It Is All About BTC, LTC, ETH, DOGE, KAS mining as well as other alternative crypto currencies
One of the main things that has pushed the development of alternatives to the Bitcoin Core software is the ongoing debate about the blocksize and more specifically if and how it should evolve over time in order to cope up with the growing number of Bitcoin users and the increase of the number of transactions. So now apart from Bitcoin Core we also have Bitcoin Classic, Bitcoin Unlimited and Bitcoin XT as major alternatives and there are already quite a lot of nodes running a different software than the Core one. The website Node Counter allows you to easily keep track of the number of different nodes in the Bitcoin network and what version of the Bitcoin software they are running as well as how things are changing over time. Looking at the graphs we can clearly see that the support for 2MB or larger blocksize is growing, but still the number of Core nodes that are keeping the 1MB blocksize is a few times larger. Bitcoin Classic is getting significant increase in support and is currently with about 1/4 of the size of the number of Core nodes, followed by Bitcoin XT and Bitcoin Unlimited that have been recently loosing support most likely in favor of the Classic implementation. If you are interested in how thing are developing you can keep track on Node Counter or another of the many new websites with similar goal that have popped up recently.
– Visit the website Node Counter for more details about the available different Bitcoin nodes…
The Decred (DCR) crypto currency is still fairly new and although it needs more work to become a more user friendly altcoin things are already happening with the latest useful addition being the website DCRstats. A single page website that presents a lot of useful information to help you keep track of what is happening with the Decred network at the moment – how is the price changing, what s the current difficulty and network hashrate, the average block time, the ticket price for PoS, how is the block reward distributed and how and when it will change and some more useful graphs and charts. You may even get some useful advice such as to not buy tickets for PoS at the moment, because the price is high and how much time you will need to wait for the next PoS difficulty adjustment to get a better price if you are staking Decred coins. So in short a website to keep a track of if you are mining, trading or just interested in how things are moving on with Decred (DCR) or to get a quick and good overview of the current situation. The best of all is that the project is open source, so you can check the code on GitHub and maybe even help in further improvement and development to make it even more useful and practical than it already is.
– To check out the DCRstats website for the current Decred network statistics…
There is a little trick that can help you get some extra hashrate out of your Nvidia GPU when mining Ethereum or another more memory dependent algorithm, though it will most likely not affect many of the other crypto algorithms. By default when running Compute applications on your GPU it does not go to the highest Power State of the card, meaning that you might not be able to squeeze the maximum performance out of the video card and that is without overclocking anything. Thanks to the Nvidia System Management Interface (nvidia-smi) command line utility you are able to force the GPU to work in P0 state (the highest power state) instead of staying at maximum P2 when running a Compute applications such as a crypto miner software. Do note that this specific lower maximum power state is only for Compute applications, so it is not needed, not it should affect gaming performance where the GPU shuld go up to P0 power state if the conditions allow it.
The nvidia-smi utility is part of the video drivers and you can find it installed in the folder “C:\Program Files\NVIDIA Corporation\NVSMI\” on Windows, so you need to run the command line (cmd) and navigate to that folder in order to be able to issue commands. What you should start with is running the following command to check the current P-state of your GPU(s):
nvidia-smi -q -d PERFORMANCE
Do note that the P-state changes dynamically, so you need to be running Ethminer or another application when you issue the above command to see the power state active under load, otherwise you might see a lower power state being active if the GPU is idle.
After you verify the maximum power state that your Nvidia GPUs use when executing Compute applications such as ones that rely on OpenCL or CUDA you need to check what are the maximum frequencies of the video card that are available for the maximum performance in the P0 power state. You can do so with the following command (make sure you are still in the NVSMI folder):
nvidia-smi -q -d SUPPORTED_CLOCKS | more
The above will list all of the supported frequencies in the different power states that your video card can use, but there is no need to check the complete list. All we need to note are the frequencies at the top of the list for the Memory and the Graphics, in this example we are using GTX 970 video card from Gigabyte and the values we need are 3505 MHz for the VRAM and 1455 MHz for the GPU. We’ll need these frequencies for the next step.
What we are going to do next is to force the video card to use the maximum performance operating frequencies by going to the P0 power state. In order to do that we need to run the following command:
nvidia-smi -ac 3505,1455
Note that the above command will apply the settings to all GPUs that you have in your system, normally that should not be a problem for most mining rigs as they are usually with a number of cards that are the same model, but there are cases when this is not true. So you might need to check the individual settings fro different video cards and apply the correct parameters for each of them separately. To do so you just need to add the card ID in the command line, so that the particular option will be executed only for the specified video card. This is being done by adding the “-i
nvidia-smi -i 0 -ac 3505,1455
nvidia-smi -i 1 -ac 3505,1392
The question that undoubtedly comes now is how we have increased the performance for mining Ethereum by following the instructions above. Well it is pretty easy to check by running a benchmark with Ethminer, or just running the miner and noting the new increased frequencies that you should now have and compare them to the ones you previously had. On the Nvidia Gigabyte GTX 970 WF3OC video card used in the guide we are normally getting about 17.31 MHS in terms of hashrate mining Ethereum when the GPU is maxing out at the P2 power state, when we force it to go to the P0 power state the hashrate increases to about 19.98 MHS. So this is a nice improvement in terms of performance that comes at a cost of just about 10W higher power usage from the video card. Do note however that while this will work with Ethereum for increasing performance due to the heavy usage of video memory in the mining process, doing it may not bring performance improvement in many other commonly used mining algorithms.