Can A Raspberry Pi Mine Viacoin VIA
Free Bitcoin Generate Software 2017 Harris Bitcoin Miner Up to 1Btc/Day.
A is a credit card sized $25 (or $45, for the deluxe option) computer, designed for educational use. Has anyone tried running mining software on it? If so, what's the hashrate like? (apparently the CPU is approximately equivalent to a P2 300MHz - I know the hashrate will be very low!) Also, can the GPU be used to mine? What's the hashrate for that, if it's been done.
From the FAQ on the above linked site: ' The GPU provides Open GL ES 2.0, hardware-accelerated OpenVG, and 1080p30 H.264 high-profile decode. The GPU is capable of 1Gpixel/s, 1.5Gtexel/s or 24 GFLOPs of general purpose compute and features a bunch of texture filtering and DMA infrastructure. That is, graphics capabilities are roughly equivalent to Xbox 1 level of performance.
My Raspberry Pi is not discoverable via its hostname in my LAN. Raspberry Pi not reachable via its hostname in LAN. I've solved mine via Samba. All was going well until I mentioned 'Bitcoin Mining. YOUTU.BE: Xapo CEO: Why Bitcoin will likely win out with the entire ecosystem of the decentralized transferring of value (Video at 10:00) (via: Reddit). REDDIT.COM: I'm in negative, but I still spent money to set up my first raspberry pi full node (via: Reddit). Jan 9, 2018 - The stinginess of mining pools to provide information about their operations can be partly blamed for this. Point number two comes via Coin Center's Peter Van Valkenburgh, who astutely argued that the more miners are enticed to compete for bitcoin – again, a function of its rising price – the more they. GUIDE brings you a video on the Gridseed G-Blade Scrypt ASIC Miner, scrypt coins as in; Litecoin LTC.
Overall real world performance is something like a 300MHz Pentium 2, only with much, much swankier graphics.' Note: The price of $25 or $45 excludes a way of powering it (via MicroUSB), a keyboard, a mouse and likely a USB hub. I think you need to provide an SD card too. The Raspberry Pi uses the VideoCore IV series of GPU, which to my understanding are either a single or dual core GPU running at or around 700 MHz. Since the primary benefit of GPU mining is that you can run many parallel processes on the hundreds of cores typically found in most GPUs, the single-core nature of the VideoCore GPU undoes most of that benefit.
I don't have exact numbers, nor the necessary knowledge to compute an estimate, but I can tell you that the Folding@Home folks and came to the conclusion that an AMD Phenom II X4 940 was almost 5 times as efficient for their needs as utilizing both the CPU and GPU of the Raspberry Pi. Since the needs of Folding@Home are very similar (but not identical) to Bitcoin's, it's probably not a stretch to say that if CPU mining (admittedly with a fairly nice CPU) is 5x more efficient, the Raspberry Pi doesn't look like a strong contender. Of course, until we have solid MH/s and actual at-the-wall wattage numbers it's very difficult to say if, at scale, a cluster of $35 Raspberry Pis could compete with other setups on initial price or power cost. Personally, I'd guess not. The one thing I should probably answer on is about the difference between OpenGL / OpenGL-ES and OpenCL. Both OpenGL and OpenCl can be used for SHA256d hashing, but OpenCl is used much more frequently. Where as GL means Graphics Language and CL stands for Compute Language.
GL is for graphics and CL is for mathematical and scientific calculations. While your system may have OpenGL support of some sort, it's more than likely doesn't have OpenCL 1 & 2 support for the GP-GPU (VideoCore IV) which would allow you to get okay to medium hash rates. As I see to remember, the VideoCore IV in the Pi doesn't support it in hardware (OpenCL version 1 or 2). Which means you'd have to rely on those ASIC miners that are connected via the USB port hub or even a dedicated mining rig that is connected via the UTP network connector (RJ-45 jack / Ethernet). Well, at least we're having a good amount of information / data coming out so the next people that read this will have a good idea on what to do with their RPIs if they want to do any mining.
I will step up and answer the Raspberry Pi question too. The RPI in and of itself is not worth using to do virtual currency mining on by itself. However, if you a nice powered USB hub and connect in the ASICs that plug in via the USB ports and download the proper software that can access these devices, then you've got a descent mining rig to speak of. Note: Due to the way in which the ASICs are designed, they can only do SHA256D and that alone although, performance per watt is the best way to go. Essentially, all the RPI does is act as the surrogate for all the ASIC slave units and constantly feeds them data and ferries the data hashes back and forth from their source. You can't use Scrypt with these USB ASICs at all.
You'll be stuck using the GETWORK protocol until someone can come up with an ASIC that can do both SHA256D and Scrypt. One last thing, you may have heard of the Stratum protocol vs.
The old GETWORK protocol. This can be used with Scrypt or SHA256D algorithms. Stratum helps you get less stale and has even better network performance than the old protocol. Hope this clears things up like my message above. Do you even know what FLOPS are, first off?
FLOPS stands for FLoating-point OPerations per Second. Hashes are calculated via signed integers in the form of hexadecimal numbers, those numbers are then run through a series of logical operations (You know; AND, OR, NOR, XOR, NAND).
FLOPS means absolutely jack when it comes to your processing speed of your Hash Bashing rig (your crypto-currency mining computer). ATI cards are known for their single-precision floating point performance over Nvidia, that much is true. ATI also has better signed and unsigned integer performance than Nvidia does too.
ATI has slightly better logical operations per second than Nvidia does. Now, floating point is screaming fast on the ATIs as compared to the Nvidia but it's too bad it's not actually being used for SHA256D and Scrypt. Integers both signed and unsigned actually take less time on the CPU or GP-GPU to calculate and thus much faster. The logical operations are the slowest and since you use a combination of both logical and unsigned integer you get a composite average of the performance between the two and of course the implementation of the mining application.
If it's done correctly, you should get around 85 to 90% maximum of what your card or embedded system claims it's capable of doing. Simply put, you will never achieve 100% because you have an operating system that is using the card and of course interfacing to the rest of the system. While the indicators tell you are getting 100% of the cores, what it's really means is that you are getting 100% of the 85 ~ 90% theoretical maximum you can achieve with the hardware you have. I hope this clears things up for y'all. How To Make Dash DASH Mining Hardware more. So by the (very, very rough) estimate that the graphic card might achieve a similar number of integer operations per second as it does for floating point operations, you can guess that maybe 10 MHash/s might be in the realm of possibility, if you can get documentation for programming it (sign a non-disclosure agreement with the manufacturer?).
I'm using the ballpark figure of ca. 2000 to 3000 integer operations per double SHA-256 hash to get this from the guess that 24000 MIPS (based on 24 GFLOPS) are available. – Nov 21 '13 at 10:22.