CryptoURANUS Economics: 08/26/18


Sunday, August 26, 2018

Burst-{BURST)-Coin: Defined in CryptoCurrency

Burst-Coin: Defined


Burstcoin: Defined!

This is the approved revision of this page, as well as being the most recent.

Burstcoin logo Above...

Burstcoin is a digital cryptocurrency and payment system based on the blockchain technology.

The Burstcoin was introduced on the forum on 10 August 2014 as an Nxt-based cryptocurrency.

Burstcoins are mined using an algorithm called proof-of-capacity (PoC) in which miners use computer storage instead of the more common energy-expensive method proof-of-work (PoW) which involves permanent computational operations.

The energy requirement for Burstcoin mining is minimal compared to most other cryptocurrencies making Burstcoin one of the most nergy efficient within the field of proof based cryptocurrencies.

The Nxt blockchain platform allows for development flexibility, ensuring developers freedom to create their own applications.

In this sense, Burstcoin can be considered as a next-generation cryptographic application project (often called 'cryptocurrency 2.0') in contrast to the first generation cryptocurrencies like bitcoin.

The crypto tokens, called Burst, are fairly distributed. There was no ICO, no pre-mine allocations to early adopters, and no airdrops for any promotions of the cryptocurrency during the launch.

The Burstcoin blockchain operates with a block time of 4 minutes, the block reward size reduces at a fixed rate of 5 percent each month, and contains a limited token supply of 2,158,812,800 Burst crypto tokens. The network offers a dedicated digital wallet called Burst Wallet.

Burstcoin Price Online From CoinMarketCap


Origin to community takeover Burstcoin was released to the public on 10 August 2014 on by the original developer who is known under the alias "Burstcoin".

Their real identity is still unknown today.

The coin was launched without an initial coin offering (ICO) or premine.

The genesis block was published on 11 August 2014. Approximately one year later, the main developer "Burstcoin" disappeared without any explanation.

Being an open source project, other members of community then took over the development of Burstcoin.

On 11 January 2016, a new forum thread was created on by a senior community member. The core code is being actively developed by an international community of contributors.


Burstcoin is the first cryptocurrency using the proof-of-capacity algorithm. Proof-of-capacity was successfully implemented by the original developer, going by the name "Burstcoin" on forums.

Burstcoin was the first cryptocurrency to implement working, "Turing complete" smart contracts in a live environment in the form of Automated Transactions (AT), this occurred before both Ethereum and Counterparty.

An application of these smart contracts was shown in the form of the world's first decentralized lottery. It became the first ever program to run on top of a blockchain in a trustless decentralized manner.

Other use cases of the Automated Transactions include decentralized crowdfunding.

A more recent innovation by Burstcoin and Qora is the Atomic cross-chain transactions (ACCT), this allows for full decentralized trading between two cryptocurrencies without the need for any third-party, namely an online exchange.

Cross-chain transactions have been successfully made between the blockchain of Burstcoin and Qora.

Design Blockchain:

The Burstcoin blockchain is a public ledger that records every transaction. It is fully distributed and works without a central trusted authority:
  • The blockchain is maintained by a network of computers known as nodes running the Burstcoin software.


Ownership of Burstcoins implies that a user can spend Burstcoins linked with a specific address.

For this to occur, a payer must digitally sign the transaction using the associated private key.

Without knowledge of the private key, the transaction cannot be signed and Burstcoins cannot be spent.

The network verifies the signature using the public key.

If the private key is lost, the Burstcoin network will not recognize any other evidence of ownership; the coins are then unusable and are effectively lost.


A summary of a Burstcoin transaction is as follows...

The sender details the parameters for the required transaction type (sending money, creating an alias, transmitting a message, issuing an asset or an order for an asset).

All values for the transaction inputs are bounds checked for validity. If the transaction is found to be valid then the public key for the generating account is computed using the supplied secret passphrase.

A new transaction is created, with a type and sub-type value set to match the type of transaction being created.

All specified parameters are included in the Transaction object. A unique transaction ID is generated with the creation of the object. The transaction is digitally signed using the sending account's private key.

The encrypted transaction data is placed within a message instructing network peers to process the transaction.  The transaction is then broadcast to all peers on the network. Burstcoin transactions are based on the Nxt code base. A detailed explanation of the transaction process can be found on its wiki page.

Mining (proof-of-capacity):

The mining burstcoin process is based on a proof-of-capacity (PoC) consensus algorithm. In order to mine burstcoins each miner first computes a large data set which is then saved to a computer storage medium.

These data sets are known as plots. For each new block in the blockchain each miner will read through a tiny subset (1/4096th - approximately 0.024%) of their own saved plots and return a result as a time interval in seconds known as a deadline.

The miner with the lowest deadline wins the block and is then rewarded with the transaction fees and the decreasing block reward of burstcoins.
The computational resources for mining burstcoin are limited to the time it takes the miner to read the plot files stored on mass storage.

Once this is achieved no other computational resources are needed until the next block making Burst highly energy efficient.The total size of a miners plots is comparable to the mining speed used by other cryptocurrencies.

The hardware entry point for Burst mining is minimal as it can currently be mined on an Android device. Proof-of-capacity is also claimed to be ASIC-proof. Burst's proof-of-capacity algorithm is based on precomputed proof-of-work, so theoretically one could compute the Proofs in real time.

However, it is currently impossible to efficiently compute a significant amount of work during a 4-minute time interval. Inspecting the precomputed work stored on the hard drive is both faster and more energy efficient than any conceivable ASIC device could achieve providing in real-time.

Mining pools:

How to mine burstcoin in the pools? Given that it can take a long time to find the smallest deadline, some miners collectively mine in what is known as a mining burstcoin pool.

Mining pools allow miners to have a more evenly distributed Burst income: the reward for each block won by the pool is distributed between the miners of that pool.

By use of mining pools smaller miners can collectively compete with the larger solo miners. When a block is won the pool miner who finds the lowest deadline receives typically between 50% and 60% of the block reward. Alternatively a solo miner wins 100% of the block reward.


The core feature set of Burst is based on the Nxt platform which allows the adding of external services to be built on top of the blockchain.

The Burstcoin cryptocurrency wallet comes in two versions: 
The web based wallet (online wallet) and a Windows desktop version (Windows Client) which is essentially a wrapper for the web wallet and a local instance with some added functionalities.

Users can access their account from anywhere in the world with internet access and a web browser. The features of the Burst wallet include (but are not limited to) the following below...

Android version:

An Android version of the Burst wallet was released in 2016. Although it currently only has a subset of the features of the PC version it allows users to plot the storage capacity of the device, to mine coins with it and to send and receive Burstcoins on any Android capable device.

Asset Exchange:

Screenshot of the Burstcoin Asset...

Exchange window...

The Burst Asset Exchange is a peer-to-peer exchange platform integrated into the Burst wallet. It functions primarily as a secure decentralized trading platform for Burst assets.

The popularity of the asset exchange is based upon the absence of any third party, allowing improved efficiency and reduced costs. A burst asset is basically a token to represent anything the asset issuer deems to be of value so that it can be traded, common examples of such assets include shares in the following: mining pools, retirement funds, crypto mining rigs, crypto gambling sites and silver investments.

Automated transactions (Smart Contracts):

Screenshot of First Smart Contract...

using Burstcoin...

Smart Contracts are self-executing contractual states, stored on the blockchain. In brief an Automated Transaction is a "uring complete" set of byte code instructions which will be executed by a byte code interpreter built into its host.

An AT supporting host platform automatically supports various applications ranging from games of chance to automated crowdfunding and ensuring that "long term savings" are not lost forever.


The crowdfunding feature allows users within the Burst community to raise funds in Burst for project creators in a decentralized way.

Escrow service:

The Burstcoin Wallet has an inbuilt escrow service, it allows a quantity of Burstcoins to be held by a third-party on behalf of transacting parties.


The Burstcoin Wallet includes a completely decentralized marketplace where Burstcoin users can view other users items for sale by referencing their account id. It will display all items for sale for the designated account holder.

Source: The Burst site


(PoSpace), also called proof-of-capacity (PoC), is a means of showing that one has a legitimate interest in a service (such as sending an email) by allocating a non-trivial amount of memory or disk space to solve a challenge presented by the service provider. The concept was formulated by Dziembowski et al; in 2015.

Proofs of space are very similar to proofs of work, except that instead of computation, storage is used. Proof-of-space is related to, but also considerably different from, memory-hard functions and proofs of retrievability.

After the release of Bitcoin, alternatives to its PoW mining mechanism were researched and PoSpace was studied in the context of cryptocurrencies.

Proofs of space are seen as a fairer and greener alternative due to the general-purpose nature of storage and the lower energy cost required by storage. Several theoretical and practical implementations of PoSpace have been released and discussed, such as SpaceMint and Burstcoin.


A proof-of-space is a piece of data that a prover sends to a verifier to prove that the prover has reserved a certain amount of space. For practicality, the verification process needs to be efficient, namely, consumes a small amount of space and time.

For soundness, it should be hard for the prover to pass the verification if it does not actually reserve the claimed amount of space.

One way of implementing PoSpace is by using hard-to-pebble graphs. The verifier asks the prover to build a labeling of a hard-to-pebble graph. The prover commits to the labeling. The verifier then asks the prover to open several random locations in the commitment.


Proofs of space could be used as an alternative to proofs of work in the traditional client puzzle applications such as anti-spam measures and denial of service attack prevention.

Proof-of-Space has also been used for malware detection, by determining whether the L1 cache of a processor is empty (e.g., has enough space to evaluate the PoSpace routine without cache misses) or contains a routine that resisted being evicted.


PoSpace has been used in the Burstcoin cryptocurrency founded in August 2014. Burstcoin claims to have a green algorithm that favors smaller miners by design, making transaction costs cheaper and the network more decentralized.

The goal of depending on smaller miners was most typified by the original Android app to mine Burstcoin.

However, by December 2017, the estimated network size approached 157,000 terabytes and the average mining payoff was 21 burst per week per terabyte, so participants with disk space measured in gigabytes are no longer likely to receive significant payback from mining.


In 2015, a paper proposed a cryptocurrency called SpaceMint.  It attempts to solve some of the practical design problems associated with the pebbling-based PoSpace schemes.

In using PoSpace for decentralized cryptocurrency, the protocol has to be adapted to work in a non-interactive protocol since each individual in the network has to behave as a verifier.


A cryptocurrency developed by Bram Cohen based on a new proof of space protocol, and proof of time. 


Search This Blog