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FutureBit Apollo BTC is an upcoming SHA256 ASIC miner designed for home users that is capable of not only mining, but also running a Full Bitcoin node. The device comes in the form of a compact and silent desktop class computer machine and is intended for home use and not for use in large crypto mining farms. It is based on the same idea of the FutureBit Apollo LTC Pod Scrypt ASIC Miner and Full Litecoin Node, but further improving things and not just only focusing on Bitcoin here.
FutureBit announced it is going to be taking Pre-Orders for the Apollo BTC starting this Friday 2/5/21 at 6PM EST (GMT-5) on their official website with shipping expected to begin at the end of April. The Batch 1 price starts at $349.99 USD, but the full package with the 500GB M.2 SSD and 200W dedicated PSU will cost you $599.99 USD and this is what you should probably get as it is the complete package that is ready to run.
The FutureBit Apollo BTC device consists of six CPU cores, 44 ASIC cores, 500GB NVMe-based SSD drive, quiet cooler, and with less than 200 Watts of power usage. At the heart of the new Apollo BTC device is a revamped SBC (Single Board Computer), that is as powerful as any consumer grade desktop system according to the developers and can run almost any Bitcoin Application natively on the device 24/7. All you have to do is to take it out of the box, plug it in, power it on, and you are already running a full Bitcoin node without needing to do anything more.
You can install a wallet of your choice, use any hardware wallet, run BTCPayServer, run a block explorer, run a Lightning Node and so much more. All of this is possible with the help of a six core ARM based CPU with 4GB of RAM, and a 500GB NVMe SSD drive that can easily store a FULL non pruned Bitcoin Node. The Apollo BTC device should be able to synchronize a Full Node in less than 48 hours, which is a record for a device of its class and almost an order of magnitude faster than any Raspberry Pi 4 based Bitcoin Full Node.
The FutureBit Apollo BTC mining hashrate and power usage is varying based on the settings you run it at, it should be capable of delivering between 2 and 3.8 TH/s of SHA256 performance per miner with 125 Watts of power usage in ECO mode, and 200 Watts in TURBO mode respectively. The best thing of all is that the device should be pretty silent, regardless of the modes it is running in, so that it can be friendly for home use as this is where its intended use is.
FutureBit Apollo BTC Features:
– Compact All-In-One Desktop Bitcoin System (4x6x4in) that mines Bitcoin and any SHA256 based crypto (Bitcoin Cash etc).
– Powerful 6 ARM Core CPU with 4GB of LPDDR4 RAM and 500GB NVMe SSD (NOT included in the Standard or Standard + package).
– Comes Pre-Installed with a Bitcoin node, and you can install almost any Bitcoin Application
– Very wide range of operation modes with preset ECO (quiet) mode, BALANCED, and TURBO mode.
– 2-3.8 TH/s of SHA256 performance per miner (+/- 5%)
– 125 Watts in ECO mode, and 200 Watts in TURBO * +/- 10%
– Can be used as a full Desktop computer with a monitor keyboard and mouse (not included), or through our Web UI
– Connect almost any peripheral with our USB 3.0 ports, USB C port, HDMI, AC Wifi, and Bluetooth
– Clocks and Power is fully customizable by user with easy-to-use interface
– Hashboard now monitors both voltage and power draw for accurate measurements*
– Custom designed cold forged hexagonal pin heatsink with leading thermal performance for the quietest ASIC miner in operation!
– 1k-5k RPM Quiet Dual Ball Bearing Fan with automatic thermal management with onboard temperature sensor
– Controlled via local connection on a web browser similar to Antminers. You can simply set it up via smartphone browser. No crazy driver installs, hard to use miner software or scripts needed.
– Two Six Pin PCIE power connectors for wide-range of power draw
– Custom Designed all Aluminum case
– Ships with a custom built 200W 94% efficient PSU and is ready to run out of the box! (Does NOT come with Standard package).
– For More Information About the FutureBit Apollo BTC ASIC Miner and Full Bitcoin Node…
- In: Mining Hardware
- Tags: Apollo BTC, Apollo BTC computer, Apollo BTC miner, Apollo BTC node, asic miner, Bitcoin ASIC for home, bitcoin asic miner, Bitcoin full niode, Bitcoin home miner, Bitcoin miner, BTC ASIC for home, BTC ASIC miner, BTC full node, BTC home miner, BTC miner, FutureBit, FutureBit Apollo BTC, FutureBit Apollo BTC ASIC, FutureBit Apollo BTC ASIC miner, FutureBit Apollo BTC full node, FutureBit Apollo BTC miner, FutureBit Apollo BTC node, SHA256 ASIC, SHA256 ASIC miner
One of the most problematic sides of using the latest Nvidia GeForce RTX 30 series GPUs for mining Ethereum is the fact that their video memory gets really hot and up until recently there was simply no tool to give you an idea how hot that is. Thanks to the latest HWiNFO version 6.42 you can now monitor the operating temperatures of the GDDR6X video memory of your RTX 3080 and RTX 3090 GPUs and take the appropriate measures to keep things cool for ensuring maximum performance and problem free operation on the long run. Have in mind that you might actually be quite surprised when you see the actual numbers being really high, but that is to be expected, considering the fact that even the surface of the backplate of the video card gets quite hot when we touch or measure it.
A note regarding the new GDDR6X Memory Junction Temperature:
Just like in case of Navi, this is not the external (case) temperature, but internal junction temperature measured inside the silicon.
So don’t be scared to see higher values than other common temperatures, it’s expected. Also the limits are set respectively higher (throttling starts around 110 C).
EDIT: Adding that the value reported should be the current maximum temperature among all memory chips.
Checking the backplate of the water-cooled RTX 3090 with a FLIR thermal camera showed that at stock settings when mining you get around 72.8 C (the hottest spot) and with overclocked memory the hottest spot on the backplate where the memory chips are is 75.8 C. No wonder we got such high temperatures measured considering that the actual operating temperature of the memory is 92 degrees under the backplate. So, adding extra cooing fans on top of the backplate is definitely a must if you plan on using RTX 3090 for mining Ethereum. The same also goes for RTX 3080 when used for mining, though with the RTX 3070 and 3060 Ti the situation could be better due to the lower power usage they have and the GDDR6 memory they use (not the faster and hotter GDDR6X), especially when optimized for mining. We need to further explore the memory temps with these two, meanwhile if you check what temperatures you are getting with HWiNFO on your GPUs feel free to share results in the comments below.
Update: The just released updated HWiNFO v6.43–4380 Beta version comes with added support for Monitoring GPU HotSpot Temperature for Nvidia GPUs, so you might want to also check out this new parameter when using Nvidia video cards for mining crypto currencies such as Ethereum (ETH). This feature can be helpful in detecting issues with problematic GPUs that otherwise do seem to be operating fine, but are not running stable when mining, because of potential problems with proper cooing of the whole graphics processor due to bad thermal paste, not good contact with the cooler for the whole chip surface etc.
– To download and try GDDR6X monitoring with the free HWInfo 6.42 diagnostic software…
- In: Tests and Reviews
- Tags: GDDR6X ETH mining, GDDR6X ETH temperature, GDDR6X Ethereum mining, GDDR6X Ethereum temperature, GDDR6X memory temperature, GDDR6X mining temperature, GDDR6X temperature, hwinfo, monitoring memory temperature, RTX 30 series GDDR6X temperature, RTX 30 series memory temperature, RTX 3060 Ti memory temperature, RTX 3070 memory temperature, RTX 3080 memory temperature, RTX 3090 memory temperature, video memory temperature
Recently we have built a 720 MHs Ethereum Mining Rig With 6x MSI GeForce RTX 3090 SUPRIM X 24G GPUs and shared our experience with it, and we just got our hands on a water- cooled RTX 3090 GPU form ASUS and had to give it a go for Ethereum mining as well. The ASUS EKWB GeForce RTX 3090 video card is the result of collaboration between ASUS and EK, it comes with EK full-coverage water block and takes up just a single slot.
Specifications wise the ASUS EKWB GeForce RTX 3090 is just like a standard RTX 3090 video card with 350W TDP rating and dual 8-pin PCI-E power connectors that are supplying the required power along with the PCI-E x16 slot (be careful with extender power draw for mining rigs). The EK full cover water block is a high-flow one that should efficiently cool not only the GPU, but also the memory chips and other hot components on the front of the video card and the aluminium backplate at the back should also help with not only keeping things together, but also with cooling. The EK water block is made from copper and is nickel plated for better looks and for improved durability, there is a transparent plexiglass top and an addressable RGB strip with support for ASUS Aura Sync.
Here are some specifications from GPU-Z: the base GPU clock is 1395 MHz, the boost clock is 1695 MHz and the memory clock is 1219 MHz (19.5 Gbps effective) with Micron GDDR6X chips and a 384-bit wide memory bus. That is your typical GA102 GPU specs and what you should expect from an Nvidia RTX 3090 video card that is not factory overclocked. The default TDP of the video card is 350W here (unlike some OC models that come with 420W TDP) even though the GPU is water cooled and you can change it in the range between 28.6% and 104.6%, so not a lot of headroom for overclock – just about 5% extra or 366W max. We are more interested in optimizing TDP for lower power consumption, not aiming for higher with mining though in order to maximize performance and power efficiency.
Running the PhoenixMiner in order to check what Ethereum hashrate can we get with stock settings (default GPU and VRAM clocks and 100% TDP) – no surprise here with the result of 106.8 MH/s with the water-cooled GPU running at 51 degrees Celsius with the power usage reported from the miner is 322W, so it is almost filling up the available 100% Power Limit level. Hashrate for Ethereum in the range of 105-106 MH/s is the normal result for Nvidia RTX 3090 GPUs at default settings. Here we have water cooling on the GPU and memory and that is nice as far as silent operation is required for use in your home computer for example, but that does not mean that things will most definitely be much better compared to good air-cooled RTX 3090 video card. A good air cooler on an Nvidia RTX 3090 can also do around 50 degrees Celsius for the GPU with fans at 100%, though the noise will be more than when using water-cooling.
The more important thing here is the operating temperature of the memory. We were eager to see if the water-cooling improves the situation with the hot video memory on RTX 3090 or not when mining Ethereum (ETH) and the memory is under high load constantly. Unfortunately, even with the water-cooling the temperature of the backplate is still in the 70 degrees Celsius range when mining which is similar to what we’ve already seen on other air-cooled RTX 3090 video cards. Checking the backplate with a thermal imaging camera shows that at stock settings when mining you get around 72.8 C (the hottest spot) and with overclocked memory the hottest spot on the backplate where the memory chips are is 75.8 C, because even though the GPU power consumption is reduced, the memory uses more power due to the higher operating frequency due to the overclock we have applied.
On the ASUS EKWB GeForce RTX 3090 we’ve managed to lower down the Power Limit level to 76% with the video card still capable of providing 106 MH/s hashrate for Ethereum mining with about 266W of power usage reported by the miner (the same hashrate as with 100% TDP). Overclocking the video memory with 1100 MHs over the stock settings in MSI Afterburner and increasing the Power Limit level at 86% allowed us to reach 120.4 MH/s hashrate and 301W of power usage for the video card as reported by the miner software.
Optimized ASUS RTX 3090 EKWB ETH Mining Settings:
– TDP: 86%
– GPU: -400 MHz
– VRAM: +1100 MHz
We got 14 MHS more with 14% less power usage, but we kind of hoped for better results from the water-cooling of the RTX 3090. You can continue pushing the memory clock higher than our sweet spot of +1100 MHz that ensures 120 MH/s hashrate for a few extra megahashes, but we are worried about the memory temperature and the possibility of it starting to throttle because of getting too high. That is why we would recommend to place a cooling fan on top of the GPU backplate to help keep things cooler even if mining Ethereum with stock settings, let alone after you overclock the video memory, so that it will help keep things running optimally and problem free on the long run!
– For more information about the ASUS GeForce RTX3090-24G-EK Water-Cooled GPU…
- In: Mining Hardware|Tests and Reviews
- Tags: ASUS EKWB GeForce RTX 3090, EK, EK water block, EKWB, ETH mining, Ethereum mining, GDDR6X ETH, GDDR6X Ethash, GDDR6X Ethereum, GDDR6X hashrate, GDDR6X performance, PhoenixMiner, RTX 3090, RTX 3090 120 MHS, RTX 3090 crypto mining, RTX 3090 ETH, RTX 3090 ETH mining, rtx 3090 eth mining settings, RTX 3090 Ethash, RTX 3090 Ethash mining, rtx 3090 ethash mining settings, RTX 3090 Ethereum, RTX 3090 Ethereum mining, rtx 3090 ethereum mining settings, RTX 3090 Ethereum settings, RTX 3090 mining, RTX 3090 mining clocks, RTX 3090 mining hashrate, RTX 3090 mining performance, RTX 3090 mining settings, RTX 3090 PhoenixMiner, RTX3090-24G-EK, Water-Cooled GPU, Water-Cooled GPU Ethereum, Water-Cooled GPU mining, Water-cooled RTX 3090 ETH mining, Water-cooled RTX 3090 Ethereum mining, Water-cooled RTX 3090 mining