Okay, so I've been trying to find out why this is happening for about a week, my machine is a Thinkpad P53 workstation, with a 6-core 12-thread i7-9850H and a Quadro RTX3000 GPU. I know this sub is mainly geared toward desktops, but I didn't know where else to ask, as I believe if anyone would have great troubleshooting skills in this topic, it will be you guys.submitted by TheMacallanCode to pcmasterrace [link] [comments]
So, I've had this machine for almost a year now, no issues until about a week ago. I have 64GB of RAM and 2TB of nvme SSD storage as well, so I doubt there's an issue there. I started playing a pretty non demanding game, Monster Hunter World, and purposefully set it to 1080p and medium settings, whereas I can run it at 4k 60fps no problem with high settings.
The issue happens sometimes after 5 minutes of playing, and sometimes after 30 minutes of playing, it's pretty random, but what will happen is that fps will drop from a solid 60fps to a stuttery 15-20 fps, the important aspect of this is that the exact moment it happens, the GPU usage jumps from around 50% to a full 100% and stays there, not sure what's happening. I know that "100% GPU usage is good" but this case is different. The machine is powerful enough, as I'm pulling 60fps with the highest settings with 50-60% usage, but it only jumps to 100 the exact moment the performance drop occurs.
I downloaded MSI Afterburner and RivaTuner to see it in action and got this screenshot:
Temps are fine, they rarely go above 80-85C ever, as I've repasted the machine.
I took this a few secs after the performance drop, I notice that there's a temp and power throttle, the power throttle is usually there most of the time, and doesn't exactly affect performance, however the temperature throttling is what I find puzzling, as you can see the temps are fine, and stay there pretty much with every game, since it started happening about a week back, I decided to repaste the machine, and even though it helped keep temps much lower than before, it still didn't solve the issue.
After reading several threads here, I couldn't find any which were analogous to "High GPU usage, FPS bad", but I did read about several people that found out they had a bitcoin miner malware in their machine which spiked GPU usage. I decided to completely reinstall Windows in order to get rid of that probability, I made a bootable usb drive with the Windows Install tool and completely wiped all of the partitions before reinstall. The issue remained, so I could count out bitcoin malware, or Lenovo drivers, since the clean install came without any Lenovo bloatware, and also driver issues, so I just upgraded all my drivers back to the newest ones, now here I am, desperate to find out why this is happening, begging for help in pcmasterrace.
Is there any other benchmarks/tests I can run to diagnose the issue? I bought 3dMark, PCMark, and VRMark to benchmark my machine, and ran the time spy benchmark without issues, but only a couple of times, maybe not enough to have it show up.
Lastly, I have the machine plugged in, and on 'Best Performance' mode, which according to the machine, should provide the best cooling instead of caring about being quiet.
I'll also add, that the issues go away after a machine reboot, and sometimes when changing the performance slider from 'Best Performance' to something else and then back. At this point I think it might be driver or BIOS version related, so perhaps waiting might be the key.
April 30, 2020 | There’s more than just the sound of thousands of vacuumssubmitted by 1TMine to u/1TMine [link] [comments]
It is very easy to just silo the arcane bitcoin mining process as just a bunch of machines computing mathematical algorithms. Although for the most part this is true, and the veracity of this is not far off from the real truth, but what we see on the surface is not identical to what we see below the surface. Understanding bitcoin mining goes beyond the USB enabled ASIC miners we are accustomed to see on every thumbnail article we come across related to this industry.
It’s easy to understand why newbies halt their understanding of bitcoin mining to just state-of-the-art supercomputers with cool flickering neon green lights.
The following below is taken from the masterpiece of a novel, “Mastering Bitcoin”, by the great Andreas Antonopolous. As elegant as it sounds, its best to restate Andreas’ explanation of emergent consensus.
“Satoshi Nakamoto’s main invention is the decentralized mechanism for emergent consensus. Emergent, because consensus is not achieved explicitly — there is no election or fixed moment when consensus occurs. Instead, consensus is an emergent artifact of the asynchronous interaction of thousands of independent nodes, all following simple rules. All the properties of bitcoin, including currency, transactions, payments, and the security model that does not depend on central authority or trust, derive from this invention.
Bitcoin’s decentralized consensus emerges from the interplay of four processes that occur independently on nodes across the network:
“A mining node is listening for transactions, trying to mine a new block and also listening for blocks discovered by other nodes. The arrival of this block signifies the end of the competition for block 277,315 and the beginning of the competition to create block 277,316. During the previous 10 minutes, while Jing’s node was searching for a solution to block 277,315, it was also collecting transactions in preparation for the next block. By now it has collected a few hundred transactions in the memory pool. Upon receiving block 277,315 and validating it, Jing’s node will also check all the transactions in the memory pool and remove any that were included in block 277,315. Whatever transactions remain in the memory pool are unconfirmed and are waiting to be recorded in a new block. Jing’s node immediately constructs a new empty block, a candidate for block 277,316. This block is called a candidate block because it is not yet a valid block, as it does not contain a valid proof of work. The block becomes valid only if the miner succeeds in finding a solution to the proof-of-work algorithm.
These specialized machines are connected to his mining node over USB. Next, the mining node running on Jing’s desktop transmits the block header to his mining hardware, which starts testing trillions of nonces per second.”
That is essentially the process of what a miner machine and a mining node is going through each every second it is hooked up to the network. Of course this is just a high level overview with a bland taste but one could go more in depth by reading the book mentioned.
1.Mastering Bitcoin: Unlocking Digital Cryptocurrencies 1st Edition, by Andreas M. Antonopoulos, O’Reilly Media; 1 edition (December 20, 2014)
pip3 install -r requirements.txt python3 bip39\_gui.py
|icoBoard||Lattice||iCE40-HX8K||7,680||$100||Sort of||A very simple FPGA development board that plugs into a Raspberry Pi, so you have a "backup" hard-core CPU that can control networking, etc. Supports a huge range of pmod accessories. You can write a program/circuit so that the Raspberry Pi CPU and the FPGA work together, similar to a SoC. Proprietary bitstream is fully reverse engineered and supported by Project IceStorm, and there is an open-source toolchain that can compile your hardware design to bitstream. Has everything you need to start experimenting with FPGAs.|
|iCE40-HX8K Breakout Board||Lattice||iCE40-HX8K-CT256||7,680||$49||No||8 LEDs, 8 switches. Very similar to icoBoard, but no Raspberry Pi or pmod accessories.|
|iCE40 UltraPlus||Lattice||iCE40 UltraPlus FPGA||5280||$99||No||Chip specs. 4 switchable FPGAs, and a rechargeable battery. Bluetooth module, LCD Display (240 x 240 RGB), RGB LED, microphones, audio output, compass, pressure, gyro, accelerometer.|
|Go Board||Lattice||ICE40 HX1K FPGA||1280||$65||No||4 LEDs, 4 buttons, Dual 7-Segment LED Display, VGA, 25 MHz on-board clock, 1 Mb Flash.|
|snickerdoodle||Xilinx||Zynq 7010||28K||$95||Yes||Xilinx Zynq 7-Series SoC - ARM Cortex-A9 processor, and Artix-7 FPGA. 125 IO pins. 1GB DDR2 RAM. Texas Instruments WiLink 8 wireless module for 802.11n Wi-Fi and Bluetooth 4.1. No LEDs or buttons, but easy to wire up your own on a breadboard. If you want to use a baseboard, you'll need a snickerdoodle black ($195) with the pins in the "down" orientation. (E.g. The "breakyBreaky breakout board" ($49) or piSmasher SBC ($195)). The snickerdoodle one only comes with pins in the "up" orientation and doesn't support any baseboards. But you can still plug the jumpers into the pins and wire up things on a breadboard.|
|numato Mimas A7||Xilinx||Artix 7||52K||$149||No||2Gb DDR3 RAM. Gigabit Ethernet. HDMI IN/OUT. 100MHz LVDS oscillator. 80 IOs. 7-segment display, LEDs, buttons. (Found in this Reddit thread.)|
|Ultra96||Xilinx||Zynq UltraScale+ ZU3EG||154K||$249||Yes||Has one of the latest Xilinx SoCs. 2 GB (512M x32) LPDDR4 Memory. Wi-Fi / Bluetooth. Mini DisplayPort. 1x USB 3.0 type Micro-B, 2x USB 3.0 Type A. Audio I/O. Four user-controllable LEDs. No buttons and limited LEDs, but easy to wire up your own on a breadboard|
|Nexys A7-100T||Xilinx||Artix 7||15,850||$265||No||. 128MiB DDR2 RAM. Ethernet port, PWM audio output, accelerometer, PDM microphone, microphone, etc. 16 switches, 16 LEDs. 7 segment displays. USB HID Host for mice, keyboards and memory sticks.|
|Zybo Z7-10||Xilinx||Zynq 7010||17,600||$199||Yes||Xilinx Zynq 7000 SoC (ARM Cortex-A9, 7-series FPGA.) 1 GB DDR3 RAM. A few switches, push buttons, and LEDs. USB and Ethernet. Audio in/out ports. HDMI source + sink with CEC. 8 Total Processor I/O, 40 Total FPGA I/O. Also a faster version for $299 (Zybo Z7-20).|
|Arty A7||Xilinx||Artix 7||15K||$119||No||256MB DDR3L. 10/100 Mbps Ethernet. A few switches, buttons, LEDs.|
|DE10-Standard (specs)||Altera||Cyclone V||110K||$350||Yes||Dual-core Cortex-A9 processor. Lots of buttons, LEDs, and other peripherals.|
|DE10-Nano||Altera||Cyclone V||110K||$130||Yes||Same as DE10-Standard, but not as many peripherals, buttons, LEDs, etc.|
Note: I've changed my mind several times as I learned new things. Here's some of my previous thoughts.
Here are a few uses and generic ideas of what to go for. Audio Editing: Lots of small tasks that need to be completed quickly without lag. - Fast Processor( >4GHZ) - Fast RAM (MHZ) -At least 16 gigs! - Fast Storage, SSD manditorily - M.2 or PCI for best performance. - Shitty Graphics card, graphics card there only to keep the cpu from doing other tasks when working. - Can be a few generations or years old. - Many screens for lots of plug in windows to be open Video Editing: Lots of large to render and files to read. - Multi core processor the more the merrier - SSD for fast read/write of large video files. - Insane graphics card, AMD graphics cards are debatibly better but the nvidia Quadro series are specific for video rendering. Gaming: No more than 4 cores intense graphics card - 92% of games are not coded for more than 4 cores so why spend the extra money for it. - SSD for quick load screens - Nvidia cards, 10 series, the higher the number the better. Titan cards for MAXIMUM OVERDRIVE! Coding: quick processor for lots of small tasks. Ergonomic peripherials? - Dear god please dont use a mechanical keyboard so that your coworkers dont kill you. Home office: Everything can be a few gens behind so you can get the best power per dollar spent. - Sorry that Gateway doesnt exist anymore. I guess try Dell...Parts (Expensive Legos)
CPU (tells things to go places and outputs data) Basically three main routes to go for: Intel, AMD, or ASIC. Intel - Gaming, Data center, Hackintosh Pros: Cooler, Faster speed (GHZ), short small tasks faster Cons: $$$$, less cores AMD - Gaming, Personal Computing, Large task processing Pros: Lots of cores, better price per performance, faster processing of large tasks Cons: Hot chips, large chips?, compatibility issues with MacOS. ASIC - "Application-specific integrated circuit" Pros: Does the task that they are made to do insanely efficently, great for mining. Cons: Literally does nothing else. Holy hell these are expensive, very hot (fans will get loud) CPU Cooler (Im a big fan) Most come with an in box cooler that are ok but please buy aftermarket. In Box - the free shitty cooler that comes with the processor. Pros: Free. Cons: Ugly, makes chip run hot, hard to clean Air cooler - oldest type of cooler but new designs are highly efficent. Pros: Only cooler that has the possibility of being 100% quiet, most likely cheaper Cons: large, if cooler isnt large enough for the chips thermal output the fans will be loud. Liquid - Custom pipes are beautiful, AIO is easy to install and offers similare performance. Pros: Looks cool, great temperatures, "quiet" Cons: Water pump has possibility of being loud, possible spills Phase Change - uses the technology of refridgerators to cool the chip Pros: Can overclock until the chip breaks. (whats colder than cold? ICE COLD!) Cons: Loud (compressor noise), Large pipes, just why.... Motherboard (the convienacnce store of computer parts) Really just about what type of I/O you want. - MAKE SURE FORM FACTOR FITS YOUR CASE! (or vice versa) - Look for PCI lanes for expansion. - How many graphic cards do you have? - PCI based interfaces? - PCI SSD? - PCI DAC? - PCI WIFI? - USbs? Network? Audio? - How many lanes of RAM? - DOES IT FIT YOUR PROCESSOR!?! (really tho) - M.2? - How many sata interaces? Good Brands: MSI, ASUS, Gigabyte Bad Brands: AS(s)Rock, Dell Memory (Dory) - The more the merrier - No less than 8gb for a functional windows machine (16 gb to never have a problem) - Use all the lanes your computer has to offer! the more lanes to access the faster the data can travel! -Imagine drinking a milkshake. If the straw is wider you can drink more of the milkshake than a skinny straw. - Faster MHZ for faster data access but give minimal performance differances - Please get ram with heat spreadders unles youre building a server with high airflow. - Make sure the type (DDR3 or DDR4) of RAM matches what your processomotherboard call for. Good Brands: Corsair, G.Skill, Ballistix Storage (Grandpa that remembers everythign about how things used to be but takes forever to learn a new tasK) Speed or massive storage? slower is cheaper. Golden ratio of speed/storage/price is 250-500 gb SSD and a 1+ tb disk drive. *Max speeds listed are for a single drive not RAID* Hard Disk Drives (HDD) - Cheapest and slowest - read/write speeds of < 0.5gb/s - 7200+ RPM or GTFO - Higher Speed drives can access data faster. - Do not move while powered up. physical parts will break. - Larger Cahche = faster Read/Write Speeds Pros: Cheap, Holds massive amounts of data Cons: Slower than molasses in a frezer Reputible Brands: Seagate, WD Solid State Drives (SSD) - necessity for quick boots and fast load screens (can only be re-written to so many times) - SATA based (2.5 inch)- Read/Write speeds capped @ 6 gb/s Pros: Most economical, form factor fits with old computers, Cons: "Slow" compared to other ssd's (but stil 12 times faster than a HDD) - M.2 based - Read/Write speeds capped @ 10 gb/s Pros: Size of a sick of gum! High End but not too expensive to be out of reach. Cons: Expensive for any size over 500 gb - PCI based - Read/Write speeds capped @ 20 gb/s for PCI3, x4 Pros: HOLY BANDWIDTH BATMAN! Faster than that little creepy ghost thats always in the corner of you eye Cons: You might have to take out a loan to buy one. *takes up a x4 PCI Lane* Reputible Brands: Samsung! Corsair, Plextor, Intel, Kingston, Crucial Video Card (that one kid that has thick glasses and is really good at math) - A regular old PCI card that handles all of the video rendering and output for your computer. - ASIC PCI cards. - The PCBs and chips are patented by two main companies but the differances come from line up and varying manufacturer cooling devices. - The more memory the better -NVIDIA (Team Green) Great for gaming, has specific card series for intensive rendering. Lazy driver updates. - Gaming - 900 series - Cheap - Low performance - Can play any video game made befrore 2010 on max settings - 1000 (ten) series - Expensive (thanks bitcoin miners...) - Great for VR! - Video Rendering -Quadro Series - Gaming and Rendering - Titan X - Maxwell based chip same as 900 series cards - Titan XP - Pascal based chip same as 10 series cards -AMD (Team Red) Underdog does the same thing but slighly worse and cheaper. (except video rendering) - Gaming - RX 400 series - Cheap - Hot - RX 500 series - Cheap - Ok at VR and deacent gaming frame rates. - Not bad but not particularly great either. - Video Rendering - Fire Pro series - Gaming and Rendering - Vega series -Good luck finding one to buy lmao Case (Fancy clothing for your parts!) - Similar to human clothing you want it to do a few main things really well with compromises for each extreme. - Durability - Steel - Incredibly durable - Creates Farady cage for components - Heavy af - Magnets, just magnets.... - Rust over time - Aluminium - Light - East to bend for modding or "physical maintenance" - Less likely to rust - Huzzah for Farady cages! - Plastic - Just dont - no electrical Ground - no faraday cage - Light AF! - Breath (Airflow) - positive internal airflow! - larger fans push the same amount of air with less speed/noise - Looks - Window? - RGB - Cool Paint? - Fit all your parts - graphics card length/ clearacne - support for liquid cooling raiators? - How many spots for HDD/SSDs - Motherboard format - Cable management! Power Supply (FIGHT MILK) - Rule of thumb: BUy Powersupply that outputs 1.5 times the wattage that you need. - You can walk further than you can you can run. - The PSU can casually output 50-75% power for much longer than at 90-100% (without failure) - If you never demand enough wattage for it to get hot the fan doesnt have to turn on therefore making it quieter. - Modular means you can remove/replace the cables from the PSU. Reputible Brands: Corsair, EVGA Optical Drive (motorized cup holder) - You can download most things today so I'd suggest against it unless you really NEED to watch/write DVD's/CD's Operating System (software that makes everything work) Windows (Always Updates) - Compatible with just about everything - Easy to learn to code on! - POS inital browser - Likely to get virus's Linux (Penguins are cute) - Unique - takes less resources to run - Barebones - Incredibly personalizable! - Compatibility issues with just about everything MacOS (Linux but more annoying) - It is legal! - Great for art and your grandma that doenst know how to use computers! - User friendly - Compatibility issues with various hardware - Confusing/Limiting coding structure Peripherials (cables everywhere!) - Keyboard (higer Polling rate is better) - Mechanical (key is pressed at an exact stroke length every time - Mouse (Higher Polling rate is better) - more buttons = better? - DPI (Dots Per Inch) - In theory, if a mouse has 1600 DPI, then, if you move your mouse one inch (2.54 cm), the mouse cursor will move 1600 pixels - Higher DPI the faster your cursor is able to be moved. - Monitor - In theory the human eye cant see faster than 60 frames per second. - Keep in mind Pixel ratio! - 4k screen that is 22inches will have more pixels in a square inch than a 4k screen that is 28 inches. - Interface? - DVI (Analog) - thumbscrews..... - can do two monitors with one port! - support for 4k - VGA (Analog) - thumbscrews... - max resolution is 1440p - Display Port (digital) - nice button clip - supports 4k - HDMI (Digital) - 1.2 or higer supports 4k - DAC/Speakers/Headphones - Dont even get me started - Microphone - Dont get me started PT.2 Other (other) - UPS (uninterruptible power supply) Just a battery that allows your computer to have some time if the power ever goes out so that you have time to save your work. - Cable Organization materials! - Zipties - velcro - LED LIGHTING! - Manditory - Extra/Better fans - More pressure, less woosh - IFIXIT Pro Tech Toolkit - becasue who buys just one torx wrench. - Cute kitten mousepad - Yes, it has to be a cat. Dont argueThis is a very general entry into building computers and what you should buy/look for. If you have any questions/comments send me an e-mail!
FÜR USB MINER 2PAC UND NEWPAC das UPGRAD SET V.1.2. 2020 - UMBAUEN KIT ONLY . EUR 15,99. Noch 5. Antminer Z9-mini used - Ships Next Day. EUR 59,00. 3 verkauft . ASIC-Miner Lüfter (Ruizhan Motors DC12V 2.70A) EUR 12,90. 1 verkauft. Anzeigen. Bitmain AntMiner AntRouter R1-LTC Scrypt WiFi Crypto Miner mit ASIC Chip Schwarz. EUR 75,90. Bisher: Bisheriger Preis EUR 79,90. Für Antminer Tin Tool ... BFGMiner verfügt über zahlreiche Gerätetreiber für Bitcoin, einschließlich Drillbit Thumb und Eight, Twinfury USB-Stick Miner, FPGA-Karten von Ztex. Es gibt auch Gerätetreiber für Scrypt, wie z.B. GAW War Machine und ZeusMiner-Einheiten. Mining Rig selber bauen – einen CPU/GPU Miner zusammenstellen Transcript - USB - Bitcoin Mining Setup Guide. What’s going on every one? This is Fred and today we’re going to build a Bitcoin miner. All right. So, if you’re unfamiliar with Bitcoin I do have another video that has all the 10 things that you need to know about Bitcoin. So, give that a watch, get caught up, come back and we’ll get started. The 21 Bitcoin Computer isn’t the typical USB Bitcoin miner. It does, however, plugin to your computer via USB. In terms of $ / hash rate, it’s not a very good choice. But since it’s still technically a USB miner we have included it in this list. If you’re not impressed, we don’t blame you! USB Bitcoin mining was only profitable when Bitcoin was in its early years. If you just want ... While understanding each device and its perks and drawbacks, I suggest that the recommendable device or the best USB bitcoin miner to be used would be the Gekkoscience Compac USB stick bitcoin miner as these devices are fast for USB stick miners. As in, 20 GH/s (with tuning) fast. You can get plenty of support in their forums and they even have a few example setups to work with. Reasonable ...
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Does the GekkoScience 2PAC Bitcoin USB Mining Stick actually work? Watch my video to find out how I mine Bitcoin solo in Windows 7/8/10 using the Gekko Scien... This is an experiment using an AntMiner S9 in a fishtank! Please know that this is an experiment and is solely for learning and experimentation purposes. The... New video every Tuesday! Today we are taking a look at the Gekkoscience NewPac USB miner. We'll check all the hardware you need for setting it up, discuss so... This video features a screen grab of CGMiner solo mining Bitcoin using a single GekkoScience 2PAC-2 Bitcoin USB Mining Stick -- Sold on Amazon: http://amzn.t... Welcome back to cursed mining, and today it is time to expand the #USB #mining farm with #Gekkoscience 2PACs. CGMINER WITH DRIVER (from bitshopper.de) http:/...