelijkheid bestaat dat het project te veel hooi op zijn vork wil nemen. Aan de andere kant, als Cardano erin slaagt zijn ambities waar te maken dan zijn er weinig projecten in de cryptowereld die meer potentie zullen hebben.
Waar kun je Cardano (ADA) kopen?

Cardano is heel gemakkelijk te verkrijgen bij de Nederlandse crypto aanbieder Bitvavo. Dit is een betrouwbare aanbieder van crypto. Je kunt hier gemakkelijk betalen met iDeal en hebt dus snel Cardano in je bezit. Bitvavo heeft ook nog eens een extra beveiligingsmechanisme ingebouwd. Ze slaan crypto namelijk cold (offline) op, wat wil zeggen dat het risico op hacks geminimaliseerd wordt. ... t-cardano/
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Re: Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:05


Cardano is a project that began in 2015 as an effort to change the way cryptocurrencies are designed and developed. The overall focus beyond a particular set of innovations is to provide a more balanced and sustainable ecosystem that better accounts for the needs of its users as well as other systems seeking integration.

In the spirit of many open source projects, Cardano did not begin with a comprehensive roadmap or even an authoritative white paper. Rather it embraced a collection of design principles, engineering best practices and avenues for exploration. These include the following:

-Separation of accounting and computation into different layers
-Implementation of core components in highly modular functional code
-Small groups of academics and developers competing with peer reviewed research
-Heavy use of interdisciplinary teams including early use of InfoSec experts
-Fast iteration between white papers, implementation and new research required to correct issues discovered during review
-Building in the ability to upgrade post-deployed systems without destroying the network
-Development of a decentralized funding mechanism for future work
-A long-term view on improving the design of cryptocurrencies so they can work on mobile devices with a reasonable and secure user experience
-Bringing stakeholders closer to the operations and maintenance of their cryptocurrency
-Acknowledging the need to account for multiple assets in the same ledger
-Abstracting transactions to include optional metadata in order to better conform to the needs of legacy systems
-Learning from the nearly 1,000 altcoins by embracing features that make sense
-Adopt a standards-driven process inspired by the Internet Engineering Task Force using a dedicated foundation to lock down the final protocol design
-Explore the social elements of commerce
-Find a healthy middle ground for regulators to interact with commerce without compromising some core principles inherited from Bitcoin

From this unstructured set of ideas, the principals working on Cardano began both to explore cryptocurrency literature and to build a toolset of abstractions. The output of this research is IOHK’s extensive library of papers, numerous survey results such as this recent scripting language overview as well as an Ontology of Smart Contracts, and the Scorex project. Lessons yielded an appreciation for the cryptocurrency industry’s unusual and at times counterproductive growth.

First, unlike successful protocols such as TCP/IP, there is little layering in the design of cryptocurrencies. There has been a desire to preserve a single notion of consensus around facts and events recorded in a single ledger, regardless of whether it makes sense.

For example, Ethereum has encumbered enormous complexity attempting to become a universal world computer, but suffers from trivial concerns potentially destroying the system’s ability to operate as a store of value. Should everyone’s program be a first class citizen regardless of its economic value, cost to maintain, or regulatory consequences?

Second, there is little appreciation for prior results in mainstream cryptographic research. For example, Bitshares’ Delegated Proof of Stake could have easily and reliably generated random numbers using coin tossing with guaranteed output delivery, which is a technique known since the 1980s (see the seminal paper by Rabin and Ben-Or).

Third, most altcoins (with a few notable exceptions such as Tezos) have not made any accommodation for future updates. The ability to successfully push a soft or hard fork is pivotal to the long-term success of any cryptocurrency.

As a corollary, enterprise users cannot commit millions of dollars worth of resources to protocols where the roadmap and actors behind them are ephemeral, petty or radicalized. There needs to be an efficient process through which social consensus can form around a vision for evolving the underlying protocol. If this process is enormously burdensome, fragmentation could break the community apart.

Finally, money is ultimately a social phenomenon. In the effort to anonymize and disintermediate central actors, Bitcoin and its contemporaries have also discarded the need for stable identities, metadata and reputation in commercial transactions. Adding these data through centralized solutions removes the auditability, global availability and immutability — which is the entire point of using a blockchain.

Legacy financial systems such as those composed of SWIFT, FIX and ACH are rich in transactional metadata. It is not enough to know how much value moved between accounts, regulation often requires the attribution of actors involved, compliance information, reporting suspicious activity, and other records and actions. In some cases, the metadata is more important than the transaction.

Hence, it seems reasonable to infer that the manipulation of metadata could be as harmful as counterfeiting currency or rewriting transaction history. Making no accommodation for actors who want to voluntarily include these fields seems counterproductive to mainstream adoption and consumer protection.
Sojourn’s End

The aggregation of our principled exploration of the cryptocurrency space is two collections of protocols. Respectively, a provably secure proof of stake based cryptocurrency called the Cardano Settlement Layer (CSL) and a set of protocols called the Cardano Computation Layer (CCL).

Our design emphasis is to accommodate the social aspects of cryptocurrencies, build in layers by separating the accounting of value from complex computation and address the needs of regulators within the scope of several immutable principles1. Furthermore, where it is sensible, we attempt to vet proposed protocols through peer review and check code against formal specifications.
Proof of Stake

Using proof of stake for a cryptocurrency is a hotly debated design choice, however because it adds a mechanism to introduce secure voting, has more capacity to scale, and permits more exotic incentive schemes, we decided to embrace it.

Our proof of stake protocol is called Ouroboros and it has been designed by an extremely talented team of cryptographers from five academic institutions2 led by Professor Aggelos Kiayias of the University of Edinburgh. The core innovation it brings beyond being proven secure using a rigorous cryptographic model is a modular and flexible design that allows for the composition of many protocols to enhance functionality.

This modularity allows for features such as delegation, sidechains, subscribable checkpoints, better data structures for light clients, different forms of random number generation and even different synchronization assumptions. As a network develops from having thousands to millions and even billions of users, the requirements of its consensus algorithm will also change. Thus, it is vital to have enough flexibility to accommodate these changes and thereby future-proof the heart of a cryptocurrency.

Social Elements of Money

Cryptocurrencies are a prime example of the social component of money. When restricting analysis solely to technology, there is little difference between Bitcoin and Litecoin and even less so between Ethereum and Ethereum Classic. Yet, both Litecoin and Ethereum Classic maintain large market capitalizations and robust, dynamic communities as well as their own social mandates.

It can be argued that a large part of the value of a cryptocurrency is derived from its community, the way it uses the currency, and its level of engagement in the currency’s evolution. Furthering the thought, currencies such as Dash have even integrated systems directly into the protocol to engage their community in deciding what should be a priority to develop and fund.

The vast diversity of cryptocurrencies also provides evidence for their social elements. Disagreements about philosophy, monetary policy, or even just between the core developers lead to fragmentation and forks. Yet unlike their cryptocurrency counterparts, fiat currencies of superpowers tend to survive political shifts and local disagreements without a currency crisis or mass exodus.

Therefore, it seems that there are elements of legacy systems that are missing from the cryptocurrency industry. We argue — and have inculcated into the Cardano roadmap – that users of a protocol need incentives to understand the social contract behind their protocol and have the freedom to propose changes in a productive way. This freedom extends to every aspect of a value exchange system, from deciding how markets should be regulated to which projects should be funded. Yet it cannot be brokered through centralized actors nor require some special credential that could be co-opted by a well funded minority.

Cardano will implement a system of overlay protocols built on top of CSL to accommodate the needs of its users.

First, regardless of the success of a crowdsale to bootstrap development, funds will eventually dissipate. Hence, Cardano will include a decentralized trust3 funded from monotonically decreasing inflation and transaction fees.

Any user should be eligible to request funds from the trust by a ballot system and the stakeholders of CSL vote on who becomes a beneficiary. The process creates a productive feedback loop seen in other cryptocurrencies with treasury/trust systems, such as Dash, by starting a conversation about who should and should not be funded.

Funding discussions force a relation of long and short term goals, the cryptocurrency’s social contract, priorities and the belief in value creation with particular proposals. This conversation means that the community is constantly evaluating and debating its beliefs against possible roadmaps.

Second, our hope is that Cardano will eventually include a formal, blockchain based system to propose and vote on both soft and hard forks. Bitcoin with its block size debate, Ethereum with the DAO fork, and many other cryptocurrencies besides have endured long standing and, in frequent cases, unresolved arguments over the technical and moral direction of the codebase.

It can and should be argued that many of these disagreements, and the fracturing of the community that results when action is taken, are a direct result of a lack of formal processes for debating change.

Where does one go to convince Bitcoin users to adopt Segregated Witness? How should the core developers of Ethereum measure community sentiment for bailing out the DAO? If the community fractures, is the cryptocurrency damaged beyond repair?

In the worst cases, moral authority to act could simply devolve to whoever has the developers, infrastructural relationships and money, not the best wishes of the vast majority of the community. Furthermore, if a large portion of the community is inaccessible or disengaged due to bad incentives4, then how can one truly know if their acts are legitimate?

Proposed cryptocurrencies such as Tezos provide an interesting model to examine where a cryptocurrency protocol is treated like a constitution containing three sections (Transaction, Consensus and Network) with a set of formal rules and process to update the constitution. Yet there remains much work to be done with incentives and over how exactly to model and change a cryptocurrency with a formal language.

The use of formal methods, machine understandable specifications and merging a treasury with this process for financial incentives are being explored as possible avenues for inspiration. Ultimately, just the ability to propose a protocol change in a transparent, censorship free way with blockchain based voting should improve the process, even if more elegant solutions cannot be designed.

Designing in Layers – Cardano Settlement Layer

When designing great protocols and languages, one should not look to the future, but rather to the past. History provides a litany of examples of great ideas that are perfect on paper, yet somehow have not survived, such as the Open Systems Interconnection standards. History also provides happy accidents that have endured from TCP/IP to JavaScript.
The aim of education is the knowledge, not of facts, but of values!

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Re: Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:05

Some principles extracted from a historical view are the following:

-You cannot predict the future so build in wiggle room
-Complexity is nice on paper, but simplicity usually wins
-Too many cooks spoil the broth
-Once a standard is set it will probably stick around, regardless of whether it is suboptimal
-Bad ideas can actually evolve into pretty good ones if there is a will

Cardano is a financial system that accepts its social nature. There will be a tremendous need for flexibility and the ability to address arbitrary complexity in a particular user’s transaction. If successful, there will be a need for tremendous computational, storage and network resources to accommodate millions of concurrent transactions.

Yet we do not have a digital, decentralized Robin Hood to take from the rich nodes and give to the poor ones in order to achieve a fair network. Nor do we have the luxury of trusting human beneficence to altruistically sacrifice for the greater good of the network. Therefore, Cardano’s design borrows from TCP/IP the concept of separation of concerns.

Blockchains are ultimately databases ordering facts and events with guarantees about timestamps and immutability. In the context of money, they order ownership of assets. Adding complex computation by storing and executing programs is an orthogonal concept. Do we want to know how much value went from Alice to Bob, or do we want to get involved in figuring out the whole story behind the transaction and deciding how much to send?

It is incredibly tempting to choose the latter as Ethereum has done because it is more flexible, but it violates the design principles above. Figuring out the story means that a single protocol has to be able to understand arbitrary events, script arbitrary transactions, permit arbitration in cases of fraud and even potentially reverse transactions when new information is made available.

Then one has to make difficult design decisions about what metadata to store for each transaction. What elements of the story behind Alice and Bob’s transaction are relevant? Are they relevant forever? When can we throw away some data? Does doing so violate the law in some countries?

Furthermore, some computation is private in nature. For example, when calculating the average salary of workers in an office, we would not necessarily want to leak how much each person makes. But what if every computation is publicly known? What if this publicity biases execution order to harm outcome?

Thus, we have chosen the position that the accounting of value should be separated from the story behind why the value was moved. In other words, separation of value from computation. This separation does not mean that Cardano will not support smart contracts. On the contrary, by making the separation explicit, it permits significantly more flexibility in the design, use, privacy and execution of smart contracts.

The value ledger is called the Cardano Settlement Layer (CSL). As the purpose is to account for value, the roadmap has the following goals:

-Support two sets of scripting languages, one to move value and another to enhance overlay protocol support
-Provide support for KMZ sidechains5 to link to other ledgers
-Support multiple types of signature including quantum resistant signatures for higher security
-Support multiple user issued assets
-Achieve true scalability, meaning as more users join, the capabilities of the system increase


Starting with the scripting language, transactions between addresses in a ledger require some form of a script to execute and be proven valid. Ideally, one would not want Eve to access Alice’s money, nor would one want a poorly designed script to accidently send value to a dead address making the funds irretrievable.

Systems such as Bitcoin provide an extremely inflexible and draconian scripting language that is difficult to program bespoke transactions in, and to read and understand. Yet the general programmability of languages such as Solidity introduce an extraordinary amount of complexity into the system and are useful to only a much smaller set of actors.

Therefore, we have chosen to design a new language called Simon6 in honor of its creator Simon Thompson and the creator of the concepts that inspired it, Simon Peyton Jones. Simon is a domain-specific language that is based upon Composing contracts: an adventure in financial engineering.

The principal idea is that financial transactions are generally composed from a collection of foundational elements7. If one assembles a financial periodic table of elements, then one can provide support for an arbitrarily large set of compound transactions that will cover most, if not all, common transaction types without requiring general programmability.

The primary advantage is that security and execution can be extremely well understood. Proofs can be written to show correctness of templates and exhaust the execution space of problematic transaction events, such as the creation of new money out of thin air or transaction malleability. Second, one can leave in extensions to add more elements by way of soft forks if new functionality is required.

That said, there will always be a need to connect CSL to overlay protocols, legacy financial systems, and special purpose servers. Thus we have developed Plutus as both a general purpose smart contract language and also a special purpose DSL for interoperability.

Plutus is a typed functional language based on concepts from Haskell, which can be used to write custom transaction scripts. For CSL, it will be used for complex transactions required to add support for other layers we need to connect, such as our sidechains scheme.


With respect to sidechains, Cardano will support a new protocol developed by Kiayias, Miller and Zindros (KMZ sidechains) based upon prior results from proofs of proofs of work. The particular design is beyond the scope of this paper; however, the concept allows for the secure and non-interactive movement of funds from CSL to any Cardano Computation Layer or other blockchain supporting the protocol.

KMZ sidechains are the key to encapsulating complexity. Ledgers with regulatory requirements, private operations, robust scripting languages and other special concerns are effectively black boxes to CSL, yet the CSL user will gain certain guarantees about accounting and the ability to recall funds once computation is complete.

In order to securely move value from Alice to Bob, Alice needs to prove she has the right to move the funds. The most direct and reliable way of accomplishing this task is to use a public key signature scheme where funds are connected to a public key and Alice controls an associated private key.

There are hundreds of possible schemes with different security parameters and assumptions. Some rely upon mathematical problems connected to elliptic curves, whereas others are connected to exotic concepts using lattices.

The abstract goal is always the same. There exists a hard problem that cannot be solved unless someone has a secret piece of knowledge. The holder of this piece of knowledge is said to be the owner of the keypair and should be the only entity that has the ability to use it.

There are two groups of concerns a cryptocurrency faces with choosing a signature scheme. First, there is the long-term security durability of the scheme itself. Some cryptographic schemes used in the 1970s and 1980s such as DES have been broken. The period over which the scheme should be expected to survive must be decided upon.

Second, there are many enterprises, governments and other institutions that have preferred, or in some cases, mandated the use of a particular scheme. For example, the NSA maintains the Suite B protocol set. There are standards from ISO and even W3C workgroups on cryptography.

If a cryptocurrency chooses a single signature scheme, it is forced to accept that the scheme could be broken at some point in the future and at least one entity cannot use the cryptocurrency due to legal or industry restrictions. Yet a cryptocurrency cannot support every signature scheme as this would require every client to understand and validate each scheme.

For Cardano, we decided to start with using elliptic curve cryptography, the Ed25519 curve in particular. We also decided to enhance the existing libraries by adding support for HD wallets using Dr Dmitry Khovratovich and Jason Law’s Specification8.

This said, Cardano will support more signature schemes in the future. In particular, we are interested in integrating quantum computer resistant signatures to our system. We are also interested in adding SECP256k1 to enhance interoperability with legacy cryptocurrencies such as Bitcoin.

Cardano has been designed with special extensions that will allow us to add more signature schemes through a soft fork. They will be added as needed and during major updates planned in the roadmap9.
User Issued Assets (UIAs)

Early in Bitcoin’s history, protocols were quickly developed to allow users to issue assets that piggybacked on Bitcoin’s accounting system in order to track multiple currencies concurrently. These protocols were not natively supported by the Bitcoin protocol, but implemented through clever hacks.

In the case of Bitcoin overlays such as Colored Coins and Mastercoin (now called Omni), light clients are forced to rely on trusted servers. Also transaction fees still have to be paid in bitcoins. These properties combined with the single pipeline for transaction approval make Bitcoin suboptimal for multi-asset accounting.

In the Ethereum case using the ERC20 standard, there is more feature richness. However, transaction fees still require ether. Furthermore, the Ethereum network is having difficulty scaling to the needs of all the issued ERC20 tokens.

The fundamental problem can be broken into three parts: resources, incentives and concern. With respect to resources, adding an entirely new currency to the same ledger means one has two independent UTXO (unspent transaction inputs) sets sharing the bandwidth, mempool and block space. Consensus nodes responsible for embedding transactions of these currencies need an incentive for doing so. And not every user of a cryptocurrency will or should care about a particular entity’s currency.

Given these problems, the benefits are tremendous as the primary token of a multiasset ledger can effectively serve as a bridge currency allowing for decentralized market making. Special purpose assets could be issued to provide additional utility such as value stable assets like Tether or MakerDAO that are useful for lending and remittance applications.

Given the challenges, Cardano has adopted a pragmatic approach to multiasset accounting. Building in stages, the first challenge is designing the necessary infrastructure to support the demands of thousands of UIAs. Namely the following advancements are necessary:

-Special purpose authenticated data structures to permit the tracking of a very large UTXO state
-The ability to have a distributed mempool to hold a huge set of pending transactions
-Blockchain partitioning and checkpoints to permit a huge global blockchain
-An incentive scheme that rewards consensus nodes for including different sets of transactions
-A subscription mechanic that allows users to decide which currencies they want to track
-Strong security guarantees that UIAs enjoy similar security as the native asset
-Support for decentralized market making to improve liquidity between UIA and the primary token

Our preliminary efforts for finding the right authenticated data structure have resulted in a new type of AVL+ Tree jointly developed by Leo Reyzin, IOHK and Waves. More research is required, but it is a foundational advancement that will be included in a later version of Cardano.

A distributed mempool could be implemented using Stanford University’s RAMCloud protocol. Experiments will begin in Q3 of 2017 to study its integration into Cardano’s consensus layer.

The remaining topics are interconnected and covered by ongoing research. We expect — subject to research results — to include a protocol into Cardano for UIAs during the Basho of CSL release in 2018.

Distributed systems are composed of a set of computers (nodes) agreeing to run a protocol or suite of protocols to accomplish a common goal. This goal could be sharing a file as defined by the BitTorrent protocol or folding a protein using Folding@Home.

The most effective protocols gain resources as nodes join the network. A file hosted by BitTorrent, for example, can be downloaded much faster on average if many peers are concurrently downloading it. The speed increases because the peers provide resources while also consuming them. This characteristic is what one typically means when stating a distributed system scales.

The challenge with the design of all current cryptocurrencies is that they actually are not designed to be scalable. Blockchains, for example, are usually an append-only linked list of blocks. The security and availability of a blockchain protocol relies upon many nodes possessing a full copy of the blockchain data. Thus, a single byte of data must be replicated among N nodes. Additional nodes do not provide additional resources.

This result is the same for transaction processing and the gossiping of messages throughout the system. Adding more nodes to the consensus system does not provide additional transaction processing power. It just means more resources have to be spent to do the same job. More network relaying meaning more nodes have to pass the same messages to keep the whole network in synchronization with the most current block.

Given this topology, cryptocurrencies cannot scale to a global network on par with legacy financial systems. In contrast, legacy infrastructure is scalable and has orders of magnitude for more processing and storage power. Adding a specific point, Bitcoin is a very small network relative to its payment peers, yet struggles to manage its current load.

Our scalability goals for Cardano are greatly aided by our consensus algorithm. Ouroboros permits a decentralized way to elect a quorum of consensus nodes, which in turn can run more traditional protocols developed over the last 20 years to accommodate the needs of large infrastructure providers such as Google and Facebook10.

For example, the election of a quorum for an epoch means we have a trusted set of nodes to maintain the ledger for a specific time period. It is trivial to elect multiple quorums concurrently and partition transactions to different quorums.

Similar techniques could be applied for network propagation and also sharding the blockchain itself into unique partitions. In our current roadmap, scaling methods will be applied to Ouroboros starting in 2018 and continue to be a focus in 2019 and 2020.
The aim of education is the knowledge, not of facts, but of values!

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Re: Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:06

Cardano Computation Layer

As mentioned previously, there are two components of a transaction: the mechanism to send and record the flow of tokens and the reasons as well as conditions behind moving tokens. The latter can be arbitrarily complex and involve terabytes of data, multiple signatures and special events occurring. The latter can also be remarkably simple with a single signature pushing value to another address.

The challenge behind modeling the reasons and conditions of value flow is that they are immensely personal to the entities involved in the most unpredictable of ways. Lessons from contract law paint an even more problematic picture where the actors themselves might not even be aware that the transaction does not match commercial reality. We generally call this phenomenon “the semantic gap”11.

Why should one build a cryptocurrency chasing an endless layer of complexity and abstraction? It seems Sisyphean in nature and naive in practice. Furthermore, each abstraction embraced has both legal and security consequences.

For example, there are numerous activities online that are universally deemed illegal or scorned such as the trafficking of child pornography or the selling of state secrets. By deploying robust decentralized infrastructure, one is now providing a channel for this activity to occur with the same censorship resistance that normal commercial transactions enjoy. It is legally unclear if the consensus nodes of the network — which have the incentive to become more federated over time to promote efficiency — would be held accountable for the content they host.

Prosecution of Tor operators, the brutal treatment of Silk Road’s operator and the lack of overall legal clarity behind legal protections of protocol participants leaves an uncertain road. There is no lack of imagination of what else a sufficiently advanced cryptocurrency could enable (see the Ring of Gyges). Is it reasonable to force all users of a cryptocurrency to endorse or at least enable the worst acts and conduct of the web?

Unfortunately, there are no clear answers that provide insight to a cryptocurrency designer. It is more about picking a position and defending its merit. The advantage that both Cardano and Bitcoin have is that we have chosen to separate concerns to layers. With Bitcoin, there is Rootstock. With Cardano, there is the Cardano Computation Layer.

The kinds of complex behavior that would enable the acts elaborated previously cannot run on CSL. They require the ability to run programs written in a Turing complete language and some form of gas economics to meter computation. They also require consensus nodes willing to include the transactions in their blocks.

Thus, a functionality restriction could reasonably protect users. So far, most established governments have not taken the position that the use or maintenance of a cryptocurrency is an illegal act. Hence, the vast majority of users should be comfortable maintaining a ledger that is comparable in capability with a digital payment system.

When one wants to extend capability, there are two possibilities. It is enabled by a private collective of likeminded individuals and ephemeral in nature (for example, a poker game). Or, it is enabled by a ledger of comparable capabilities as Ethereum. In both cases, we have chosen outsourcing the events to another protocol.

In the case of a private, ephemeral event, it is reasonable to avoid the blockchain paradigm entirely, but rather restrict efforts towards a library of special purpose MPC protocols that can be invoked when desired by a group of likeminded participants. The computations and activities are coordinated in a private network and reference CSL only as a trusted bulletin board and a message passing channel when necessary.

The key insight in this case is that there is consent, encapsulation of liability and privacy. CSL is being used as a digital commons for users to meet and communicate — like a park would host a private event — but does not provide any special accommodations or facilitation. Furthermore, the use of special purpose MPC will enable low latency interaction without the need for blockchain bloat. Thus, it improves the scale of the system.

Cardano’s research efforts towards this library are centralized at our Tokyo Tech laboratory with some assistance from scientists abroad. We call the library “Tartaglia” after a fellow mathematician as well as contemporary of Cardano and expect the first iteration to be available in Q1 of 2018.

In the second case, one needs a blockchain with a virtual machine, a set of consensus nodes and a mechanism to enable communication between the two chains. We have begun the process of rigorously formalizing the Ethereum Virtual Machine using the K-framework12 in partnership with a team from the University of Illinois.

The result of this analysis will inform the most optimal way to design a replicated and eventually distributed virtual machine13 with clear operational semantics and strong guarantees of correct implementation from the specification. In other words, the VM actually does what the code tells it to do with the security risks minimized.

There are still unresolved questions about the gas economics proposed by Ethereum and how it relates to work such as Jan Hoffmann et al’s resource aware ML and the broader study of resource estimation for computation. We are also curious about the level of language independence of the virtual machine. For example, the Ethereum project has expressed desire for transition from their current VM to Web Assembly.

The next effort is in developing a reasonable programming language to express stateful contracts that will be called as services by decentralized applications. For this task, we have chosen both the approach of supporting the legacy smart contract language Solidity for low assurance applications and developing a new language called Plutus for higher assurance applications requiring formal verification.

Like the solidity based Zeppelin project, IOHK will also develop a reference library of Plutus code for application developers to use in their projects. We will also develop a specialized set of tools for formal verification inspired by work from UCSD’s Liquid Haskell project.

In terms of consensus, Ouroboros was designed in a sufficiently modular fashion to support smart contract evaluation. Hence, both CSL and CCL will share the same consensus algorithm. The difference is that Ouroboros can be confirmed to permit both permissioned and permissionless ledgers via token distribution.

With CSL, Ada has been distributed by a token generating event to purchasers throughout Asia who will eventually resell on a secondary market. This means that CSL’s consensus algorithm is controlled by a diverse and increasingly more decentralized set of actors or their delegated assigns. With CCL, it is possible to create a special purpose token held by delegates of that ledger who could be regulated entities, thereby creating a permissioned ledger.

The flexibility of this approach allows for different instances of CCL to materialize with different rules about the evaluation of transactions. For example, gambling activities could be restricted unless KYC/AML data is present simply by blacklisting non-attributed transactions.

Our final design focus is on adding trusted hardware security modules (HSM) to our protocol stack. These are two enormous advantages when introducing these capabilities into the protocol. First, HSMs provide massive boosts in performance14 without introducing security concerns beyond trusting the vendor. Second, through the use of Sealed Glass Proofs (SGP), HSMs can provide assurances that data can be verified and then destroyed without being copied or leaked to malicious outsiders.

Focusing on the second point, SGPs could have a revolutionary impact upon compliance. Ordinarily, when a consumer provides personally identifiable information (PII) to authenticate identity or prove the right to participate, this information is handed to a trusted third party with the hope it will not act maliciously. This activity is intrinsically centralized, the data provider loses control over their PII and is also subject to various regulations based on jurisdiction.

The ability to select a set of trusted attestors and then warehouse PII in a hardware enclave means that any actor with a sufficiently capable HSM will be able to verify facts about an actor in an unforgeable way without the verifier knowing the identity of the actor. For example, Bob is not an US citizen. Alice is an accredited investor. James is a US taxpayer and one should send taxable profits to account X.

Cardano’s HSM strategy will be to attempt implemented specialized protocols over the next two years using Intel SGX and ARM Trustzone. Both modules are built into billions of consumer devices from laptops to cellphones and require no additional effort on the consumer side to use. Both are also heavily vetted, well designed and based upon years of iteration from some of the largest and best funded hardware security teams.


The harsh reality of all modern financial systems is that as they scale, they accumulate a need, or at least a desire, for regulation. This outcome is generally the result of recurrent collapses due to the negligence of some actor or cabal of actors in a marketplace.

For example, the Knickerbocker Crisis of 1907 resulted in the creation of the Federal Reserve System in 1913 as a lender of last resort. Another example is the excesses of the 1920s in the United States that resulted in a terrible financial collapse, the Great Depression. This collapse yielded the creation of the Securities Exchange Commission in 1934 in order to prevent a similar event or at least hold bad actors accountable.

One can reasonably debate the need for, scope and efficacy of regulation, but one cannot deny its existence and the zeal with which major governments have enforced it. However, the challenge all regulators face as the world globalizes and cash becomes digital is two-pronged.

First, which set of regulations should be supreme when dealing with a collection of jurisdictions? The antiquated notion of Westphalian sovereignty melts when a single transaction can touch three dozen countries in under a minute. Should it simply be whomever wields the most geopolitical influence?

Second, improvements in privacy technology have created a digital arms race where it will become increasingly more difficult to even understand who has participated in a transaction, much less who owns a particular store of value. In a world where millions of dollars of assets can be controlled with nothing more than a secretly held 12-word mnemonic15, how do you enforce effective regulation?

Like all financial systems, the Cardano protocol must have an opinion in its design over what is fair and reasonable. We have chosen to divide between individual rights and the rights of a marketplace.

Individuals should always have sole access to their funds without coercion or civil asset forfeiture. This right has to be enforced because not all governments can be trusted not to abuse their sovereign power for the personal gain of corrupt politicians, as seen in Venezuela and Zimbabwe. Cryptocurrencies have to be engineered to the lowest common denominator.

Second, history should never be tampered with. Blockchains provide a promise of immutability. Introducing the power to roll back history or alter the official record introduces too much temptation to change the past in order to benefit a particular actor or actors.

Third, the flow of value should be unrestricted. Capital controls and other artificial walls diminish human rights. Outside of the futility of attempting to enforce them16, in a global economy with many citizens in the least developed nations traveling outside of their jurisdiction to find a living wage, restricting capital flows usually ends up harming the poorest in the world.

These principles stated, markets are distinctly different from individuals. While the designers of Cardano believe in individual rights, we also believe that markets have the right to openly state their terms and conditions, and if an individual agrees to do business within this market, then they must be held to those standards for the sake of integrity of the entire system.

The challenge has always been cost and practicality of enforcement. Small, multijurisdictional transactions are simply too expensive in legacy systems to provide high assurance of recourse in the event of fraud or a commercial dispute. When one sends their wire transfer to the Nigerian Prince17, it is usually too expensive to try to get one’s funds back.

For Cardano, we feel we can innovate on three levels. First, through the use of smart contracts the terms and conditions of commercial relationships can be better controlled. If all assets are digital and can be solely expressed on CSL, strong guarantees of fraud-free commerce can be gained.

Second, the use of HSMs to provide an identity space where PII is not leaked but yet used to authenticate and credential actors should provide a global reputation system and allow for much lower cost regulated activities to be conducted, such as online gaming with automated tax compliance or decentralized exchanges.

Finally, in Cardano’s roadmap is the creation of a modular regulation DAO that can be customized to interact with user written smart contracts in order to add mutability, consumer protection and arbitration. The scope of this project will be outlined in a later paper.

What is the Point of All of It?

Cardano has been a marathon project involving feedback from hundreds of the brightest minds inside and outside of the cryptocurrency industry. It involves tireless iteration, the active use of peer review, and shameless theft of great ideas when uncovered.

The remaining sections each cover a particular aspect of focus we have decided is a core component of our project. Some were selected due to a desire to improve the overall best practices of the space whereas others are specific to Cardano’s evolution.

While no project can cover every goal or satisfy every user, our hope is to provide a vision for what a self-evolving financial stack should look like for jurisdictions that lack them. The ultimate reality of cryptocurrencies is not that they will disrupt the existing legacy financial systems. Legacy financial systems are always capable of absorbing change and maintaining their form and function.

Rather one ought to look to places where it is simply too expensive to deploy the existing banking system, where many live on less than a few dollars a day, have no stable identity and credit is impossible to find.

In these places, the power to bundle a payment system, property rights, identity, credit and risk protection into a single application running on a cell phone is not just useful, it is life changing. The reason we are building Cardano is that we feel we have a legitimate shot at delivering — or at least advancing — this vision for the developing world.

If we can change the way cryptocurrencies are designed, evolved and funded, then there is a great accomplishment.
The aim of education is the knowledge, not of facts, but of values!

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Re: Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:07

The aim of education is the knowledge, not of facts, but of values!

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Re: Cardano (ADA)

Berichtdoor neku » 10 Sep 2018 12:13

The aim of education is the knowledge, not of facts, but of values!

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Re: Cardano (ADA)

Berichtdoor neku » 23 Sep 2018 11:53

Cardano Cryptocurrency Coin – Beginner’s Guide to ADA

You must have heard of Cardano and its amazing rise in the Cryptocurrency market. In this beginner’s guide to Cardano, I will explain the features of this blazing cryptocurrency coin and where you can buy it in simple steps.

Contents [hide]

1 What is Cardano (ADA)?
2 Features of Cardano
2.1 Regulatory and Compliance focus
2.2 Scaleability
2.3 Cross Chain integration
3 Where to buy ADA
4 Where to store ADA
5 Conclusion

1) What is Cardano (ADA)?

Cardano is a very similar project to Ethereum, with a focus on security through a layered architecture. Decentralized applications (DAPPS) and Smart Contracts can be built on Cardano.
It claims to be the first blockchain project to be created from scientific philosophy and built on academic research.
Cardano is founded by the co-founder of Ethereum, Charles Hoskinson in 2015.

There are 3 organizations that are responsible for the development and growth of the Cardano platform – Cardano Foundation, IOHK, and Emurgo.

ADA is the cryptocurrency that runs on the Cardano platform and can be used to transfer funds digitally from one person to another.

Now that I have answered the fundamental question of what is Cardano, let’s look at some of the fundamental elements behind the ADA Cryptocurrency.

2) Features of Cardano

2.1) Regulatory and Compliance focus

Cardano extremely focuses on obliging with rules that our current banking sector have. This is one of the major problems that cryptocurrencies have is that the banks don’t grasp wherever the funds have come from.

One of Cardano’s goals is to implement into their blockchain a way of substantiating transactions location, purpose, and origin. This is to be achieved through a secure methodology of transferring user information across the blockchain – which can solely be seeable by sure parties.

Additionally, this is meant to meet the requirements from regulations such as

-Anti Money Laundering Act,
-Anti Terrorist Funding Act and
-various Data Protection acts.

2.2) Scaleability

As additional users start interacting with the Cardano blockchain, the transactions per second can increase. This will increase the computing power required to quickly method the transactions that are happening. Currently, several blockchains need a duplicate of the whole blockchain to process transactions, which can cut down transaction time drastically as user adoption will increase. Cardano aims to mitigate this scalability issue.

You can read their ‘Why’ page if you wish to understand more.

2.3) Cross Chain integration

Cardano aims to integrate with all alternative or alt cryptocurrencies without the use of a third party, which:

-Reduces fees that exchanges charge
-Allow quicker and easier transactions across the blockchain
-Removes the risk of a third party losing your cryptocurrencies

3) Where to buy ADA

If you are keen to purchase ADA, you can do so at the following exchanges:

-Binance –
-Upbit – – Where you can buy ADA using KRW fiat currency
-Bittrex – – Where you can buy ADA using USD fiat currency
-Huobi –

As you can see most exchanges offer the ADA coin as a trading pair with Bitcoin and Ethereum. You will need to purchase Bitcoin or Ethereum first.

However, Upbit and Bittrex are the two largest exchanges that let you buy ADA using fiat currencies.

4) Where to store ADA

For some time, there was only one wallet where you could store your ADA – the official Daedalus wallet. The wallet has support for Windows and Mac right now. Linux support is expected soon.

However, a lightweight wallet was recently announced, called Yoroi Wallet. Check out the video below:

5) Conclusion

Cardano has a focus on code scrutiny and peer-reviewed security measures. This makes it slightly different from some of the other cryptocurrencies.

The team behind the coin instills some confidence in this cryptocurrency for now. ... guide-ada/
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Re: Cardano (ADA)

Berichtdoor neku » 28 Sep 2018 16:21

Another Name Keeps Cropping Up…

Cardano has kept plugging away this week and added another 4.79% over the past 24 hours. Cardano ADA is actually down on its position a month ago and it did collapse with the market, but the past week has seen a determined fightback and the market cap of $2.2 billion is no joke. At its peak this month it was $2.8 billion, but that seems like a long time ago right now. ... supernova/
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Re: Cardano (ADA)

Berichtdoor neku » 13 Okt 2018 14:41

Cardano's Charles Hoskinson announces the split between IOHK and Cardano Foundation

A massive twist occurred in the story of the 9th largest cryptocurrency ecosystem, Cardano [ADA] this week. On 12th October, Charles Hoskinson, the Founder of Cardano’s parent company InputOutput released a video update where he informed the community about IOHK departing from the Cardano Foundation [CF]. He also conveyed that IOHK and Emurgo, the venture capital arm for Cardano are together going to carry the ecosystem forward, without Cardano Foundation.

Regarding the role of the Cardano Foundation, the IOHK CEO explained that it was brought into the picture to handle the aspects of the projects that bridge the gap between the tech and the venture arm. Some of the main roles of CF included managing the meetup groups, providing timely and accurate information to the community, carrying out regulatory outreach, among others. In his words:

“…things like procuring the trademarks, things like regulatory outreach, for example, a large percentage of the initial ADA distribution was in Japan and getting listed on the Japanese exchange seems to require a great degree of regulatory lobbying and pushing so this was the duty of the Cardino foundation amongst others.”

He further discussed how Michael Parsons, the Chairman of the CF board did not comply with business ethics and promoted nepotism in the placement of the board members. According to Hoskinson, Parsons was supposed to act as a community ambassador without heading the operations.

However, after a considerable wait, IOHK did not see any diversity in the board, with traces of nepotism. Apart from these issues, the CF was not seen to have executed any of its core responsibilities, Hoskinson revealed. He then stated:

“As the months came by and our relationship continued to strain, it became very clear to IOHK and Emurgo that we’re probably not going to effectively work with the foundation the way it’s structured. So what we decided to do was to gradually take upon ourselves more of the foundation’s duties.”

During the video, Hoskinson also clarified that one of the goals while working on the Cardano project was to distribute and balance the power across the ecosystem. He said that the concentration of power and responsibilities in one entity can lead to a resistance against decentralization. He cited:

“So traditionally when cryptocurrency is launched there is a central foundation and that foundation is responsible for issuing a token for community, management,, exchange listing the construction of the cryptocurrency and business development as well as encouraging people to build on top of the protocol. This approach is that there’s just simply too much power and responsibility in one entity.”

Ken Kodama of Emurgo along with Charles Hoskinson also published a joint open letter to CF’s Michael Parson wherein the parties have left a challenging and investigatory note to the Chairman. The letter posed some of the tough questions at the CF authority regarding the nepotism and performance of the foundation.

The letter also revealed that many of the claims made by the organization regarding the utilization of funds fetched from the Cardano ICO were superficial in nature. This was found by IOHK and Emurgo after investigating the papers published by CF on the matter. ... oundation/
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Re: Cardano (ADA)

Berichtdoor neku » 21 Okt 2018 20:28

Cardano (ADA) faces risk to drop below the top 10 rank after IOHK and Emurgo departure

Charles Honkinson left Cardano Foundation earlier in the month through an exclusive interview on his social pages. The decision to leave came abruptly and has surely shocked a lot of community followers as he represented the vision and drive of one of the brightest stars in the cryptocurrency universe. Over the short period in tenure the former Cardano boss oversaw a rapid phase of development of the blockchain as well as the token, ADA.

The Input Output Hong Kong (IOHK) and Emurgo released a statement as they parted ways with the Cardano Foundation citing a lack of clear vision to the goals set out for the development team and council.
It’s only a matter of time for Cardano…

A lot can go right for a cryptocurrency once tipped to be the top coin in transforming developing economies through decentralized financing and peer to peer transactions. However, with the major part of their development team in IOHK and Emurgo leaving the projects future has a dark cloud hovering around it.

In the statement by IOHK and Emurgo, Cardano community and ecosystem is blamed for stalling the overall development of the blockchain. The statement read in part,

“For more than two years there has been great frustration in the Cardano community and ecosystem. This has been caused by a lack of activity and progress on the assigned responsibilities of the Cardano Foundation and its council. Furthermore, there has been no clear indication of improvement, despite many fruitless attempts and approaches to the Foundation’s chairman and council to change this.”

Furthermore, Cardano board members and council were accused of the lack of a strategic vision in the future of the Cardano project, lack of financial planning for the funds held by the Foundation, lack of transparency in the dealings of the Foundation and ‘material misrepresentations and wrongful statements by the Foundation’s council’ including the claim of having trademarked the Cardano name.

One board controversy caused Iota (MIOTA) a place in the top 10 largest coins in market capitalization recently. A Swahili proverb goes, “Fahili wawili wakipigana nyasi huumia” translating to ‘a fight between two bulls leaves the ground bare’ shows the situation playing out painfully for the investors in ADA in future.

With the top development team gone, albeit claims of having a “too academic” approach, Cardano may struggle to find a more capable team to run the platform using the complex Haskell language used to code the blockchain. This may push the platform below expected levels with the departure a big loss for the team.

ADA to drop below the top 10 ranking?

Cardano’s current situation with IOHK puts the project at a risk of dropping from its long held top 10 market cap position. Today, the altcoin’s market capitalization stands at slightly below $2 billion while its daily traded volumes average $30 million. Just like other digital currencies, ADA has proven to be a risky investment both fundamentally & technically. The crypto coin has lost over 7% in price for the past two weeks while its monthly volatility stands at a high of 32%. At the moment, one ADA crypto coin exchanges at $0.0757 against the U.S dollar while it’s valued at 0.000058 against Bitcoin.

However, the ADA cryptocurrency market dominance might save the coin from slipping a couple positions down. As of press date, Cardano’s market share in the crypto markets is at 0.9533%, this is a relatively significant position given there exists over 1,800 digital currencies. Furthermore, ADA’s opening price about a year ago was at 0.0217, this price has since grown by over 200% & was at an all-time high of $1.15 when the markets rallied in 2017. ... uMknzQyx90
The aim of education is the knowledge, not of facts, but of values!

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