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Cryptocurrency Unlimited Mining

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Top Cryptocurrency and Bitcoin

Cryptocurrency, Bitcoin & Ethereum.

Bitcoin is a decentralized digital currency, without a central bank or single administrator, that can be sent from user to user on the peer-to-peer bitcoin network without the need for intermediaries. Cryptocurrency, Ethereum & Bitcoin. Famous Cryptocurrencies like Bitcoin and Ethereum cryptocurrency is the future of the global financial industry.  Bitcoin is reliable, secure and super-fast.  Specialist skills and high powered computers keep cryptocurrency’s safe and decentralised with cryptocurrency miners.  GPU Mining, ASIC Mining, CPU Mining.  Bitcoin Mining Is Big Business. For example, 4 thousand miners could generate $43 million per year. 

Cryptocurrency Mining On A New Generation Laptop Is Now Possible

Legion 7i Gen 6 16″ – 11th Gen Intel Laptop

Underneath its aluminium Storm Grey exterior, the Legion 7i Gen 6 16″, our new flagship gaming laptop, is a beast. 11th Gen Intel® Core™ processors and up to 165W NVIDIA® GeForce RTX™ 3080 graphics let you stream and run today’s top popular games like a pro.

And a 16″ WQXGA gaming display, you’ll see across the map, while 3D Nahimic audio lets you hear every footstep that approaches.

Is Bitcoin mining profitable 2021? Short Answer Yes.
Bitcoin mining is becoming one of the most lucrative and innovative sectors of the global economy. According to data, at the height of the current bull run in April 2021, cryptocurrency mining has generated $3 billion in revenue, which means that crypto miners earned $100,000,000 in profit every day on the average

Cryptocurrency ERGO – Cryptocurrency Mining ERGO – Welcome to Smart Money

Ergo builds advanced cryptographic features and radically new DeFi functionality on the rock-solid foundations laid by a decade of blockchain theory and development.

Blockchain is a rapidly-advancing field that offers many exciting developments, with more applications and use cases appearing every day. However, this innovation often comes with a ‘move fast and break things’ approach to software development that doesn’t sit well when dealing with millions or even billions of dollars of users’ financial value.

Ergo draws on ten years of blockchain development, complementing tried and tested principles with the best peer-reviewed academic research into cryptography, consensus models and digital currencies. We start with solid blockchain basics and implement new and powerful cryptography natively. Our team has a solid background in core development with cryptocurrencies and blockchain frameworks including Nxt, Scorex and Waves, and our lean approach means we can prioritise new features and requirements quickly.

In our different experiences of working with blockchain platforms, we’ve learned that conventional Turing-complete smart contracts may be powerful, but they can be risky. Implementing complex computational tasks on the blockchain can have unintended consequences. Network conditions, bugs and code exploits can mean it’s impossible to know how expensive it is to execute software – or whether that code will run as intended at all. That can lead to security vulnerabilities and faulty dApps.

Ergo’s smart contracts allow us to execute wide-ranging tasks, but we always know in advance how much the code will cost and whether it will run successfully. Meanwhile, we can still write Turing-complete scripts by iterating processes across multiple blocks. That means Ergo can support versatile dApps that run predictably, with known costs, and don’t have any of the dangers of unrestricted functionality.

Sigma protocols are the foundation of Ergo’s smart contracts. They allow for a class of efficient zero-knowledge protocols that enable us to implement tasks that would otherwise be either impossible, or else risky and expensive.

For example, Sigma protocols let us implement ring and threshold signatures out of the box. Let’s say you want to create a ‘ring spending contract’, where either of us can make a transaction from the same address, but we don’t want anyone else to know which one of us is spending the funds. That’s not possible with Bitcoin. And, while it can be done with Ethereum, it would be expensive and complicated – especially with a ring size of 10 or 20 members, which would be required for robust privacy.

With Ergo, this kind of application can be created easily, thanks to the integration of Sigma protocols in the core. This enables self-sovereign application-level privacy: trustless scripts that can be used to access mixers or other functionality, without any third parties required at all.

Each script is applied to an unspent output. We have drawn this feature from the Bitcoin protocol, which also uses UTXOs or the ‘coin’ model, rather than an ‘account’ model like Ethereum’s. We consider this a more secure approach, since boxes are immutable, as well as being more flexible.

Ergo’s blockchain uses the Autolykos algorithm for consensus, which is a variant of Equihash and offers better ASIC resistance, as well as a degree of pool resistance. This enables better decentralization, avoiding large pools that can collude or be coerced to attack the network. At the same time, we recognise that ordinary users who do not run a full node should enjoy the same security benefits as miners. Ergo’s non-interactive proof-of-proof-of-work (NiPoPoW) allows anyone to make and verify transactions with complete confidence, without needing the storage, bandwidth and time required to download the full blockchain. In fact, as little as 1 MB of data is required – meaning any device can be used.

Like many other features in Ergo, the network’s economic model is based on Bitcoin’s approach. We believe that digital scarcity is important for underpinning value, and have capped coin supply at under 100 million ERG. Unlike Bitcoin, the block rewards decrease steadily after the first two years, with no long tail of emission. Block rewards start at 75 ERG, and over a period of eight years will fall to zero, after which total supply will be fixed.

At this point, in addition to transaction fees, miners will also benefit from storage rent fees charged on boxes (UTXOs) that have not moved their coins for four years or more. There are at least two advantages to this approach. Firstly, it gives miners an additional source of revenues once block rewards end. Since the security of the network depends on hashrate and miner participation, this is an important incentive to provide. Secondly, it has the effect of recycling lost coins (and dust) back into the Ergo economy. Research suggests that up to 4 million BTC have been permanently removed from circulation due to lost private keys. Ergo’s storage fees will slowly reclaim these for productive purposes, while users who want to hold coins for the long term can avoid being charged simply by moving their funds.

There is a difficult balance between ensuring a project is adequately funded and potentially disadvantaging later users if a large proportion of tokens is pre-mined or reserved in an ICO. We have chosen a strategy that has proven successful for other cryptocurrencies, whereby a percentage of tokens from each block reward is allocated for development and marketing.

In Ergo’s case, these Foundation tokens are managed by a smart contract built into the protocol. 10% of each block reward for the first two years, or 7.5 ERG per block, are allocated to the Treasury, with the remaining 67.5 ERG going to miners. As block rewards begin to reduce after two years, the Foundation will continue to receive rewards over 67.5 ERG, with the Treasury allocation dropping to zero after 2.5 years.

Ergo is designed and implemented by a team of experienced developers and researchers, who hold publications and PhDs in cryptography, compiler theory, blockchain technology, and cryptographic e-cash. The team also has a solid background in core development with such cryptocurrencies and blockchain frameworks as Nxt, Scorex and Waves.

We are also supported by community developers, who may work on a volunteer basis or who receive grants from the Foundation for implementing useful features and dApps. For example, ErgoMix, a decentralized mixing service based on Sigma protocols, was built by a third party developer from the Ergo community, and Ergo’s decentralized exchange is also being developed on this basis.

Ergo is designed and implemented by a team of experienced developers and researchers, who hold publications and PhDs in cryptography, compiler theory, blockchain technology, and cryptographic e-cash. The team also has a solid background in core development with such cryptocurrencies and blockchain frameworks as Nxt, Scorex and Waves.

Cryptocurrency, Blockchain technology is the way of the future, regulated or not regulated. Ultimately, decentralised financed.  David Gawler calls it smart money or smart cryptocurrency.

When it comes to cryptocurrency mining.

What is a silicon lottery and how does affect mining?

There are tens of thousands of GPUs mining right now. Hundreds of the same model, even the same series, and some of them will not mine with the identical speed even if used in the same rig. What is the reason for that?

What is a silicon lottery?

Silicon lottery is mostly used by CPU and GPU overclockers. Each chip can have slightly different performance capabilities compared to the same chip model. Sometimes you can win the lottery by getting a chip that can perform better than the average chip. Other times, you can lose the lottery by getting a chip that will perform below the average chip performance.

By winning the so-called silicon lottery, your chip can achieve higher clock speeds. The chip will be more stable when running higher voltage and clock speed – either core or memory clocks.

For example, a Ryzen 3700x runs at a stock speed of 3.6 GHz. Most of the Ryzen 3700x’s can achieve 4.0 GHz, but not all can achieve 4.3 GHz. If your Ryzen 3700x can run at 4.3 GHz, then you could say that you won the silicon lottery. Congrats!

If you have a GPU 3060 cryptocurrency mining Ethereum, low hash rate might be 60 hashrates but iwth programming in modifications to your overclock settings you might achieve 70 hash rates higher with over clocking with lower power usage on each processor. The number might not sound like a lot but if you have 12 processors then this can make or break a small profit or a massive profit when cryptocurrency mining. 

All processors are different so programming in to find the sweet spot with overclocking is crucial in the trial and error process.  Sure. The standards do exist but tweaking each processor for cryptocurrency mining will make sure you run your processors at the most efficient and effective way.

Does the silicon lottery affect mining?

Yes, it does. All chips are affected by the silicon lottery. Whether this is a processor, graphic card, or RAM.

Before, we established that each processor can achieve higher clock speeds based on the silicon lottery luck. This also applies to the graphic card. If a graphics card can achieve higher clock speeds, it will be able to mine faster. With memory-intensive algorithms, such as DaggerHashimoto, memory speed is more important than core speed. This means that the GPU whose VRAM can achieve higher speeds will achieve a higher hashrate.

How do I know if I won a silicon lottery?

Test the device. First look for recommended overclock settings here. Start with these values and increment the memory or core clock speeds until you find a sweet spot where the rig is still stable. If you can achieve above-average performance or lower voltage with stock clocks compared to the average user, then you most likely won the silicon lottery.

Silicon lottery is ultimately the value placed on overclocks to achieve better and more effective results for cryptocurrency mining. 

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