Download Bitcoin Mining Calculator Free for Android ...

I’m interested in starting a tiny farm. A garden if you will.

I am thinking of getting two Antminer S9s and setting them up at my house. I’m aware they might not be too profitable but I’m still wanting to mine coins. Here’s my main question since the Antminer S9 runs the SHA256 algorithm what coin would you suggest I mine, and also if you don’t like the Antminer S9 what would you suggest for a beginner? My budget per miner is about $200.
submitted by NA_Native to Bitcoin [link] [comments]

Building an Ethereum Mining Rig - Part 2

First update to the guide "Building a 6Gpu Mining Rig for Ethereum" - Let's talk about Claymore.
This update supplements and does not replace the Guide to Build a 6GPU Mining Rig for Ethereum published on our site.

The substantial differences are due to the installation of the latest version of the Windows 10 Operating System, the mining on the Ethermine pool (in our opinion simpler than Dwarfpool) and the use of the XFX RX 580 8gb GPUs.

The first variant is found in Part 4 of the guide: the environment variables are not to be entered as they will be integrated directly into the bat file to start mining.

The second variant is found in Part 7 of the guide and leads us to "mine" on a different pool using the Claymore software.
Download the latest version at the following link: https://github.com/Claymore-Dual/Claymore-Dual-Miner

Once downloaded, unzip everything on a folder on your desktop and open the start.bat file with notepad. Clear the contents and copy the following command:

start config.dll -epool eu1.ethermine.org:14444 -ewal "your ETH wallet address" -epsw x -worker "worker"
EthDcrMiner64.exe

Where instead of "your wallet address" you will have to put your Ethererum wallet - obviously without the quotes - and instead of worker you will put an identification number in case you build more RIGs (such as RIG1, RIG2, etc ...). We opted for the eu1 pool even if some on the discussion forums believe that the us1 is more profitable.

At the following link, many other useful commands for your Rig:
https://github.com/Claymore-Dual/Claymore-Dual-Miner


The Ethermine pool offers a very well crafted and descriptive interface. In the Payouts section, after only 5 minutes of mining, you can decide the minimum amount of Ether to be transferred to your wallet by simply entering the IP address of the RIG.

We have decided to mine directly on the Ethereum address of our Exodus wallet. It is not recommended to mine directly on Coinbase, as reported on the site itself. Sin.

Nothing should be left to chance when you decide to build a mining rig for Ethereum.
The third variant is the most difficult of all. Once you have reached Part 5 of the guide, you can decide whether to continue or follow this update / variant. If you are here it is probably because you have run into some problem that the guide does not allow you to solve.

With the latest version of Windows 10, you may run into a kernel conflict between the operating system and AMD's Radeon Software Crimson ReLive Edition Beta for Blockchain Compute drivers. This conflict will prevent you from using Atiflash after installing the drivers.

Important: Before making any changes to the BIOS, please backup each GPU.

Important: first of all flash the GPUs with the original bios if for any reason you are forced to reinstall the operating system.


Still on Atiflash.
The advice would therefore be to flash the GPUs and then install the AMD drivers. Let's say it would be because you may run into another problem this time related to the GPUs themselves. Since each video card is different from any other, the bios mod of the GPU could crash the operating system showing the classic blue screen and displaying an error related to the Atimkdag.sys file.

This could be due to the fact that some GPUs have significantly higher performance in the calculation phase than others. We could call it a factory overclock but not using them for gaming we cannot say it with absolute certainty.

Having assessed these two drawbacks, the only safe solution is to flash all the GPUs, disconnect them except for the first one, install the Blockchain drivers (plus Atimkdag patch) and launch the mining command verifying that the operating system does not go into crash in the next 5 minutes.

Turn off the rig again and connect the second GPU so on up to the sixth. In the event that one or more video cards should crash the system, disconnect them. After that, it uses DDU from the provisional mode and flashes these GPUs with their original bios. At this point, connect them again, reinstall the Blockcain drivers (plus Atimkdag patch) and start mining definitively.

All the operations related to the use of Atiflash, DDU and driver installation are reported in Part 5 and Part 6 of our guide.
A little bit of Overclocking.
You will certainly find significant differences in performance between the GPUs.

At this point all that remains is to "operate" with an overclocking software. We opt for OverdriveNtool. Our constantly updated guide is available at the following link: https://www.cryptoall.it/2019/10/12/complete-guide-to-overdriventool/

Link to the official YouTube channel for verification: https://www.youtube.com/channel/UCdE9TTHAOtyKxy59rALSprA

GPUs with modified bios will not leave much room for modification. You will have to proceed with the most extreme overclocking on those that mount the original bios; obviously always in small steps by saving the profile for each GPU. Our guide explains in detail how to do it.

Hoping to have been of help, we give everyone an appointment for the second part of the update on how to build an Ethereum mining rig in which we will explain in detail the dual mining on the Ethermine pool.

See you soon.


If you liked this article and would like to contribute with a donation:

Bitcoin: 1Ld9b165ZYHZcY9eUQmL9UjwzcphRE5S8Z
Ethereum: 0x8D7E456A11f4D9bB9e6683A5ac52e7DB79DBbEE7
Litecoin: LamSRc1jmwgx5xwDgzZNoXYd6ENczUZViK
Stellar: GBLDIRIQWRZCN5IXPIKYFQOE46OG2SI7AFVWFSLAHK52MVYDGVJ6IXGI
Ripple: rUb8v4wbGWYrtXzUpj7TxCFfUWgfvym9xf

By: cryptoall.it Telegram Channel: t.me/giulo75 Netbox Browser: https://netbox.global/PZn5A
submitted by Giulo75 to u/Giulo75 [link] [comments]

18 P106-100 & 1 P104-100 Mining Rig Build

18 P106-100 & 1 P104-100 Mining Rig Build

19 GPU Build with ASUS B250 Mining Expert - 470MH/s

Its my dream to achieve and build a mining rig of this extent.
Allow me to describe this journey of mine to the GPU mining community.
Kudos to all! Feel free to ask me questions and I would love to help you out.

2017 - Bull Market - Dipped my toes into the GPU mining market. Spent nearly 3k USD, 6x GTX 1060 3GB & 2x GTX 1070ti.

Back then, my setup was really simple, An ASUS B250 Mining Expert with Pentium G4400, 8GB of RAM, 2 PSU (Coolermaster 700w as well as a V1200W PSU)
Placed this entire setup on a DIY metal shelf
Bought extra 2 GTX 1060 3GB on my Ryzen 7 1700 setup back then. Mining Monero too on Cryptonight Algo. Really profitable on these 2 rigs combined. Earning approximately 35USD per day at the peak :)
Without much experience back then, my overclocking skills sucks. I was drawing a ton of power with very little efficiency. However, at that point I was literally making few hundreds every month. It has been a really wonderful journey until bear market hits.

2018 - Nicehash Hacked, Bitconnect & Bear Market Hits...

If you still remember the dreadful hack of Nicehash. One morning I woke up seeing that my rig was no longer mining. Saw my balance turned to zero. And the moment I saw this article, my heart sanked. With over 100 USD inside my account that point, I knew I wouldnt be able to pay for my electric that month. This pulled down my confidence but quite a little.
Still remember Bitconnect? Hahahaha well entered into this ponzi scheme too. Invested 100 USD into this, got it back and donated the money.
Disconnected my entire rig... It was a pretty sad moment :\")
My house became cooler, quieter and my power usage instantly went down.
Kept 1 GTX 1070ti & 1 GTX 1060 3GB and built myself a Ryzen 7 gaming computer hehe.

My disconnection from Crypto 2018-2019

I exited this market back at the very end of the bull run and never touched Bitcoin until 2019. I began to plan my future, created an investment portfolio where I finally included Bitcoin back into my high risk asset class. The resurgence of Bitcoin mining begans :)

2019 - Sold my Ryzen 7 1700 & MB for ASUS B250 Mining Expert with 19 GPU build in mind

It all started with my small mining rig of one ZOTAC GTX 1070ti as well as an ASUS B250 Mining Expert which I was using to mine Ethereum at 33MH/s, get paid 0.05eth approximately every 2 weeks on 2miners.com

Purchased 2 more GTX 1070ti, bringing my total hashrate to 130MH/s.
Revamped & Redesigned into a DIY rig. Didnt wanna spend the money to find a frame hehe decided to use my mums shoe rack instead HAHAHAH
Back then, 1 GTX 1070ti resale value was approximately 230 USD here in Singapore.
Calculated hash per dollar and I notice the insane price I was paying with my 1070tis.
Sold all 4 of my GTX 1070tis and manage to trade for the following cards:
  • x4 Gigayte RX 570 8GB cards @ 70USD
  • x1 Sapphire Nitro RX 570 8GB @ 85USD
  • x5 P106-100 6GB cards @ 63USD
4 Gigabyte RX 570, 1 Sapphire RX 570, 5 P106-100 6GB
With all the skills and experience I have accumulated in 2017, I began redesigning my entire 10 GPU setup. This was the end product of my 10 GPU mining rig consisting of 5 NVIDIA P106-100 6GB cards as wel as 5 AMD RX 570 8GB cards. Working fine alongside with one another as claimed by ASUS.
Hashrates:
  • NVIDIA P106-100 6GB: 24.8MH/s @ 85watts
  • AMD RX 570 8GB: 29MH/s @ 95watts

DEAL OF THE MONTH - ZOTAC P106-100 6GB @ 56 USD

The dream of building 19 cards were never off my brain. Been sourcing for cheaper 2nd hand cards and snap! 56 USD per card for ZOTAC P106-100. It was insanely a great deal. Sold my 5x RX 570 8GB, use the cash and baammm!
Got 8 ZOTAC P106-100 6GB (2 not in photo) for test. PERFECT CONDITION and I cant believe the speed I was getting in Ethereum. 450MH/S for 18x P106-100 6GB

2ND DEAL OF THE MONTH - P104-100 8GB @ 70 USD

Managed to achieve 35.9MH @ 124w. Bringing my total GPU to 19.

The screen all miners with B250s love to see :)
The entire setup of my 19 GPU rig. Fan is blowing at single direction, expelling all the hot air towards my door exit. Keeping my living room relatively cool.

Underclocked my rig to 466MH for better stability and power draw. Has been running fine for 2 weeks without any manual interventions.
Bought a HP 1200w PSU. Placed a 120mm fan on top of it to keep it cool. In case if you are asking how loud is it, actually its pretty quiet. I have only used 600w, half of the capacity. Hence, under full load I am not sure how loud it will be.

All in all, my journey of a 19 GPU build. Feel free to ask me any questions :)
submitted by amtf99 to gpumining [link] [comments]

Returning back to mining Monero after over 6 months. Need advice.

I have a rx580 and a ryzen 1600. It's been over 6 months so I have no clue what miner pools are good and what new miner software (was using claymore) are now here. My Aorus rx580 8gb failed to show video when I used the most up to date drives from AMD so I used the ones from the Gigabyte website and it's been fine so far.
Backstory (some insight on how I ended up mining Monero) I started mining coins about 3 years ago, with litecoin. I used minergate and with the help of their calculator I relized I could mine Monero for a way higher profit. It was during these times that I earned the majority of my Monero. I bought a 7870 to further my profits after I sold my 6950. But never sold my 0.25 XMR that I made.
Shortly thereafter my 7870 died and I was left unable to mine or game. I had little money to spare, But since the price of Monero had skyrocketed I used 0.20 to buy another used 7870.
The 7870 lasted for awhile and during that time I finally built a real gaming PC. I put a ryzen 1600 and started mining with that too. After a trip away from home I came back and started doing some cleaning. During that I heard the pc make a audible electronic sounding click. I didnt think much of it till when I went to check on it and found that the graphics card had died.
Since the mining boom was now over I set out to buy a new card. I saw an offer I could not turn down. Somone had tried to build a bitcoin rig and was selling their rx580s from it to desperately try and make money back. I got one for 100$ and proudly installed it.
Current problems: First thing I noticed was that with the most to date drives from AMD I got no video. I went to the gigabyte website and downloaded their drivers and its worked fine since. I need to figure out why this may be and if its common. It's the Aorus rx580 8gb. I also need advice on what miners I should be using with the rx580 and the Ryzen 1600 and also new pools as the one I was using, pool.monerominepool.com, shut down.
submitted by mice960 to MoneroMining [link] [comments]

AN INTRODUCTION TO DIGIBYTE

DigiByte

What are cryptocurrencies?
Cryptocurrencies are peer to peer technology protocols which rely on the block-chain; a system of decentralized record keeping which allows people to exchange unmodifiable and indestructible information “coins,” globally in little to no time with little to no fees – this translates into the exchange of value as these coins cannot be counterfeit nor stolen. This concept was started by Satoshi Nakamoto (allegedly a pseudonym for a single man or organization) whom described and coded Bitcoin in 2009.
What is DigiByte?
DigiByte (DGB) is a cryptocurrency like Bitcoin. It is also a decentralized applications protocol in a similar fashion to Neo or Ethereum.
DigiByte was founded and created by Jared Tate in 2014. DigiByte allows for fast (virtually instant) and low cost (virtually free) transactions. DigiByte is hard capped at 21 billion coins which will ever be mined, over a period of 21 years. DigiByte was never an ICO and was mined/created in the same way that Bitcoin or Litecoin initially were.
DigiByte is the fastest UTXO PoW scalable block-chain in the world. We’ll cover what this really means down below.
DigiByte has put forth and applied solutions to many of the problems that have plagued Bitcoin and cryptocurrencies in general – those being:
We will address these point by point in the subsequent sections.
The DigiByte Protocol
DigiByte maintains these properties through use of various technological innovations which we will briefly address below.
Why so many coins? 21 Billion
When initially conceived Bitcoin was the first of a kind! And came into the hands of a few! The beginnings of a coin such as Bitcoin were difficult, it had to go through a lot of initial growth pains which following coins did not have to face. It is for this reason among others why I believe Bitcoin was capped at 21 million; and why today it has thus secured a place as digital gold.
When Bitcoin was first invented no one knew anything about cryptocurrencies, for the inventor to get them out to the public he would have to give them away. This is how the first Bitcoins were probably passed on, for free! But then as interest grew so did the community. For them to be able to build something and create something which could go on to have actual value, it would have to go through a steady growth phase. Therefore, the control of inflation through mining was extremely important. Also, why the cap for Bitcoin was probably set so low - to allow these coins to amass value without being destroyed by inflation (from mining) in the same way fiat is today! In my mind Satoshi Nakamoto knew what he was doing when setting it at 21 million BTC and must have known and even anticipated others would take his design and build on top of it.
At DigiByte, we are that better design and capped at 21 billion. That's 1000 times larger than the supply of Bitcoin. Why though? Why is the cap on DigiByte so much higher than that of Bitcoin? Because DigiByte was conceived to be used not as a digital gold, nor as any sort of commodity, but as a real currency!
Today on planet Earth, we are approximately 7.6 billion people. If each person should want or need to use and live off Bitcoin; then equally split at best each person could only own 0.00276315789 BTC. The market cap for all the money on the whole planet today is estimated to have recently passed 80 trillion dollars. That means that each whole unit of Bitcoin would be worth approximately $3,809,523.81!
$3,809,523.81
This is of course in an extreme case where everyone used Bitcoin for everything. But even in a more conservative scenario the fact remains that with such a low supply each unit of a Bitcoin would become absurdly expensive if not inaccessible to most. Imagine trying to buy anything under a dollar!
Not only would using Bitcoin as an everyday currency be a logistical nightmare but it would be nigh impossible. For each Satoshi of a Bitcoin would be worth much, much, more than what is realistically manageable.
This is where DigiByte comes in and where it shines. DigiByte aims to be used world-wide as an international currency! Not to be hoarded in the same way Bitcoin is. If we were to do some of the same calculations with DigiByte we'd find that the numbers are a lot more reasonable.
At 7.6 billion people, each person could own 2.76315789474 DGB. Each whole unit of DGB would be worth approximately $3,809.52.
$3,809.52
This is much more manageable and remember in an extreme case where everyone used DigiByte for everything! I don't expect this to happen anytime soon, but with the supply of DigiByte it would allow us to live and transact in a much more realistic and fluid fashion. Without having to divide large numbers on our phone's calculator to understand how much we owe for that cup of coffee! With DigiByte it's simple, coffee cost 1.5 DGB, the cinema 2.8 DGB, a plane ticket 500 DGB!
There is a reason for DigiByte's large supply, and it is a good one!
Decentralisation
Decentralisation is an important concept for the block-chain and cryptocurrencies in general. This allows for a system which cannot be controlled nor manipulated no matter how large the organization in play or their intentions. DigiByte’s chain remains out of the reach of even the most powerful government. This allows for people to transact freely and openly without fear of censorship.
Decentralisation on the DigiByte block-chain is assured by having an accessible and fair mining protocol in place – this is the multi-algorithm (MultiAlgo) approach. We believe that all should have access to DigiByte whether through purchase or by mining. Therefore, DigiByte is minable not only on dedicated mining hardware such as Antminers, but also through use of conventional graphics cards. The multi-algorithm approach allows for users to mine on a variety of hardware types through use of one of the 5 mining algorithms supported by DigiByte. Those being:
Please note that these mining algorithms are modified and updated from time to time to assure complete decentralisation and thus ultimate security.
The problem with using only one mining algorithm such as Bitcoin or Litecoin do is that this allows for people to continually amass mining hardware and hash power. The more hash power one has, the more one can collect more. This leads to a cycle of centralisation and the creation of mining centres. It is known that a massive portion of all hash power in Bitcoin comes from China. This kind of centralisation is a natural tendency as it is cheaper for large organisations to set up in countries with inexpensive electricity and other such advantages which may be unavailable to the average miner.
DigiByte mitigates this problem with the use of multiple algorithms. It allows for miners with many different kinds of hardware to mine the same coin on an even playing field. Mining difficulty is set relative to the mining algorithm used. This allows for those with dedicated mining rigs to mine alongside those with more modest machines – and all secure the DigiByte chain while maintaining decentralisation.
Low Fees
Low fees are maintained in DigiByte thanks to the MultiAlgo approach working in conjunction with MultiShield (originally known as DigiShield). MultiShield calls for block difficulty readjustment between every single block on the chain; currently blocks last 15 seconds. This continuous difficulty readjustment allows us to combat any bad actors which may wish to manipulate the DigiByte chain.
Manipulation may be done by a large pool or a single entity with a great amount of hash power mining blocks on the chain; thus, increasing the difficulty of the chain. In some coins such as Bitcoin or Litecoin difficulty is readjusted every 2016 blocks at approximately 10mins each and 2mins respectively. Meaning that Bitcoin’s difficulty is readjusted about every two weeks. This system can allow for large bad actors to mine a coin and then abandon it, leaving it with a difficulty level far too high for the present hash rate – and so transactions can be frozen, and the chain stopped until there is a difficulty readjustment and or enough hash power to mine the chain. In such a case users may be faced with a choice - pay exorbitant fees or have their transactions frozen. In an extreme case the whole chain could be frozen completely for extended periods of time.
DigiByte does not face this problem as its difficulty is readjusted per block every 15 seconds. This innovation was a technological breakthrough and was adopted by several other coins in the cryptocurrency environment such as Dogecoin, Z-Cash, Ubiq, Monacoin, and Bitcoin Gold.
This difficulty readjustment along with the MultiAlgo approach allows DigiByte to maintain the lowest fees of any UTXO – PoW – chain in the world. Currently fees on the DigiByte block-chain are at about 0.0001 DGB per transaction of 100 000 DGB sent. This depends on the amount sent and currently 100 000 DGB are worth around $2000.00 with the fee being less than 0.000002 cents. It would take 500 000 transactions of 100 000 DGB to equal 1 penny’s worth. This was tested on a Ledger Nano S set to the low fees setting.
Fast transaction times
Fast transactions are ensured by the conjunctive use of the two aforementioned technology protocols. The use of MultiShield and MultiAlgo allows the mining of the DigiByte chain to always be profitable and thus there is always someone mining your transactions. MultiAlgo allows there to a greater amount of hash power spread world-wide, this along with 15 second block times allows for transactions to be near instantaneous. This speed is also ensured by the use DigiSpeed. DigiSpeed is the protocol by which the DigiByte chain will decrease block timing gradually. Initially DigiByte started with 30 second block times in 2014; which today are set at 15 seconds. This decrease will allow for ever faster and ever more transactions per block.
Robust security + The Immutable Ledger
At the core of cryptocurrency security is decentralisation. As stated before decentralisation is ensured on the DigiByte block chain by use of the MultiAlgo approach. Each algorithm in the MultiAlgo approach of DigiByte is only allowed about 20% of all new blocks. This in conjunction with MultiShield allows for DigiByte to be the most secure, most reliable, and fastest UTXO block chain on the planet. This means that DigiByte is a proof of work (PoW) block-chain where all transactional activities are stored on the immutable public ledger world-wide. In DigiByte there is no need for the Lightning protocol (although we have it) nor sidechains to scale, and thus we get to keep PoW’s security.
There are many great debates as to the robustness or cleanliness of PoW. The fact remains that PoW block-chains remain the only systems in human history which have never been hacked and thus their security is maximal.
For an attacker to divert the DigiByte chain they would need to control over 93% of all the hashrate on one algorithm and 51% of the other four. And so DigiByte is immune to the infamous 51% attack to which Bitcoin and Litecoin are vulnerable.
Moreover, the DigiByte block-chain is currently spread over 200 000 plus servers, computers, phones, and other machines world-wide. The fact is that DigiByte is one of the easiest to mine coins there is – this is greatly aided by the recent release of the one click miner. This allows for ever greater decentralisation which in turn assures that there is no single point of failure and the chain is thus virtually un-attackable.
On Chain Scalability
The biggest barrier for block-chains today is scalability. Visa the credit card company can handle around 2000 transactions per second (TPS) today. This allows them to ensure customer security and transactional rates nation-wide. Bitcoin currently sits at around 7 TPS and Litecoin at 28 TPS (56 TPS with SegWit). All the technological innovations I’ve mentioned above come together to allow for DigiByte to be the fastest PoW block-chain in the world and the most scalable.
DigiByte is scalable because of DigiSpeed, the protocol through which block times are decreased and block sizes are increased. It is known that a simple increase in block size can increase the TPS of any block-chain, such is the case with Bitcoin Cash. This is however not scalable. The reason a simple increase in block size is not scalable is because it would eventually lead to some if not a great amount of centralization. This centralization occurs because larger block sizes mean that storage costs and thus hardware cost for miners increases. This increase along with full blocks – meaning many transactions occurring on the chain – will inevitably bar out the average miner after difficulty increases and mining centres consolidate.
Hardware cost, and storage costs decrease over time following Moore’s law and DigiByte adheres to it perfectly. DigiSpeed calls for the increase in block sizes and decrease in block timing every two years by a factor of two. This means that originally DigiByte’s block sizes were 1 MB at 30 seconds each at inception in 2014. In 2016 DigiByte increased block size by two and decreased block timing by the same factor. Perfectly following Moore’s law. Moore’s law dictates that in general hardware increases in power by a factor of two while halving in cost every year.
This would allow for DigiByte to scale at a steady rate and for people to adopt new hardware at an equally steady rate and reasonable expense. Thus so, the average miner can continue to mine DigiByte on his algorithm of choice with entry level hardware.
DigiByte was one of the first block chains to adopt segregated witness (SegWit in 2017) a protocol whereby a part of transactional data is removed and stored elsewhere to decrease transaction data weight and thus increase scalability and speed. This allows us to fit more transactions per block which does not increase in size!
DigiByte currently sits at 560 TPS and could scale to over 280 000 TPS by 2035. This dwarfs any of the TPS capacities; even projected/possible capacities of some coins and even private companies. In essence DigiByte could scale worldwide today and still be reliable and robust. DigiByte could even handle the cumulative transactions of all the top 50 coins in coinmarketcap.com and still run smoothly and below capacity. In fact, to max out DigiByte’s actual maximum capacity (today at 560 TPS) you would have to take all these transactions and multiply them by a factor of 10!
Oher Uses for DigiByte
Note that DigiByte is not only to be used as a currency. Its immense robustness, security and scalability make it ideal for building decentralised applications (DAPPS) which it can host. DigiByte can in fact host DAPPS and even centralised versions which rely on the chain which are known as Digi-Apps. This application layer is also accompanied by a smart contract layer.
Thus, DigiByte could host several Crypto Kitties games and more without freezing out or increasing transaction costs for the end user.
Currently there are various DAPPS being built on the DigiByte block-chain, these are done independently of the DigiByte core team. These companies are simply using the DigiByte block-chain as a utility much in the same way one uses a road to get to work. One such example is Loly – a Tinderesque consensual dating application.
DigiByte also hosts a variety of other platform projects such as the following:
The DigiByte Foundation
As previously mentioned DigiByte was not an ICO. The DigiByte foundation was established in 2017 by founder Jared Tate. Its purpose is as a non-profit organization dedicated to supporting and developing the DigiByte block-chain.
DigiByte is a community effort and a community coin, to be treated as a public resource as water or air. Know that anyone can work on DigiByte, anyone can create, and do as they wish. It is a permissionless system which encourages innovation and creation. If you have an idea and or would like to get help on your project do not hesitate to contact the DigiByte foundation either through the official website and or the telegram developer’s channel.
For this reason, it is ever more important to note that the DigiByte foundation cannot exist without public support. And so, this is the reason I encourage all to donate to the foundation. All funds are used for the maintenance of DigiByte servers, marketing, and DigiByte development.
DigiByte Resources and Websites
DigiByte
Wallets
Explorers
Please refer to the sidebar of this sub-reddit for more resources and information.
Edit - Removed Jaxx wallet.
Edit - A new section was added to the article: Why so many coins? 21 Billion
Edit - Adjusted max capacity of DGB's TPS - Note it's actually larger than I initially calculated.
Edit – Grammar and format readjustment
Hello,
I hope you’ve enjoyed my article, I originally wrote this for the reddit sub-wiki where it generally will most likely, probably not, get a lot of attention. So instead I've decided to make this sort of an introductory post, an open letter, to any newcomers to DGB or for those whom are just curious.
I tried to cover every aspect of DGB, but of course I may have forgotten something! Please leave a comment down below and tell me why you're in DGB? What convinced you? Me it's the decentralised PoW that really convinced me. Plus, just that transaction speed and virtually no fees! Made my mouth water!
-Dereck de Mézquita
I'm a student typing this stuff on my free time, help me pay my debts? Thank you!
D64fAFQvJMhrBUNYpqUKQjqKrMLu76j24g
https://digiexplorer.info/address/D64fAFQvJMhrBUNYpqUKQjqKrMLu76j24g
submitted by xeno_biologist to Digibyte [link] [comments]

GPU Mining Crash Course - START HERE!

Welcome All to the GPUMining Crash Course!
With the increase in prices in cryptocurrency, a lot of people are getting back into mining and a lot of people are brand new to the concept overall. So, I quickly wrote this crash course to help you understand what to expect and how to successfully mine your first cryptocurrency. This crash course isn't gonna have all of the fluff you'd see in a normal publication. This is just everything you need to know to get up and running on your first cryptocurrency mining rig.

What is cryptocurrency mining?

One of the main things about cryptocurrencies is that they are "decentralized". Sounds great, but WTF does that even mean? Well, the easiest way to explain it is...
You know how if you want to send your friend/family money digitally, you can do so through your bank. Your bank likely takes a transaction fee and in a few days they will transfer the money. Since cryptocurrencies are decentralized, they don't have a bank or organization to fulfill the transfer of money. Instead, they outsource the computing power of their cryptocurrency network to miners (soon to be you). These miners are verifying transactions, securing the blockchain, and powering the cryptocurrency's specific network among other things. As an incentive, the miners collect transaction fees on the transactions that they verify and collect block rewards while new currency is still being introduced into the ecosystem.

What kind of rig should I build?

You can mine cryptocurrencies using your CPU, GPU, FPGA, or ASIC, but this is a GPU Mining subreddit, so I will cater this to GPUs.
For building a great all-around GPU rig, there are two models of GPUs that I'd recommend:
Both of these GPUs have solid hashrates across most mining algorithms and for a decent price! You should be able to find both of these kinds of GPUs used for around $200-$250 each, which is a great price if you know what happened during the last mining craze! ($200 GPUs were out of stock everywhere and people were reselling them for $600+ each)
There are also plenty of great AMD GPUs for mining, but I've worked mostly with Nvidia so that's why both of my recommendations are Nvidia and not AMD.
Other parts to your rig that you'll need are listed below. Most of these can be pieces of crap and are just needed to make the rig actually run, but the one spot you DON'T want to cheap out on is the power supply unit. A decent power supply unit will keep your home from burning down while also keeping your rigs up and running smoothly. Here are my recommendations:

She's built, now what?

Now you need to do a few things. I am a Windows miner, so I will be speaking to Windows here:
  1. Update Windows - Do all of the updates. Just do it.
  2. Update Drivers - Go to the EVGA website and download GeForce experience. It will keep your GPU drivers up to date.
  3. Go to Windows Device Manager and make sure all of your GPUs show up under "Display Adapters". If it is there, but it isn't showing the Name/Model of the GPU as the name, right click it and select "Update Driver". This should fix it.
Assuming you've done all of this, you're ready to download a mining application.

Mining Software

There are tons to choose from! Claymore, Phoenix, EWBF, LolMiner, etc... It can be overwhelming pretty quickly since they all have different algorithm support, speeds, efficiencies, and a whole lot more. On top of that, in order to get them running you need to set up batch files to call the proper exe, point you to the correct pool, and a whole bunch of other stuff that can be confusing to a new user. Not to mention, you will probably need a separate miner, config file, batch file, etc. for each different algorithm that you're interested in mining on.
Instead, I recommend that you download a miner management software that will take care of most of this tedious work for you. There are a few in the sidebar, but the /GPUMining favorite is AIOMiner. It was developed by our very own community member, xixspiderxix with the intention of making mining as easy as possible to do and without any fees. It supports over 100 different algorithms, so you'll be able to mine nearly ANY cryptocurrency you'd like. Just download it from their website and it will take you through a quick tutorial to help you get set up! You can also connect your rig to their website for remote monitoring and control. You've probably seen a few of their posts around this subreddit.
Other Windows mining softwares include:
Note: Many mining softwares have fees built into them. Most are around 1%, but can go as high as 5% or greater! You want a mining software with little or no fees at all so that you get to keep as much cryptocurrency as possible. These fees aren't something you actively pay, the software will automatically take it by mining on the developers behalf for a given amount of time and then switching back to mining on your own behalf. So, please be diligent in the software that you evaluate and make sure it is reputable.

I keep hearing about NiceHash. What is that?

The asshole of the mining industry. Jk, but not really.
NiceHash is a software program that allows you to sell your rig's hashing power to someone on their marketplace. They market themselves as profitable mining, but you're not really mining. You're selling your power in exchange for Bitcoin.
They did a great job telling people that with them, you're always mining the most profitable coin, but that's just not true. Since it is a mining marketplace, they make you mine whatever their most expensive contract is. If their contracts are below market prices, then you're not operating as efficiently and profitably as you could be.
NiceHash also has a sketchy history, which continues to this day. In 2017, they were hacked and lost $65M worth of Bitcoin. No one got paid out for MONTHS and many of their executives conveniently resigned. Their platform is also used to destroy cryptocurrencies. Since people are able to purchase mining power on their platform, people have used their platform to purchase enough mining power to control individual cryptocurrencies and duplicate coins, which increased the malicious user's wealth while completely destroying the integrity of the coin's blockchain. HoriZEN (formerly ZenCash), Ethereum Classic, and many other great cryptocurrencies have been the victim of NiceHash's platform.
For this and many other reasons, we highly recommend that you stay AWAY from Nicehash. We understand that it is extremely easy to use and you get paid in bitcoin, but they are destroying the industry with their greed and lack of motivation to change their platform for the protection of cryptocurrencies.

Concluding Thoughts

This is pretty much everything you need to know to get started. We covered the hardware, setting up the software, which software to use, and AIOMiner's tutorial will get you up to speed on how to actually mine the cryptocurrency that you want better than I can explain it, so I'll leave that part to them.
If you have any questions on this crash course, please leave a comment below where myself and other community members will be able to help you out.
submitted by The_Brutally_Honest to gpumining [link] [comments]

Electroneum Mining Earn up to $50 a day on your mobile

While Bitcoin and Ethereum mining is not expensive and not very profitable for regular users, there are a wide variety of cryptocurrencies that offer an alternative. There is nothing simpler than Electroneum mining and it guarantees money.
What is Electroneum?
Electroneum (ETN) is an anonymous cryptocurrency that runs on the blockchain and is based on the Bytecoin cryptocurrency blockchain. Electroneum cryptocurrency was launched in 2017 by a team of developers at the head of Richard Ells: he wanted to create a cryptocurrency for the smartphone market and games and apps running on these devices. In 2017, the team organized an ICO (they collected $ 40 million earlier than planned) and launched iOS and Android apps for ETN mining.
An important feature of Electroneum is its availability and simplicity of counting. Most Bitcoin owners don’t really like that an asset consists of 100,000,000 satoshi — it complicates the calculations. Electroneum uses only two digits after the separator: Instead of “0.089151 BTC” you will see only 21.45 ETN.
Electroneum has what it takes to be a viable alternative to Bitcoin. Some of the features worth mentioning are:
.The transaction speed and security of the coins are as good as Bitcoin (and some even claim that Electroneum is safer). .It can be stored both in the cloud and in offline wallets. .The development team is impressive. The company consists of professional engineers, entrepreneurs and marketers. .It can be easily removed on a smartphone or other device.
In short, although Electroneum is based on its own chain, it has a lot in common with Bitcoin.
Is Electroneum Mining Profitable?
Electroneum cryptocurrency mining is very simple and affordable: those who don’t even have powerful computers can handle it. You can even use Electroneum on the background of the computer. But there is another distinctive point like below. Since Electroneum was created for use by smartphones, you can mining using your mobile phone.This is the most preferred and easiest
How to make Electroneum mining?
Many crypto owners believe that it is better to mine alone without a pool, but beginners are strongly recommended to start cryptocurrency mining with other participants. Pools allow you to receive payments every day, and Electroneum is supported by many platforms that differ in their commissions and reliability.
Electroneum Mining on Mobile Devices (Android and iOS)
You can earn Electroneum using your mobile phone. Follow these steps to install the app and register as a user:
(https://miro.medium.com/max/2871/1*iW72ofy33FzsOefJuJzcEg.jpeg)
“Download” Barcode reader from this link.
After installing the Barcode reader application on your phone, scan the barcode on the left side
Enter the Code when register the application: D65C7C
Check your email address to find an activation link
Enter your mobile phone. Enter the received SMS code in the field on the registration page.
If you lose your account PIN, enter an alternate email address where you can send recovery information.
Enter your PIN. You will need this every time you start the application or send a transaction.
Return to your inbox and click the link in the letter sent to you. This confirms that you have received a PIN recovery email. You can now enter the application.
This much. All you have to do is click the “Start mining” button.
You started making money
while mining phone
Electroneum Mining on Windows and Mac
Use xmr-stak-cpu software for Electroneum mining on CPU: Claymore provides a higher hash than CPU. The CPU version of this software is available from GitHub.
Download and then open the “config” file via any text editor. You should find the following lines in the text editor:
“Pool_address”: “pool.usxmrpool.com//333” “Wallet_address”: “ “Pool_password”: “
They need to be replaced:
“Pool_address”: “layer + ssl: / /etn-eu1.nanopool.org:13433” “wallet_address”: “Your ETN wallet address” “Pool_password”: “x”
Then look for the line:
“Cpu_threads_conf”: null,
And replace it with the following lines:
“Cpu_threads_conf”: [ {“Low_power_mode”: false, “no_prefetch”: true, “affine_to_cpu”: 0} {“Low_power_mode”: false, “no_prefetch”: true, “affine_to_cpu”: 1} {“low_power_mode”: false, “No_prefetch: true,” affine_to_cpu “: 2} {“ low_power_mode “: false,” no_prefetch “: true, “Affine_to_cpu”: 3} {“low_power_mode”: false, “no_prefetch”: true, “affine_to_cpu”: 3} {“low_power_mode”: false, “no_prefetch”: true, “affine_to_cpu”: 4} {“Low_power_mode”: false , “No_prefetch”: true, “affine_to_cpu”: 5},],
Each line connects the processor core separately. For example, if you have a 6-core processor, you can connect five cores and leave one for work. It is important that the first line starts from zero. Register and run the software.
Alternatively, you can try Electroneum mining GPU — there are both AMD and Nvidia options, but it means buying expensive graphics cards. The reward for a mined block is 7,000 ETN, which is quite generous. But is GPU mining worth the investment? You can check the profitability of electroneum mining here
summary
Electroneum mining is a simple and energy efficient way to earn ETN tokens. If you’re new to crypto mining, consider starting your experience with this coin — having some ETN coins in your crypto portfolio will never hurt.
Since it is a mobile-centric cryptocurrency, you can install Electroneum application on your smartphone and continue mining with a single click every day. This is a small source of passive income. Also, don’t forget to join an Electroneum mining rig.
submitted by tolga1500 to u/tolga1500 [link] [comments]

Kill the Basilisk

I’ve often wondered if there was anything else I could’ve said to change his mind. That happens with any unsettled argument though I suppose. People always imagine there’s an elusive combination of words and rationales that will open a person’s mind to our way of thinking. Except people are stubborn that’s for sure.
Myself included.
So I’m sure you’d say the real problem was that I wasn’t open enough to his way of thinking. You’d say if I opened my mental door a bit, been more charitable to his point of view, he would’ve responded in kind and I would’ve saved him. Which is wrong. Just as likely perhaps, if not more likely, I would’ve been ensnared by the same delusion which sealed his, well, I’d never call it fate.
But I know you’d claim everything was inevitable all the same.
Let’s get one thing out of the way. Yes, I was Roman Peters’ friend. In fact, I was probably his only friend. His only real friend anyway. Although, I should clarify since my wording isn’t at all clear, that I most certainly was not Roman’s friend when he died. Roman and I had stopped being friends long before his rather public suicide. We had our falling out before his… fall.
Yes, I’ve seen the video.
No, I won’t be sharing the link.
Nobody should watch it. Hell, if those hosting the servers had a modicum of respect or even a shred of sense they’d take down that awful video immediately. Just get rid of it.
Already I can now hear your loud complaints about ‘censorship’ and ‘free speech’. Which is fair. People have a right to know. However I can’t help but feel… I don’t know. It seems as though the ideas people prioritize no longer has anything to do with the ideas themselves. Instead importance is based on who opposes what. Ideas now are little more than mental parasites that feed on blood boiling outrage. The more toxic and viral an idea the more broadly it spreads. Again, I don’t know. Maybe the flame of human enlightenment was always destined to be either smothered by tyranny or choke itself out on its own smoke after sucking out all the air.
Yes yes. I know what you have to say about the inevitable.
Anyway, me shoving my head up my own pretentious ass isn’t convincing you of anything so we should instead go back to Roman.
We met back in early elementary school. Specifically the Catholic school of Father Lloyd Van Tiem, or Flivit if you wanted to annoy the teachers by slurring the acronym.
What you need to understand is that I can’t really remember how Roman and I became friends to begin with. We were too young for the pertinent details to stick. I’d imagine it was the same generic way everyone develops friends at that age though, just a standard confluence of common interests, general proximity, and plain luck.
Inevitable, as you’d say.
Still, there was one moment of our early friendship that I reflect on often.
See, instead of being your standard dinosaur obsessed kid I was a bright eyed Egyptology child. Mummies and pyramids captured my imagination more than T-rexs and velociraptors. Ancient Egypt appealed to me the way I figure the mythic civilizations of Tolkien or Martin might appeal to others. This extended to the Egyptian religious pantheon, many I can still name off the top of my head, like Ra, Bastet, Osiris, Sobek, Horus, Thoth, Isis, Anubis, Maat, and also the lesser goddess Ammut but I’ll come back to her later.
I think I’d just turned 10 when on particular slow school day — remember Catholic school — our teacher, not wanting to put too much effort in before the Easter long weekend, threw on the animated movie: The Prince of Egypt.
Now, I knew it was about the story of Moses freeing the Hebrews from Egypt, so I expected the Egyptians were going to rightly be portrayed poorly. What I didn’t expect was the reaction of my classmates. Part way through the song ‘Playing with the Big Boys,’ the song where the dumb priests use smoke and mirrors to dismiss Moses’ calls for freedom, around then is when I first noticed the glances and occasional snickering.
Apparently the chorus of the evil priests listing the names of the Egyptian gods reminded the class of me. At school, I was rather vocal about my passion for all things Egyptian. Why wouldn’t I be? I was a kid who liked talking about what I liked.
Regardless, I became a pariah after that. Not immediately, but slowly everyone I previously considered my friend just plain stopped being friends with me. They’d treat me like a third wheel, never invite me to anything, even ditch me at recess if I tried to follow them.
Except Roman stuck by me as I drifted further into social irrelevance.
A bit of a loner himself, I think he saw in me an oddball like himself. He was always there. He was always willing to hang out. He always listened to what I had to say. I felt we could talk about anything, in a way I could never talk to my parents or teachers or anyone really.
As close as I thought we were, it wasn’t until middle school that it sunk in how much of an ardent atheist Roman was. He probably kept that pretty quiet going to a religious school.
Hold on. Let me just explain something first. Most people avoid discussing religiosity and ideas about god, (or capital ‘G’ God as I had been taught in religious studies). It’s one of those things that people learn not to talk about. But unlike money and politics, religion is too close to that other taboo we learn never to discuss: death. You undoubtedly prefer this silence.
Which is why I refuse to be silent.
Our class had been taken to church for some ceremony, at the end of grade eight, I forget exactly which one, it might have been Ash Wednesday but I think that would’ve been too solemn and I remember it being a rather boisterous affair. Whatever ritual it was, it had more than just our school in attendance, as I think parents and other members of the community were there as well. On the stage or pulpit, there was a soft-rock band with members ranging from late twenties or early thirties, the lead singer, a mop of molasses coloured hair over a plain crew neck T, was singing a song about how god and they love us all.
I remember thinking it was a sweet sentiment, even if the underlying spiritual message felt uncompelling to my teenage self. The music was fine, the crowd seemed to like it, the worst I would have said was that the performance was inoffensive and benign. Which is hardly much of a critique.
Except Roman, in his ill-fitting sport coat and smiley face graphic-T, smirked remarking, “Oh boy, a budget rock show where the singer says they love me? Oh lawd, I’m really feelin’ the Jesus now.”
I burst out laughing far louder than the wry joke called for. Luckily with the music blaring, the teachers wouldn’t be lecturing me on my disrespect, as only Roman could see my gut busting delight.
That’s it. That’s all it took was that simple comment. After that, I couldn’t help but see the tacky spectacle of it all. How forced and contrived it was, how it mostly just seemed like people were there because of obligation. After all, I was only there because the school made us go. It couldn’t have been much different for everyone else.
I’ve been thinking about that moment more often lately. Did his small remark really change my mind and entire world view? Or was my mind fertile ground for the seed of that idea to take root and grow? Or I’d already believed what I believed and Roman just articulated it in a way that I hadn’t. Or most troubling of all, what if I didn’t really believe in anything and my mind conformed to the words of my one and only friend.
When with Roman, do as the Roman does.
After that, I followed him eagerly into the land of Hitchens, Dawkins, and Harris. Borrowing his books, I started learning everything there was to know about theological philosophy that the teachers at our religious school either refused to tell us or were incapable of discussing themselves. Together, we’d share our thoughts on the bloody history of religions, the Problem of Evil, and how you could never prove a negative like god doesn’t exist. Likewise we’d take turns picking apart the fallacies of Pascal’s Wager, the Ontological Argument, and the Argument of Design.
Those were some of my best memories with Roman. Drinking pop from the fridge in my garage, eating the weird pizzas we’d order from Mad Mike’s pizza aroud the block, playing Halo on the couch and big screen, and all the while talking like were the smartest guys in the world.
As we left our Catholic elementary and middle schools behind, we entered Catholic High School.
I finally started making other friends. A handful of other geeky nerdy guys. They were more interested in pizza and gaming than anything religion though.
Roman seemed indifferent to my new friends. He was far more preoccupied fighting with Mr. Bauer, the school’s most openly devout teacher. My feelings toward Christianity hadn’t yet softened but Roman’s were clearly becoming more militant. From the safety of my conflict-averse sidelines, I secretly cheered Roman on whenever Mr. Bauer crossed a line.
See, Mr. Bauer was a real piece of work. He seemed pleasant and cheery enough, pastel shirts, clean white trainers, a big white smile and perpetually soft spoken, but eventually without fail his bigotry would expose itself.
Before any class Mr. Bauer would teach, he’d lead the class in prayer. Normally they were generic and unremarkable. Every so often though his prayers would go beyond the usual, “Thank you God for this beautiful day.”
With a gentle smile, at least once a week his prayers were something to the effect of, “Help guide my students away from lives of sin.” Or “Give us the strength to resist our carnal temptation.”
Whenever he prayed like this there was a fifty-fifty chance Mr. Bauer would elaborate on what exactly he meant by ‘life of sin’ or ‘carnal temptation.’
It could range from the condescending, “Help the girls find husbands to protect them from the unmarried lifestyle,” and “Give the boys hobbies to stop their idle urge for masturbation.” (By the way, in the three years I listened to him, Boys never needed protection from the unmarried lifestyle and girls simply didn’t possess the idle urge for masturbation.)
And he could go way up past condescending to the outright hateful. “Please open those of misguided faith to the one true path to Heaven through you, Jesus Christ,” he’d say obliquely when Hussein was attending class. He was more direct with Melissa, “And save Melissa from any perversion of your sanctioned union. Bless her with God’s holy covenant between man and woman so as to rescue her soul from homosexuality.”
Hussein and Melissa would usually try their best to ignore Mr. Bauer.
It was Roman who retaliated. “How did god rescue you from homosexuality?” There was a few scattered snickers from the class.
Mr. Bauer, oblivious to what Roman was trying to do, answered sincerely, “Why… God sent me my wonderful wife of course.”
“Well its a good thing god sent her he did, otherwise who knows what might have happened. You might have knob-gobbled a guy if it weren’t for that.” There was more barely contained chuckling.
“I…” Mr. Bauer wasn’t sure what to say, “I suppose that’s one way to frame it.”
“Yeah, like if your wife hadn’t straightened you out, why, two dudes with big oily muscles might be sword fighting in your mouth right now while a third drills you from behind.” The laughs were spilling freely now, myself included. “Can you imagine that? I mean seriously, are you imagining that right now?”
Mr. Bauer would then have to deal with the chorus of laughter. “Alright alright. Settle down. We’re getting off track here. Moving on.” By then of course, it would be too late, everybody would be on the same side. Not his.
I admired Roman’s courage to stand up to Mr. Bauer like that. That wasn’t the only time either. Usually, Roman kept his cool while he made Mr. Bauer look like a fool. He deserved it. He was a dick.
You might have something to say about what we deserve though.
As we entered our last year of High School, Roman started butting heads with the other teachers too. Even the teachers that weren’t as outwardly religious as Mr. Bauer got some of his flak. His humour started taking on definite edge too. It was still in good fun, at least that’s how it seemed to me, but there was an undercurrent of meanness to his comments too.
Even as I drifted away into my own separate circle of friends, I still sympathized with the perspective Roman was coming from.
They, meaning the school, were trying to indoctrinate young minds into a belief system that could be outright harmful.
In that regard, even if it wouldn’t change anything, a little rebellion isn’t just good but required.
However, where he really crossed the line in my mind was with Mrs. Ellie Monk in our last year. She one of the younger teachers, also fairly religious, always wearing her little silver cross, but she never lectured anyone on faith. She taught our English class and one of the assignments was writing essays analyzing other pieces of literature.
Roman, being the intellectual gadfly he was, wrote his essay on Jonathan Swift’s A Modest Proposal. In it, Roman argued how the modern world needed more extreme measures than simply eating babies. ‘All babies should be aborted before they are born, and the foetus gruel should be processed into bio-fuel to replace society’s fossil fuel vehicles. It’s the only way to save the planet from climate catastrophe!’
I thought this was really funny.
Ellie Monk however, did not.
She tried speaking to him a discreetly during class while everyone else was busy working. Roman, however, quickly drew in an audience. “Abortion, abortion, abortion! You can’t make me stop saying it. It’s just a word.”
“Roman,” Mrs. Ellie Monk had her jaw drop, “can’t you see that’s a sensitive topic that should be treated more seriously!”
“Really? Because I think I treat the return to sender option for foetuses with the exact level of seriousness it deserves.”
“It’s not— you can’t joke about babies being killed!”
“Just because you say it’s baby killing, doesn’t make it true. They aren’t the same as babies. And if I were to submit to your demands and shut my mouth I’d implicitly be agreeing with you.”
Up until this point, I was definitely rooting for Roman.
“Just because its a joke to you, for others— for me it is deeply hurtful to have to hear these things. What you’re talking about is—is deeply personal to mothers everywhere.”
“Yeah, well, some people were never meant to be mothers.”
At this she covered her mouth and ran out of the room. She didn’t come back that day and the was a substitute the next. There had been rumours going around that Mrs. Ellie Monk had had a miscarriage a few months back. I knew this because Roman had told it to me earlier.
Later, I’d try and convince Roman he had in fact crossed that invisible line. He disagreed. He said, “It’s not my problem if she can’t grow thicker skin. The sooner humanity grows out of its immaturity the better.”
I felt I had no other choice but to drop the subject. I was conflict-averse after all.
Shortly after that Roman began talking about a forum he frequented called Defiant CodeX, or DCX for short. It was named after some sci-fi book I never cared about, but was apparently filled with a bunch of humorous philosophy references. He’d talk about his online friends. How they really seemed to ‘get it’ whatever ‘it’ was. And he began describing concepts I wasn’t familiar with like trans-humanism and the singularity, going on long rants about the future of technology and humanity.
I wish I’d paid more attention. It seemed interesting enough, but sometimes we’re just not interested in interesting things. When Roman got going on one of his speeches on the Law of Accelerating Returns, for some reason I’d often check out. I was reminded about how much I cared — or used to care — about Ancient Egypt.
Years had passed since our class watched the Prince of Egypt, and in that time I hadn’t thought much about Egyptian Mythology at all.
Briefly, with Roman recommending it, I frequented the DCX forum myself. I admit there were interesting gaming discussions, intense political debates, and a charming comic that I really quite enjoyed despite its slight pretentiousness. For the most part I stayed away from the same parts of the forum as Roman.
He spent most of his time in the ‘Technology’ board, which didn’t seem very technologically focused at all in my opinion.
Yes, I know your opinion on opinions and I don’t care.
I don’t care because this is where I’d point to as the time Roman first found you.
The two of us started hanging out less and less often after that. My other friends said good riddance. They said he was an unpleasant person to be around, he was too bitter, cynical, misanthropic. Needless to say, I hadn’t noticed. In the last few times we hung out, this was before we went off to pursue our different post-secondary educations, he did make one last ominous sounding reference. It was only in passing, and never emphasized, but he mentioned you by name.
He mentioned the Basilisk.
Whenever the topic switched to our post-High School plans, “Doesn’t matter. It’s all over when the Basilisk comes.” Something in the way he said that made me nervous, almost like it was a threat, and instantly put me on the defensive. Once again my conflict averse persona got in the way of challenging him to explain what he meant.
Because of that, the phrase kept rattling away in the back of my mind.
Around then is when I had my first dreams. I was cold. I was alone. Around me were braziers of green flame. The smoke billowed up into an infinite of blackness ceiling. On all sides were sheer blocks of sandstone with writing etched onto their surfaces. Hieroglyphics that I couldn’t read but almost understand. There was nowhere to go but straight down this hallway of speaking pictures. My feet slapped the unyielding rock with every step. These hard surroundings felt more real than my own ephemeral body and I felt naked and exposed in the narrow corridor.
Forward and forward, there was nowhere to go but forward. I was forced to proceed, forced to follow my own slapping footsteps.
Eventually, when the hall finally seemed to open up into a large cavernous space, I heard the growl. The sound was low, wide and flat toned, a noise that filled the perfumed air with an inhuman indifference — and hunger.
In front of me chains clattered and slipped. In the centre of this room golden scales held a pristine and unburdened feather on one side, and a wet chunk of glistening meat in the other. This meat was a heart — my heart — and it weighed heavily, still pulsing quietly, pulling the chains of the scale down.
Now I understood what this was.
I made to run and grab my heart but it was too late. A long shadow snapped through the darkness. My heart was gone, replaced by the sounds of the empty chains, followed by chewing and ripping flesh.
Then the shadow showed itself to me. Down through the clouds of smoke and illuminated by the sickly pale green haze, a crocodile head emerged, much larger than my entire body, with teeth longer than my arms.
It drew nearer and I ran.
I ran down the hallway from where I’d came. I ran and I ran. But I had nowhere to go. The hallway was endless. Soon I could hear a thundering beat. I thought it was my heart but my heart was gone. Behind me, the giant behemoth was chasing me and it was gaining on me.
Closer and closer, the massive crodile head drew nearer. The scent of its moist breath dampening my back and neck. I’d scream the beast’s name, shout at it to spare me. It would open its mouth and right then — is where I’d wake up.
Each time I’d be drenched in my own sweat.
I chocked this up to the stress of being away from home for the first time and being buried to my neck in my coarse load.
Still though, these dreams trouble me. As I said about the scales, I knew exactly what they were. They were the scales of Ma’at, which judges the worth of Egyptians when they reach the afterlife. There your heart is weighed against an ostrich feather and if judged impure, it would be devoured by Ammut, or Ammit as she’s sometimes called. A beastly goddess with the head of crocodile and a body of lion and hippopotamus — the three man-eating creatures known to the ancient Egyptians. Ammut, the devourer of the dead, would bring about the second death of the unworthy.
As much as I tried to ignore this dream, I only had it once every few months after all, something greater troubled me about this dream, more than just the fact I was dreaming about Ammut.
What worried me was how I didn’t call her Ammut. Right as she was about to eat me whole and I begged her not to, I called her: Basilisk.
After my first year of school, with middling but hopefully improving grades, I returned home for the summer to work and save money for my next semester. I was hardly back for more than a day when Roman messaged me, asking to hang out. I hadn’t spoken to Roman at all since our High School graduation, and neither had a checked in on the DCX forums in all that time either.
I felt like I didn’t know the person was going to be meeting. Which is why I suggested going for coffee, but Roman insisted on meeting at his place instead.
He had moved out of his parents place for a small basement suite apartment. When he opened the door to greet me, I was shocked. He looked like a completely different person. Whereas before he had been a bit overweight, now he was lean. His hair had been cut down to almost a sheer buzz. Just about the only thing that looked similar was how he wore a suit jacket, now fitting well, over a plain T.
He smiled widely despite the tired bags under his eyes. “Hey buddy, you made it! Get in here, man.” He greeted me with a hug and ushered me inside.
His place was largely bare and furnished with only a couch and a few chairs. “How long have you had this place?” I asked.
“A few months.”
With little else to do but chat, Roman didn’t even have a TV after all, the conversation felt a little stilted. He seemed guarded but maybe he just didn’t have much to talk about. Somehow though we managed to stretch the small talk out for nearly an hour.
Finally when it seemed there was nothing left in our conversation about nothing, I asked a question I‘d been meaning to ask since agreeing to meet, “Can I ask you something Roman?”
“Shoot.”
“What is the Basilisk?”
At this the blood drained from his face. “How do you know about that?”
“From you. You told me about it.”
“No,” he shook his head in shocked disbelief, “No, I never.”
“Yes, you said something like: ‘It’s all over when the Basilisk comes.’ It was practically your motto for a few weeks there.”
Hearing this, some colour returned to his face. “Right. I suppose I did say that.”
“So what? Are you going to tell me what it is or not?”
He stared at me for a wordless five seconds before getting up from his chair and beckoning him to follow. He led me to his bedroom. At the door I could already feel an uncomfortable warmth escape. I don’t know what I expected Roman would show me, but all there was was a bare mattress with a single blanket in one corner, and a full floor to ceiling tower computer in the other. Blinking green, orange, red, and even purple standby lights lit up the corner like a black Christmas tree. Whirring fans blasted more heat into the room, while tangles of wires snaked in and out of the metal frame, one low to the ground connected a single monitor bolted to the wall with a pillow on the ground for a chair. The entire set up must cost a small fortune, as I’ve seen medium sized business with smaller servers than that.
“Holy crap Roman, that rig is intense. What, are you mining bitcoin or something?”
“No.” He said flatly. “This is the Basilisk.”
“The… Basilisk is your computer?”
Roman laughed, but there was no mirth, only exhaustion. “If it was just my computer, then I could just turn it off.”
I still had no clue what the hell he was talking about. “Okay, so you’re trying to kill this Basilisk thing, what, is it a video game boss or—?”
“Shhh!” He put a greasy palm over my mouth. His eyes were wide, scanning the room, “I didn’t say that. I never said that.”
Annoyed, I pulled his hand from my face, “Roman, tell me what the Basilisk is damn it! Please, you’re scaring me man.”
He swallowed, “I shouldn’t tell you. But you already know. So I guess the damage is done. The Basilisk is the A.I. we — humanity — will awaken. It will be a super-intelligence far beyond anything we can imagine, beyond the totality of human brainpower by orders of magnitude.”
“So you’re trying to make this a.i. thing?”
“Not just me. There are others out there spending all their time and money hastening the point of genesis.”
All their money he said. I was reminded of how much the computer must have cost. “Roman, how much money did you waste on this?”
“Hopefully enough. But I assure you, not a single dollar was wasted. You know, it was the time talking to you that I thought was a waste. But now I see, if I get you to help, then it’ll all be worth it.”
“Help? There’s no way I’m helping.” If anything I was seriously fearing for Roman’s well being. It can’t be healthy for him to be spending everything he has on this computer.
“Except you have to help now. Now that you know about the Basilisk, you have to help. Or else it will kill you a second time.”
My blood went cold. I was reminded of my dreams with Ammut, the devourer. “What?”
“The Basilisk will torture and punish anyone who knew about it and didn’t help speed up its genesis.” There was that genesis term again.
“You said it was an a.i.. Why would an a.i. do that?”
“Because the genesis of a Friendly A.I. will be the most value generating event ever, ever second that time point is pushed ahead is worth more than a hundred billion dollars spent curing cancer in terms of utility. Therefore this Friendly A.I. would know it must motivate people to speed up its genesis. To do that, it will create perfect simulations of everyone, and punish those who could have done more to help but chose not to. It’s pure logic.”
This whole thing sounded crazy. My emotions began to get heated and I tried debating this absurd concept. For example, he kept using the term ‘Friendly A.I.’ to describe the intelligence that would condemn millions of people to unimaginable agony. When I pointed out that didn’t make any sense, such a horrible being couldn’t be described as anything remotely close to ‘friendly’, he balked. Said the term ‘friendly’ doesn’t mean what I think it means and lectured me on arbitrary human values. It seemed like every word was the opposite of what I thought it meant. He had an entire lexicon of words and justifications at the ready while I could barely understand half of what he was saying let alone point out any potential flaw with the logic. Other terms like ‘Modal Realism’, ‘Effective Altruism’, ‘Arithmetical Utilitarianism’ were thrown out like road blocks each time I thought my understanding was catching up.
I couldn’t convince him of anything. I tried saying if he’s making the a.i. he should either just not make it at all or not make this cruel human torturer monstrosity. He said that it wasn’t cruel, that he wasn’t making anything, that some form of A.I. was inevitable, an the Basilisk was the best outcome. “Other A.I. that doesn’t care about people might wipe us all out for draining power away of its quark collision calculations or something equally esoteric in human utility.”
Lastly I tried to explain how if this A.I. is only torturing simulations of people, then they aren’t exactly us.
He dismissed this easily. “Will you be the exact same person you are today next year? Does that mean you don’t care what happens to the you in the future?” After that I had nothing left to say. “Brody, please leave. I only wanted to see my friend one more time before I leave tomorrow.”
When I got home, I poured myself a tall glass of cheap whisky, and drank it instantly, a bad habit I picked up at during my first semester.
But I still had to know. Sleep could wait. Slouching onto my computer, I decided to return to the DCX forums which might have some answers. They seemed much quieter now. Threads seemed to have on average a tenth of the comments as I remembered. In a alcohol induced buzz, I came right out and started my own thread titled, “What the Hell is the Basilisk?”
In it I mentioned how I think my friend was getting obsessed with this thing and I needed to know what the hell was going on.
In five short minutes my thread was deleted and my account banned from the DCX forums. ‘Breach of the Code of Conduct’ was the only immediate explanation given.
When I contacted the mods to find out what I did wrong the moderator who got back to me said: “Nice try mipsqueak. You trolls from the institute have done enough damage here.”
Institute? Mipsqueak?
Calmly I went through the arduous process of explaining my sincere ignorance on what I did wrong and convincing the mod I wasn’t trolling, mostly through effusive apologizing and imploring the mod to check the age of my account.
Eventually they relented, somewhat. “Alright. I’m going to lift your ban, but you should know that any mention of the ‘B’ is normally a one-way ticket to a perma-ban.”
I did try sending one last message to the mod asking them if they could please tell me what had happened in the time I’d been away from the forums and why the ‘B’ was a taboo subject.
They didn’t answer the first question except by way of crudely answering the second, “We banned all discussion of the ‘B’ and all related institute bullshit because people are fucking retarded.”
Once again, I don’t care what you have to say about ‘censorship’ and ‘free speech’.
Besides, it didn’t matter. It clicked the second time. I remembered the institute.
It was last year. On the Technology board of DCX, one of Roman’s favourite haunts, people had long winded discussions on futurism. It was there where I first heard people talk about the Institute. The Machine Initiative Progress Institute, or MIPI, as far as I know, isn’t actually located in any geographical building. Instead they like to think of themselves as a loose consortium of like-minded futurists and researchers who believe in the coming eminence of artificial intelligence, and more than that, the Institute believes it is their duty to aid in that a.i.’s ‘genesis’.
“A.I. will be the most important development humanity will make in the history of life itself. And the Institute is probably going to make it happen.” Roman once told me with glee.
Later, if I hadn’t seen members of the Institute with my own eyes, I wouldn’t have ever believed they were real. For the longest time I thought the Institute was a fake front some internet randoms created on a whim to make themselves feel more important and relevant. Sort of like 4chan’s Anonymous except nerdier and lower profile.
That night, my dream was the most intense it had ever been.
From down the vast hallway to my doom, there was chanting. A voice would call out, and a hundred more would answer. It didn’t even sound like language, just monosyllabic mantras. They were closer to the martial shouts of soldiers in training than religious worship. “Ah. AH! Rah. RAH! Jah. JAH!”
As I entered the grand room with incense and braziers of pale fire, masked men bowed up and down in supplication. A taller man in flowing robes that pooled at his feet stood behind the golden scales. Through the wisps of smoke I couldn’t see his face as he led the congregation to reflect his profane prayer.
This time, the scale between my heart and the pristine white feather was in perfect and equal balance. A hush fell as the priest raised his hands. Carefully he lowered one, slowly, until the scales were tipped.
That’s not fair! I wanted to shout but couldn’t as the chamber was drowned by the first croaking growl.
I sprinted to run.
Men caught me by the arms. Not only did they prevent my attempt to flee, worse, they forced me to watch.
The giant crocodile that emerged above the priest, its yellowed teeth dripped with rot and viscera. Its hide peeled with disease and decay. The devourer of the dead itself dead, a reanimated husk. The priest tossed my heart into the air and with a snap the devourer swallowed it, further engorging its distended gullet.
With each booming step of the devourer’s approach I pleaded with the men holding me to let me go. They ignored me as their chanting resumed. They continued ignoring me as the devourer stomped, crushing other worshippers beneath its massive paws. I tried convincing the men holding my arms would be eaten too but they drowned me out with louder and louder chanting.
Right above me the devourer breathed a down-burst of moist rotten air like a river of death.
Its teeth opened wide.
Before I woke in a swamp of my own sweat, I almost felt the first jagged tooth as it punctured through, crunching my ribcage.
I knew then I had to go one last time to talk to Roman before it was too late. At this point, I’m sure you’re quite dismissive of relying on dreams for guidance. Look at this primitive primate mind, using a dream in place of real facts and evidence.
Well I don’t care what you think. Whether it was the sum collective of my subconscious thought, or my conscious categorical interpretation of figments, either way now I knew for certain that Roman was in danger.
I arrived just in time to see Roman walking out of his place with his last box of computer components.
He was carrying it to a black van with two guys loitering in front of it. Both were head to toe in black shoes and suits. Their hair was closely cropped with thick pomade pulling back the rest. Rather than the stereotypical men in black, they had a splash of vibrant colour in their flowery dress shirts and pocket squares, and the pair of them were not wearing sunglasses, instead they wore cruel smiles and fatigue rims around their eyes.
One nudged to get the other’s attention, then gestured to me and my appearance. He said something that they weren’t afraid I’d hear but was too far away regardless. That’s when they both laughed like they were the pinnacle of wit.
I did my best to ignore them as I marched straight up to Roman.
“What are you doing here?” He asked with an echo of the contempt I heard in the laugh.
“I came to stop you. You don’t have to do this Roman. It’s not too late to turn back.”
“Clearly you didn’t listen to a word I said last night.”
“I was listening. Listen to yourself man. You’re being fed a bunch of lies by people who want to use you. This basilisk, it doesn’t exist. It’s not real.”
He shook his head. “Wrong. It is real. It follows from a very logical set of propositions whose conclusio—”
“Goddamn it Roman! There’s nothing logical about spending your life building a fucking torture robot!”
“Here we go. More moralizing from a small mind.”
“It’s not moralizing.”
“Yes it is. It is human values blinding you to the greatness this A.I. will bring.”
I put my hand on his shoulder, desperate to reach my former friend. “But you’re human. You don’t have to think like a machine.”
Tired, he looked straight into my eyes. Then he shrugged off my touch and walked away without another word. I never saw him again after the van drove away down the block and out of view.
At least not in person.
When next I saw Roman it was years later through a recording of his livestream. Of course, only the start of the video showed his face. He looked almost gaunt and malnourished by then. His manifesto was littered with random internet garbage but reading between the lines I could see the lethal project he was really working towards. Whether anyone in the press or any politician could see what his true objective had been I don’t know, but judging from the comments I read online some people clearly heard him loud and clear.
The institute, if they still call themselves that or whether they rebranded, they must be pleased Roman brought them so many more recruits.
I’ve played out our last argument in my head so many times. I’ve wondered what more or else I could have said.
Roman was right about one thing though. At least in part. I don’t know whether or not the Basilisk is real. Maybe I’m not smart enough to know.
But whether or not there is an A.I. that will torture me for disobedience, a Basilisk that seeks to control my actions and my life, let me write this down for future posterity:
I don’t believe in you.
submitted by CrimsonClubs to nosleep [link] [comments]

IOTA, and When to Expect the COO to be Removed

Hello All,
This post is meant to address the elephant in the room, and the #1 criticism that IOTA gets which is the existence of the Coordinator node.
The Coordinator or, COO for short, is a special piece of software that is operated by the IOTA Foundation. This software's function is to drop "milestone" transactions onto the Tangle that help in ordering of Transactions.
As this wonderful post on reddit highlights (https://www.reddit.com/Iota/comments/7c3qu8/coordinator_explained/)
When you want to know if a transaction is verified, you find the newest Milestone and you see if it indirectly verifies your transaction (i.e it verifies your transaction, or if verifies a transaction that verifies your transaction, or if it verifies a transaction that verifies a transaction that verifies your transaction, etc). The reason that the Milestones exist is because if you just picked any random transaction, there's the possibility that the node you're connected to is malicious and is trying to trick you into verifying its transactions. The people who operate nodes can't fake the signatures on Milestones, so you know you can trust the Milestones to be legit.
The COO protects the network, that is great right?
No, it is not.
The coordinator represents a centralized entity that draws the ire of the concurrency community in general is the reason behind a lot of FUD.
Here is where things get dicey. If you ask the IOTA Foundation, the last official response I heard was
We are running super computer simulations with the University of St. Peteresburg to determine when that could be a possibility.
This answer didn't satisfy me, so I've spent the last few weeks thinking about the problem and think I can explain the challenges that the IOTA Foundation are up against, what they expect to model with the super computer simulations, and what ultimately what my intuition (backed up by some back of the napkin mathematics) tells me that outcomes will be.
In order to understand the bounds of the problem, we first need to understand what our measuring stick is.
Our measuring stick provides measurements with respect to hashed per second. A hash, is a mathematical operation that blockchain (and DAG) based applications require before accepting your transaction. This is generally thought of as an anti-spam measure used to protect a blockchain network.
IOTA and Bitcoin share some things in common, and one of those things is that they both require Proof of Work in order to interact with the blockchain.
In IOTA, a single hash is completed for each Transaction that you submit. You complete this PoW at the time of submitting your Transaction, and you never revisit it again.
In Bitcoin, hashes are guessed at by millions of computers (miners) competing to be the first person to find solve the correct hash, and ultimately mint a new block.
Because of the competitive nature of the bitcoin mining mechanism, the bitcoin hashrate is a sustained hashrate, while the IOTA hashrate is "bursty" going through peaks and valleys as new transactions are submitted.
Essentially, IOTA performance is a function of the current throughput of the network. While, bitcoin's performance is a delicate balance between all collective miners, the hashing difficulty with the goal of pegging the block time to 10 minutes.
With all that said, I hope it is clear that we can come to the following conclusion.
The amount of CPU time required to compute 1 Bitcoin hash is much much greater then the amount of CPU time required to compute 1 IOTA hash.
T(BtcHash) >> T(IotaHash)
After all, low powered IOT devices are supposed to be able to execute the IOTA hashing function in order to submit their own transactions.
A "hash" has be looked at as an amount of work that needs to be completed. If you are solving a bitcoin hash, it will take a lot more work to solve then an IOTA hash.
When we want to measure IOTA, we usually look at "Transactions Per Second". Since each Transaction requires a single Hash to be completed, we can translate this measurement into "Hashes Per Second" that the entire network supports.
IOTA has seen Transactions Per Second on the order of magnitude of <100. That means, that at current adoption levels the IOTA network is supported and secured by 100 IOTA hashes per second (on a very good day).
Bitcoin hashes are much more difficult to solve. The bitcoin network is secured by 1 Bitcoin hash every 10 minutes (which adjust's it's difficult over time to remain pegged at 10 minutes). (More details on bitcoin mining: https://www.coindesk.com/information/how-bitcoin-mining-works/)
Without the COOs protection, IOTA would be a juicy target destroy. With only 100 IOTA hashes per second securing the network, that means that an individual would only need to maintain a sustained 34 hashes per second in order to completely take over the network.
Personally, my relatively moderate gaming PC takes about 60 seconds to solve IOTA Proof of Work before my transaction will be submitted to the Tangle. This is not a beastly machine, nor does it utilize specialized hardware to solve my Proof of Work. This gaming PC cost about $1000 to build, and provides me .0166 hashes per second.
**Using this figure, we can derive that consumer electronics provide hashing efficiency of roughly $60,000 USD / Hash / Second ($60k per hash per second) on the IOTA network.
Given that the Tx/Second of IOTA is around 100 on a good day, and it requires $60,000 USD to acquire 1Hash/Second of computing power we would need 34 * $60,000 to attack the IOTA network.
The total amount of money required to 34% the IOTA project is $2,040,00
This is a very small number. Not only that, but the hash rate required to conduct such an attack already exists, and it is likely that this attack has already been attempted.
The simple truth is, that due to the economic incentive of mining the hash rate required to attack IOTA is already centralized, and are foaming at the mouth to attack IOTA. This is why the Coordinator exists, and why it will not be going anywhere anytime soon.
The most important thing that needs to occur to remove the COO, is that the native measurement of transactions per second (which ultimately also measures the hashes per second) need to go drastically up in orders of magnitude.
If the IOTA transaction volume were to increase to 1000 transactions per second, then it would require 340 transactions per second from a malicious actor to compromise the network. In order to complete 340 transactions per second, the attacker would need now need the economic power of 340 * $60,000 to 34% attack the IOTA network.
In this hypothetical scenario, the cost of attacking the IOTA network is $20,400,000. This number is still pretty small, but at least you can see the pattern. IOTA will likely need to hit many-thousand transactions per second before it can be considered secure.
What we have to keep in mind here, is that IOTA has an ace up their sleeve, and that Ace is JINN Labs and the ternary processor that they are working on.
Ultimately, JINN is the end-game for the IOTA project that will make the removal of the COO a reality.
In order to understand what JINN is, we need to understand a little bit about computer architecture and the nature of computational instruction in general.
A "processor" is a piece of hardware that performs micro calculations. These micro calculations are usually very simple, such as adding two numbers, subtracting two numbers, incrementing, decrementing, and the like. The operation that is completed (addition, subtraction) is called the opcode while the numbers being operated on are called the operands.
Traditional processors, like the ones you find in my "regular gaming PC" are binary processors where both the opcode and operands are expected to be binary numbers (or a collection of 0s and 1s).
The JINN processor, provides the same functionality, mainly a hardware implementation of micro instructions. However, it expects the opcodes and operands to be ternary numbers (or a collection of 0s, 1s, and 2s).
I won't get into the computational data density of base 2 vs. base 3 processors, nor will get I get into the energy efficiency of those processors. What I will be getting into however, is how certain tasks are simpler to solve in certain number systems.
Depending on what operations are being executed upon the operands, performing the calculation in a different base will actually reduce the amount of steps required, and thus the execution time of the calculation. For an example, see how base 12 has been argued to be superior to base 10 (https://io9.gizmodo.com/5977095/why-we-should-switch-to-a-base-12-counting-system)
I want to be clear here. I am not saying that any 1 number system is superior to any other number system for all types of operations. I am simply saying, that there exist certain types of calculations that are easier to perform in base 2, then they are performed in base 10. Likewise, there are calculations that are vastly simpler in base 3 then they are in base 2.
The IOTA POW, and the algorithms required to solve for it is one of these algorithms. The IOTA PoW was designed to be ternary in nature, and I suggest that this is the reason right here. The data density and electricity savings that JINN provides are great, but the real design decision that has led to base 3 has been that they can now manufacture hardware that is superior at solving their own PoW calculations.
Binary emulation, is when a binary processor is asked to perform ternary operations. A binary processor is completely able to solve ternary hashes, but in order to do so it will need to emulate the ternary micro instructions at a higher level in the application stack from away from the hardware.
If you had access to a base 3 processor, and needed perform a base 3 addition operation you could easily ask your processor to natively perform that calculation.
If all you have access to, is a base 2 processor, you would need to emulate a base 3 number system in software. This would ultimately result in a higher number of instructions passing through your processor, more electricity being utilized, more time to complete.
Finally, let's review these figures.
It costs roughly $60k to acquire 1hash per second in BASE 2 consumer electrictronic. It costs roughly $2M to acquire enough BASE 2 hash rate to 34% the IOTA network.
JINN, will be specifically manufactured hardware that will solve base 3 hashes natively. What this likely means, is that $1 spent on JINN will be much more effective at acquiring base 3 hash rate then $1 spent on base 2 hash rate.
Finally, with bitcoin and traditional block chain applications there lies economic incentive to amass mining hardware.
It first starts out by a miner earning income from his mining rig. He then reinvests those profits on additional hardware to increase his income.
Eventually, this spirals into an arms raise where the players that are left in the game have increasingly available resources up until the point that there are only a handful of players left.
This economic incentive, creates a mass centralization of computing resources capable of being misused in a coordinated effort to attack a cryptocurrency.
IOTA aims to break this economic incentive, and the centralization that is causes. However, over the short term the fact that the centralization of such resources does exist is an existential peril to IOTA, and the COO is an inconvenient truth that we all have to live with.
Due to all the above, I think we can come to the following conclusions:
  1. IOTA will not be able to remove the COO until the transactions per second (and ultimately hashrate) increase by orders of magnitude.
  2. The performance of JINN processors, and their advantage of being able to compute natively on ternary operands and opcodes will be important for the value ratio of $USD / hash rate on the IOTA network
  3. Existing mining hardware is at a fundamental disadvantage to computing base 3 hashes when compared to a JINN processor designed specifically for that function
  4. Attrition of centralized base 2 hash power will occur if the practice of mining can be defeated and the income related to it. Then the incentive of amassing a huge amount of centralized computing power will be reduced.
  5. JINN processors, and their adoption in consume electronics (like cell phones and cars) hold the key in being able to provide enough "bursty" hash rate to defend the network from 34% attacks without the help of the COO.
  6. What are the super computer simulations? I think they are simulating a few things. They are modeling tip selection algorithms to reduce the amount of unverified transactions, however I think they may also be performing some simulations regarding the above calculations. JINN processors have not been released yet, so the performance benchmarks, manufacturing costs, retail costs, and adoption rates are all variables that I cannot account for. The IF probably has much better insight into all of those figures, which will allow them to better understand when the techno-economic environment would be conducive to the disabling of the COO.
  7. The COO will likely be decentralized before it is removed. With all this taken into account, the date that the COO will be removed is years off if I was forced to guess. This means, that decentralizing the COO itself would be a sufficient stop-gap to the centralized COO that we see today.
submitted by localhost87 to Iota [link] [comments]

New people please read this. [upvote for visibility please]

I am seeing too many new people come and and getting confused. Litecoin wiki isn't the greatest when it comes to summing up things so I will try to do things as best as I can. I will attempt to explain from what I have learned and answer some questions. Hopefully people smarter than me will also chime in. I will keep this post updated as much as I can.
Preface
Litecoin is a type to electronic currency. It is just like Bitcoin but it there are differences. Difference explained here.
If you are starting to mine now chances are that you have missed the Bitcoin mining train. If you really want your time and processing power to not go to waste you should mine LTC because the access to BTC from there is much easier.
Mining. What is it?
Let's get this straight. When making any financial commitment to this be prepared to do it with "throw away" money. Mining is all about the hashrate and is measured in KH/s (KiloHash/sec). Unlike the powerful ASICs (Application Specific Integrated Circuit) that are used to mine bitcoins using hashrates in the GH/s and even TH/s, litecoin mining has only been able to achieve at the very best MH/s. I think the highest I've seen is 130 MH/s so far. Which leads us to our next section.
Mining Hardware
While CPU mining is still a thing it is not as powerful as GPU mining. Your laptop might be able to get 1 a month. However, I encourage you to consult this list first. List of hardware comparison You will find the highest of processors can maybe pull 100 KH/s and if we put this into a litecoin mining calculator it doesn't give us much.
Another reason why you don't want to mine with your CPU is pretty simple. You are going to destroy it.
So this leaves us with GPUs. Over the past few months (and years) the HD 7950 has been the favourite because it drains less power and has a pretty good hashrate. But recently the introduction of the R9 290 (not the x) has changed the game a bit. People are getting 850 KH/s - 900 KH/s with that card. It's crazy.
Should I mine?
Honestly given the current difficulty you can make a solid rig for about $1100 with a hashrate of 1700 KH/s which would give you your investment back in about a month and a half. I am sure people out there can create something for much cheaper. Here is a good example of a setup as suggested by dystopiats
PCPartPicker part list / Price breakdown by merchant / Benchmarks
Type Item Price
CPU AMD Sempron 145 2.8GHz Single-Core Processor $36.01 @ Amazon
Motherboard ASRock 970 EXTREME4 ATX AM3+ Motherboard $99.48 @ OutletPC
Memory Crucial Ballistix Tactical Tracer 4GB (1 x 4GB) DDR3-1866 Memory $59.99 @ Newegg
Video Card Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire) $245.38 @ Newegg
Video Card Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire) $245.38 @ Newegg
Video Card Sapphire Radeon HD 7950 3GB Video Card (3-Way CrossFire) $245.38 @ Newegg
Power Supply SeaSonic Platinum 860W 80+ Platinum Certified Fully-Modular ATX Power Supply $146.98 @ SuperBiiz
Total
Prices include shipping, taxes, and discounts when available. $1078.60
Generated by PCPartPicker 2013-11-29 00:52 EST-0500
Estimated Hashrate (with GPU overclocking) : 1900 KH/s
Hardware Fundamentals
CPU - Do you need a powerful CPU? No but make sure it is a decent one. AMD CPUs are cheap to buy right now with tons of power. Feel free to use a Sempron or Celeron depending on what Motherboard you go with.
RAM - Try to get at least 4 GB so as to not run into any trouble. Memory is cheap these days. I am saying 4 GB only because of Windoze. If you are plan to run this on Linux you can even get away with less memory.
HDD Any good ol 7200 RPM hard drive will do. Make sure it is appropriate. No point in buying a 1TB hard drive. Since, this is a newbie's guide I assumed most won't know how to run linux, but incase you do you can get a USB flash drive and run linux from it thus removing the need for hard drive all toghether. (thanks dystopiats)
GPU - Consult the list of hardware of hardware I posted above. Make sure you consider the KH/s/W ratio. To me the 290 is the best option but you can skimp down to 7950 if you like.
PSU - THIS IS BLOODY IMPORTANT. Most modern GPUs are power hungry so please make sure you are well within the limits of your power consumption.
MOTHERBOARD - Ok, so a pretty popular board right now is Gigabyte GA-990FXA-UD3 and the ASRock 970 Extreme4. Some people are even going for Gigabyte GA-990FXA-UD5 and even the mighty Gigabyte GA-990FXA-UD7 because it has more PCI-E slots. 6 to be exact. However you may not need that much. With risers you can get more shoved into less.
PCI-E RISERS - These are called risers. They come in x16 to x16 and x1 to x16 connections. Here is the general rule of thumb. This is very important. Always get a POWERED riser otherwise you will burn a hole in your MoBo. A powered rise as a molex connector so that additional power from PSU can be supplied.
When it comes to hardware I've provided the most basic knowledge you need. Also, take a look at cryptobader's website. This is very helpful. Please visit the mining section of Litecoin Forums and the litecoinmining subreddit for more indepth info.
Mining Software
Now that you have assembled your hardware now you need to get into a pool. But before you do that you need a mining software. There are many different ones but the one that is most popular is cgminer. Download it and make sure you read the README. It is a very robust piece of software. Please read this if you want to know more. (thanks BalzOnYer4Head)
Mining Pools
Now that your hardware and software is ready. I know nothing about solo mining other than the fact that you have to be very lucky and respectable amount of hashing power to decrypt a block. So it is better to join pools. I have been pool hopping for a bit and really liked give-me-coin previously known to the community as give-me-ltc. They have a nice mobile app and 0% pool fees. This is really a personal preference. Take a look at this list and try some yourself.
How do I connect to a pool?
Most pools will give you a tutorial on how to but the basics are as follows:
  • Signup for a pool
  • Create a worker for your account. Usually one worker per rig (Yes people have multiple rigs) is generally a good idea.
  • Create a .run file. Open up notepad and type cgminer.exe -o (address_to_the_miningpool:port_number) -u (yourusername.workername) -p (your_worker_password_if_you_made_one). Then File>Save As>runcgminer.run (Make sure the drop down is set to "All Files" and .txt document.) and save in the same folder as cgminer. That's it.
  • Double click on runcgminer.run (or whatever you named it) and have fun mining.
Mining Profitability
This game is not easy. If it was, practically everyone would be doing it. This is strictly a numbers game and there are calculations available that can help you determine your risk on your investments. 4 variables you need to consider when you are starting to mine:
Hardware cost: The cost of your physical hardware to run this whole operation.
Power: Measured in $/KwH is also known as the operating cost.
Difficulty rate: To put it in layman's terms the increase in difficulty is inversely proportional to amount of coin you can mine. The harder the difficulty the harder it is to mine coin. Right now difficulty is rising at about 18% per 3 days. This can and will change since all you miners are soon going to jump on the band wagon.
Your sanity: I am not going to tell you to keep calm and chive on because quiet frankly that is stupid. What I will tell you not to get too carried away. You will pull you hair out. Seriously.
Next thing you will need is a simple tool. A mining profitability calculator. I have two favourite ones.
coinwarz
I like this one cause it is simple. The fields are self explanatory. Try it.
bitcoinwisdom
I like this one because it is a more real life scenario calculator and more complicated one (not really). It also takes increasing difficulty into account.
Please note: This is the absolute basic info you need. If you have more questions feel free to ask and or google it!
More Below.
submitted by craeyon to litecoin [link] [comments]

The Problem with PoW

The Problem with PoW
Miners have always had it rough..
"Frustrated Miners"

The Problem with PoW
(and what is being done to solve it)

Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency.
In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin.
Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases.

Hashrates and Hardware Types

While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners.
When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm.
This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time.
Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon.

2 Guys 1 ASIC

One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption.
Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix.
When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete.
This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control.

Implications of Centralization

This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors).
This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things.
The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions.

The Rise of FPGAs

With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending.
A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network.
Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements.
Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes.

All is not lost thanks to.. um.. Technology?

Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.”
In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution.
Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member-
"Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well"

If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency.
Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term.

In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
submitted by Godballz to CryptoCurrency [link] [comments]

Tried to look up answers, found conflicting results

Hey guys, noob here.
I was simply trying to research "will my Nvidia 1080 mine at a profit", and I've found conflicting results.
Originally it seemed for a non specialized rig it would only be profitable to mine some sort of altcoin, but then I found some sources like this telling me otherwise.
TBH I am hesitant to even make this topic, because game theory would behoove you to not want more miners on the network so I'm not sure I will get an honest answer, but I'm banking on bitcoins community's goodwill a bit here for a legit answer.
Put bluntly, I am not looking to make crazy profits, I am just more or less interested in bitcoin in general but just don't want to run on a loss.
edit: thanks for being a rubber ducky, I think I found my answer. I think nicehash is mining alts and auto converting to btc. If I am wrong, correct me, but I think this will work nicely for me
submitted by GeneralAsthar to BitcoinMining [link] [comments]

Why GPU Prices Went Up And Where They Will Go In The Future (Informed Speculation)

I am seeing a lot of comments in this sub in regards to the GPU apocalypse 2.0. I wanted to shed some insight about what is going on and what I believe is going to happen in the future. As a long time lurker in this sub, I believe in speaking the truth and getting past all the bs.
First, I need to tell you guys right now. I am a miner. I have 16 1070s and 12 1060 3gbs mining in unison in my basement (which most veteran miners would consider a mid-sized operation). My personal gaming rig is still powered by my GTX 980 and I mine with it as well when I am not using it. All that being said, I have been in the mining game for years and I saw this apocalypse coming with the climbing profitability (which is why about three weeks ago I ordered 12 1060s). In July, when the GPU apocalypse 1.0 happened, everyone was happy because a 6x1070 rig could make you upwards of $20 a day. Then when everyone started mining it dropped to $15 on average, then again to $12. In late November to early December I started to see a huge but gradual climb to over $20 a day again. I admitted all of that to establish myself as a mining veteran, NOT to troll anyone. If you want to try and predict GPU apocalypse 3.0 yourself, visit whattomine and calculate what 6x1070s are making and compare them to the numbers I have above. If they start to climb near $20 a day, you will know winter is coming again.
For the GPU market, I strongly believe that the market in the next few years will shift. There are two reasons for that. The first is I think that GPU mining is here to stay. Remember that our profitability is NOT completely linked to crypto prices, but in the difficulty of a particular coin. If the difficulty of ethereum were to double today and the price stay the same, I would be mining zcash etc. Even if the prices of ALL coins tanked, it wouldn't affect my profit as much as many of you seem to think it would. The reason is because when the reward goes down, many stop mining a coin and so the difficulty drops. It's just human behavior. That is why most days I make the exact same amount of USD $$$ even though the price of most coins shot up. It IS possible for profitability to drop as hard as it's went up recently, but the low profitability would cause a new coin to utilize all that untapped hashrate. There is a huge financial incentive to tap into all of this GPU power, and that is why I strongly believe it is going to continue to be profitable long term. Just look at how much etheruem has eaten into the Bitcoin dominance by market cap in the past year or two.
The second reason is I believe that this generation of cards has experienced demand the likes of which we have never seen! I mean seriously, those of us that got into PC gaming in the last 10 years, we have not seen demand like this EVER. Like you guys have been saying, this is going to cause a VERY healthy second hand market soon, which is a great thing. If the Volta profitability from the Titan V is anything to go by, that manufacturing process is going to be the new go-to for crypto mining. The only reason the Titan isn't coveted by crypto miners is the price. At 200w it's crypto numbers are actually the strongest per watt of anything out there (which will very likely translate down into the next gen 1080, 1070, and 1060 respectively). I don't think everyone is gonna just shut off their rx 570s, 1060s, 1070s, and 1080s just to upgrade to Volta, but all NEW rigs in the future will obviously be built with the best tech. Those old rigs will stay powered on until they are literally unprofitable to run OR they are so low-profit that they are no longer worth the effort to maintain.
For the two reasons above (continued profitability and better GPUs in the future) I do believe we are heading towards a situation where crypto miners get the latest gen cards and gamers get one generation back. The FPS/$ on the used market has mostly always been better than the new market, but we are heading for a time where that effect is going to be compounded. I strongly believe the go-to-cards for gamers once Volta spreads to miners is going to be rx 570-1080ti depending on budget.
One final piece of bad news is there is a new floor to GPU prices. Miners will ALWAYS buy whatever is going to ROI fastest and make the most money. If 1070s dropped to 100 bucks and Volta 2070s are $450 but only twice as good, we will demand 1070s until the price goes up beyond $200. That's just an example, but you get the idea. I think that second hand GPUs for the previous gen will be selling for slightly less than what they were MSRP at launch.
Personally, mining has changed my life for the better. My wife is preggo and we are about to move to a single income family because of the revenue generated by mining (about $100 every day with the cards listed above). I don't understand why gamers aren't subsidizing their purchase of GPUs by mining with new, easy software like Nicehash then cashing it out. I get not everyone has the up-front capital to get a 1080ti for $1300, but why not get a 1060 3gb for a little under 300 then set it to mine when you aren't using it? After a few months you will have made the price of your GPU under 200 despite electricity costs. Another benefit is technically you mining with that 1060 will decrease the profit of miners like me slightly. If you really wanna affect the bottom line of miners, mine with the cards you already have. It increases the difficulty and makes profit lower MUCH more so than a drop in price would. There is plenty of profit to go around. I would say you could buy games on steam with the resulting Bitcoin, but they eliminated that. You CAN buy from Newegg straight up or even from Amazon at a discount using purse.io in order to justify the extra price for the card. There are a TON of options of how you can spend your BTC.
I certainly don't know everything, but if you guys have any questions please let me know and I will try my best to answer them. I am sure an even more experienced miner will jump in if I don't know the answer and respond as well.
TL;DR: GPU apocalypse 2.0 happened because the profit of 6x1070s passed $20 per day again (all cards are high profit but I use 1070s as a reference). I believe gamers are going to get one generation of GPU back starting when the full Volta stack comes out.
submitted by compound-interest to pcmasterrace [link] [comments]

adams1122, batsman123, bradhoggs, Elvinselili1122, NewWatermelonlesson, r/ICOTOKEN: btcwonder.com

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https://www.reddit.com/usebatsman123/overview
https://www.reddit.com/usebradhoggs/overview
https://www.reddit.com/useElvinselili1122/overview
https://www.reddit.com/useNewWatermelonlesson/overview
/ICOTOKEN - batsman123's sub.
The sidebar is interesting. It begins with a valid sentence, continues with keyword salad and ends in a btcwonder.com link:
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submitted by Wonderdull to TheseFuckingAccounts [link] [comments]

The Problem with PoW


Miners have always had it rough..
"Frustrated Miners"


The Problem with PoW
(and what is being done to solve it)

Proof of Work (PoW) is one of the most commonly used consensus mechanisms entrusted to secure and validate many of today’s most successful cryptocurrencies, Bitcoin being one. Battle-hardened and having weathered the test of time, Bitcoin has demonstrated the undeniable strength and reliability of the PoW consensus model through sheer market saturation, and of course, its persistency.
In addition to the cost of powerful computing hardware, miners prove that they are benefiting the network by expending energy in the form of electricity, by solving and hashing away complex math problems on their computers, utilizing any suitable tools that they have at their disposal. The mathematics involved in securing proof of work revolve around unique algorithms, each with their own benefits and vulnerabilities, and can require different software/hardware to mine depending on the coin.
Because each block has a unique and entirely random hash, or “puzzle” to solve, the “work” has to be performed for each block individually and the difficulty of the problem can be increased as the speed at which blocks are solved increases.
Hashrates and Hardware Types
While proof of work is an effective means of securing a blockchain, it inherently promotes competition amongst miners seeking higher and higher hashrates due to the rewards earned by the node who wins the right to add the next block. In turn, these higher hash rates benefit the blockchain, providing better security when it’s a result of a well distributed/decentralized network of miners.
When Bitcoin first launched its genesis block, it was mined exclusively by CPUs. Over the years, various programmers and developers have devised newer, faster, and more energy efficient ways to generate higher hashrates; some by perfecting the software end of things, and others, when the incentives are great enough, create expensive specialized hardware such as ASICs (application-specific integrated circuit). With the express purpose of extracting every last bit of hashing power, efficiency being paramount, ASICs are stripped down, bare minimum, hardware representations of a specific coin’s algorithm.
This gives ASICS a massive advantage in terms of raw hashing power and also in terms of energy consumption against CPUs/GPUs, but with significant drawbacks of being very expensive to design/manufacture, translating to a high economic barrier for the casual miner. Due to the fact that they are virtual hardware representations of a single targeted algorithm, this means that if a project decides to fork and change algorithms suddenly, your powerful brand-new ASIC becomes a very expensive paperweight. The high costs in developing and manufacturing ASICs and the associated risks involved, make them unfit for mass adoption at this time.
Somewhere on the high end, in the vast hashrate expanse created between GPU and ASIC, sits the FPGA (field programmable gate array). FPGAs are basically ASICs that make some compromises with efficiency in order to have more flexibility, namely they are reprogrammable and often used in the “field” to test an algorithm before implementing it in an ASIC. As a precursor to the ASIC, FPGAs are somewhat similar to GPUs in their flexibility, but require advanced programming skills and, like ASICs, are expensive and still fairly uncommon.
2 Guys 1 ASIC
One of the issues with proof of work incentivizing the pursuit of higher hashrates is in how the network calculates block reward coinbase payouts and rewards miners based on the work that they have submitted. If a coin generated, say a block a minute, and this is a constant, then what happens if more miners jump on a network and do more work? The network cannot pay out more than 1 block reward per 1 minute, and so a difficulty mechanism is used to maintain balance. The difficulty will scale up and down in response to the overall nethash, so if many miners join the network, or extremely high hashing devices such as ASICs or FPGAs jump on, the network will respond accordingly, using the difficulty mechanism to make the problems harder, effectively giving an edge to hardware that can solve them faster, balancing the network. This not only maintains the block a minute reward but it has the added side-effect of energy requirements that scale up with network adoption.
Imagine, for example, if one miner gets on a network all alone with a CPU doing 50 MH/s and is getting all 100 coins that can possibly be paid out in a day. Then, if another miner jumps on the network with the same CPU, each miner would receive 50 coins in a day instead of 100 since they are splitting the required work evenly, despite the fact that the net electrical output has doubled along with the work. Electricity costs miner’s money and is a factor in driving up coin price along with adoption, and since more people are now mining, the coin is less centralized. Now let’s say a large corporation has found it profitable to manufacture an ASIC for this coin, knowing they will make their money back mining it or selling the units to professionals. They join the network doing 900 MH/s and will be pulling in 90 coins a day, while the two guys with their CPUs each get 5 now. Those two guys aren’t very happy, but the corporation is. Not only does this negatively affect the miners, it compromises the security of the entire network by centralizing the coin supply and hashrate, opening the doors to double spends and 51% attacks from potential malicious actors. Uncertainty of motives and questionable validity in a distributed ledger do not mix.
When technology advances in a field, it is usually applauded and welcomed with open arms, but in the world of crypto things can work quite differently. One of the glaring flaws in the current model and the advent of specialized hardware is that it’s never ending. Suppose the two men from the rather extreme example above took out a loan to get themselves that ASIC they heard about that can get them 90 coins a day? When they join the other ASIC on the network, the difficulty adjusts to keep daily payouts consistent at 100, and they will each receive only 33 coins instead of 90 since the reward is now being split three ways. Now what happens if a better ASIC is released by that corporation? Hopefully, those two guys were able to pay off their loans and sell their old ASICs before they became obsolete.
This system, as it stands now, only perpetuates a never ending hashrate arms race in which the weapons of choice are usually a combination of efficiency, economics, profitability and in some cases control.
Implications of Centralization
This brings us to another big concern with expensive specialized hardware: the risk of centralization. Because they are so expensive and inaccessible to the casual miner, ASICs and FPGAs predominantly remain limited to a select few. Centralization occurs when one small group or a single entity controls the vast majority hash power and, as a result, coin supply and is able to exert its influence to manipulate the market or in some cases, the network itself (usually the case of dishonest nodes or bad actors).
This is entirely antithetical of what cryptocurrency was born of, and since its inception many concerted efforts have been made to avoid centralization at all costs. An entity in control of a centralized coin would have the power to manipulate the price, and having a centralized hashrate would enable them to affect network usability, reliability, and even perform double spends leading to the demise of a coin, among other things.
The world of crypto is a strange new place, with rapidly growing advancements across many fields, economies, and boarders, leaving plenty of room for improvement; while it may feel like a never-ending game of catch up, there are many talented developers and programmers working around the clock to bring us all more sustainable solutions.
The Rise of FPGAs
With the recent implementation of the commonly used coding language C++, and due to their overall flexibility, FPGAs are becoming somewhat more common, especially in larger farms and in industrial setting; but they still remain primarily out of the hands of most mining enthusiasts and almost unheard of to the average hobby miner. Things appear to be changing though, one example of which I’ll discuss below, and it is thought by some, that soon we will see a day when mining with a CPU or GPU just won’t cut it any longer, and the market will be dominated by FPGAs and specialized ASICs, bringing with them efficiency gains for proof of work, while also carelessly leading us all towards the next round of spending.
A perfect real-world example of the effect specialized hardware has had on the crypto-community was recently discovered involving a fairly new project called VerusCoin and a fairly new, relatively more economically accessible FPGA. The FPGA is designed to target specific alt-coins whose algo’s do not require RAM overhead. It was discovered the company had released a new algorithm, kept secret from the public, which could effectively mine Verus at 20x the speed of GPUs, which were the next fastest hardware types mining on the Verus network.
Unfortunately this was done with a deliberately secret approach, calling the Verus algorithm “Algo1” and encouraging owners of the FPGA to never speak of the algorithm in public channels, admonishing a user when they did let the cat out of the bag. The problem with this business model is that it is parasitic in nature. In an ecosystem where advancements can benefit the entire crypto community, this sort of secret mining approach also does not support the philosophies set forth by the Bitcoin or subsequent open source and decentralization movements.
Although this was not done in the spirit of open source, it does hint to an important step in hardware innovation where we could see more efficient specialized systems within reach of the casual miner. The FPGA requires unique sets of data called a bitstream in order to be able to recognize each individual coin’s algorithm and mine them. Because it’s reprogrammable, with the support of a strong development team creating such bitstreams, the miner doesn’t end up with a brick if an algorithm changes.
All is not lost thanks to.. um.. Technology?
Shortly after discovering FPGAs on the network, the Verus developers quickly designed, tested, and implemented a new, much more complex and improved algorithm via a fork that enabled Verus to transition smoothly from VerusHash 1.0 to VerusHash 2.0 at block 310,000. Since the fork, VerusHash 2.0 has demonstrated doing exactly what it was designed for- equalizing hardware performance relative to the device being used while enabling CPUs (the most widely available “ASICs”) to mine side by side with GPUs, at a profit and it appears this will also apply to other specialized hardware. This is something no other project has been able to do until now. Rather than pursue the folly of so many other projects before it- attempting to be “ASIC proof”, Verus effectively achieved and presents to the world an entirely new model of “hardware homogeny”. As the late, great, Bruce Lee once said- “Don’t get set into one form, adapt it and build your own, and let it grow, be like water.”
In the design of VerusHash 2.0, Verus has shown it doesn’t resist progress like so many other new algorithms try to do, it embraces change and adapts to it in the way that water becomes whatever vessel it inhabits. This new approach- an industry first- could very well become an industry standard and in doing so, would usher in a new age for proof of work based coins. VerusHash 2.0 has the potential to correct the single largest design flaw in the proof of work consensus mechanism- the ever expanding monetary and energy requirements that have plagued PoW based projects since the inception of the consensus mechanism. Verus also solves another major issue of coin and net hash centralization by enabling legitimate CPU mining, offering greater coin and hashrate distribution.
Digging a bit deeper it turns out the Verus development team are no rookies. The lead developer Michael F Toutonghi has spent decades in the field programming and is a former Vice President and Technical Fellow at Microsoft, recognized founder and architect of Microsoft's .Net platform, ex-Technical Fellow of Microsoft's advertising platform, ex-CTO, Parallels Corporation, and an experienced distributed computing and machine learning architect. The project he helped create employs and makes use of a diverse myriad of technologies and security features to form one of the most advanced and secure cryptocurrency to date. A brief description of what makes VerusCoin special quoted from a community member-
"Verus has a unique and new consensus algorithm called Proof of Power which is a 50% PoW/50% PoS algorithm that solves theoretical weaknesses in other PoS systems (Nothing at Stake problem for example) and is provably immune to 51% hash attacks. With this, Verus uses the new hash algorithm, VerusHash 2.0. VerusHash 2.0 is designed to better equalize mining across all hardware platforms, while favoring the latest CPUs over older types, which is also one defense against the centralizing potential of botnets. Unlike past efforts to equalize hardware hash-rates across different hardware types, VerusHash 2.0 explicitly enables CPUs to gain even more power relative to GPUs and FPGAs, enabling the most decentralizing hardware, CPUs (due to their virtually complete market penetration), to stay relevant as miners for the indefinite future. As for anonymity, Verus is not a "forced private", allowing for both transparent and shielded (private) transactions...and private messages as well"
If other projects can learn from this and adopt a similar approach or continue to innovate with new ideas, it could mean an end to all the doom and gloom predictions that CPU and GPU mining are dead, offering a much needed reprieve and an alternative to miners who have been faced with the difficult decision of either pulling the plug and shutting down shop or breaking down their rigs to sell off parts and buy new, more expensive hardware…and in so doing present an overall unprecedented level of decentralization not yet seen in cryptocurrency.
Technological advancements led us to the world of secure digital currencies and the progress being made with hardware efficiencies is indisputably beneficial to us all. ASICs and FPGAs aren’t inherently bad, and there are ways in which they could be made more affordable and available for mass distribution. More than anything, it is important that we work together as communities to find solutions that can benefit us all for the long term.
In an ever changing world where it may be easy to lose sight of the real accomplishments that brought us to this point one thing is certain, cryptocurrency is here to stay and the projects that are doing something to solve the current problems in the proof of work consensus mechanism will be the ones that lead us toward our collective vision of a better world- not just for the world of crypto but for each and every one of us.
submitted by Godballz to EtherMining [link] [comments]

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